CN2882204Y - Vertical fan radiator structure - Google Patents

Abstract

The utility model provides an upright fan radiator structure, which comprises a fin assembly and a fan grill combined with the fin assembly. One end of the fan grill is joined with at least two fans to form a radiation module. The radiation module is mounted vertically on an electronic assembly in such a form that the longitudinal length is bigger than the transversal length, and the mounting is not influenced by the surrounding components of the electronic assembly, the radiation module can be easily mounted on the electric assembly in an upright way, which guarantees good heat radiation, so that the electronic assembly can operate normally.

Description

Vertical type fan heat spreader structures

Technical field

The utility model relates to a kind of radiator, particularly a kind of heat spreader structures that is installed in electronic building brick in upright mode.

Background technology

Known, electronic building brick during computer and ancillary equipment thereof are used at present, all be to pass through radiator, to distribute the high heat that electronic building brick is produced in running, in the designs such as area of dissipation, wind water conservancy diversion scope and wind flow of radiator, all will directly reflect its heat transmission and radiating efficiency,, will improve radiating efficiency and quality so good fins group, fan structure and configuration design are arranged.

Above-mentioned fin-type module heat radiator mainly utilizes a plurality of radiating fins to form, and runs through in radiating fin and be provided with at least one heat pipe, forms fins group, and is covered with fan housing or fan in the fins group outside, or utilizes heat pipe to contact with heat-conducting plate.This radiator is installed on the electronic building brick in the mode of lateral length greater than longitudinal length, will be subjected to the influence of electronic building brick perimeter component when mounted, is difficult for being installed in radiator on the electronic building brick or from wherein separating.Simultaneously, after heat pipe absorbs heat energy, be passed on the heat pipe with horizontal heat, this kind thermal conduction rate is slower, certainly also directly influence radiating efficiency, especially be applied to now arithmetic speed electronic building brick faster, can't satisfy the heat sinking function demand of the thermal source that produces.

In addition, some is installed on the fan housing of radiating fin outside and offers air outlet, and when fan is sent to fan housing when inner with air, this air outlet can be discharged heat energy, and the design of this kind air outlet only can impel multi-direction discharge.But, relevant for radiating efficiency and radiating fin number, heat transfer coefficient and the cooling air import volume of radiator, wherein again with the cooling air import volume key that improves of efficient more.Therefore, conventional art sets up the cooling air quantity that air outlet is helpless to, also can't improves importing on the fan housing sidewall.In other words, can not improve the importing cooling air quantity, even Duo air outlet more also can't satisfy or produce high efficiency radiating effect.

The utility model content

Main purpose of the present utility model is to address the aforementioned drawbacks, avoid defective to exist, the utility model is under the situation of structure that redesigns fins group, fan housing and fan and configuration, allow radiating module uprightly be installed on the electronic building brick greater than the mode of lateral length with longitudinal length, except improving the radiating effect, can also under the influence that is not subjected to the electronic building brick perimeter component, on electronic building brick, install easily or separate.

For achieving the above object, vertical type fan heat spreader structures of the present utility model includes:

Fan housing has an air guide hole at least on it;

Fins group, wherein, a plurality of radiating fins are installed in above-mentioned fan housing inside with level, are formed with passage between each radiating fin, and run through in each radiating fin and be provided with at least one heat pipe;

At least two fans, stacked to be installed in fan housing inner or outside, and adjacent with fins group.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the radiating module structure of an embodiment of the present utility model;

Fig. 2 is the radiating module of an embodiment of the present utility model and the combination schematic diagram of fan;

Fig. 3 is the combination schematic diagram of the radiator of an embodiment of the present utility model;

Fig. 4 is the radiator of an embodiment of the present utility model and the schematic diagram before the electronic building brick combination;

Fig. 5 is the radiator of an embodiment of the present utility model and the combination schematic diagram of electronic building brick.

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

Fins group 1 fan housing 2

Radiating module 3 fans 4,4a

Electronic building brick 5 radiating fins 11

Heat pipe 13 heat-conducting plates 14

Roof 21 sidewalls 22,23

Space 24 air guide holes 25

Passage 12 flange parts 26

Embodiment

Relevant technology contents of the present utility model and detailed description, existing conjunction with figs. is described as follows:

Fig. 1, Fig. 2, shown in Figure 3 be that the assembly of vertical type fan heat spreader structures of the present utility model decomposes and the combination schematic diagram.As shown in the figure, vertical type fan heat spreader structures of the present utility model includes: fins group 1, and combine the fan housing 2 that is covered with fins group 1, form radiating module 3, in addition, end at fan housing 2 is combined with two fans 4,4a, vertical type fan radiator of the present utility model is installed on the electronic building brick, form the structure of longitudinal length greater than lateral length, this helps heat energy upwards transmission fast, can be fast with the heat energy heat radiation, simultaneously because vertical type fan radiator of the present utility model is installed on the electronic building brick, can not be subjected to the influence of electronic building brick perimeter component, can not cause the problem that is difficult for installation or separates.

Above-mentioned fins group 1, comprise a plurality of radiating fins 11,11 of each radiating fins are formed with passage 12, and each radiating fin 11 is assembled in the fan housing 2 with level, and run through being provided with at least one heat pipe 13 in aforesaid fins group 1, heat pipe 13 1 ends contact with heat-conducting plate 14.

Above-mentioned fan housing 2, form by roof 21 and two sidewalls 22,23, empty therein inside is provided with a space 24, combine assembling with above-mentioned fins group 1, in addition, appropriate position on aforesaid two sidewalls 22,23 is provided with at least one air guide hole 25, and these air guide hole 25 peripheries convex with flange part 26.

Two above-mentioned fans 4,4a with erectly mutually stacked fixing mode to be combined in above-mentioned fan housing 2 by lock-in component etc. inner or outside, and adjacent with fins group 1, the heat energy that fins group 1 can be absorbed is discharged.

Fig. 4, the heat radiation assembling that is vertical type fan heat spreader structures of the present utility model is applied to electronic building brick shown in Figure 5 are decomposed and the combination schematic diagram.As shown in the figure, vertical type fan heat spreader structures of the present utility model by said modules in conjunction with after forming radiating module 3, utilizing heat-conducting plate 14 to fit with electronic building brick 5 surfaces installs, the longitudinal length that forms is greater than lateral length, after the heat energy that allows electronic building brick 5 runnings be produced is absorbed by heat pipe 13 fast, underground heat is passed to each radiating fin 11 of fins group 1 fast, and the heat energy that fan 4,4a can fast radiating fin 11 be absorbed is discharged.

When fan 4,4a discharge heat energy, the air guide hole 24 of these fan housing 2 sidewalls 22,23 imports extraneous air fan housing 2 inside simultaneously, in addition, air guide hole 25 is in connected state with the passage 12 of fins group 1, the air capacity that this can improve distinguished and admirable speed and enter fan housing 1 inside, allow heat energy that fins group 1 absorbed can be fast by band from, to improve radiating effect.And aforesaid air guide hole 25 is when importing air, the air that is imported into is originally by fan 4 or hot blast that 4a discharged a bit, so the flange part 16 that air guide hole 25 is convexly equipped with allows the inlet of air guide hole 25 and radiator form certain distance (walking some strokes) more, make air guide hole 25 can import the air of lower temperature, make radiating fin 11 cooling rates of fins group 1 fast, so conditions such as air guide hole 25 set positions, quantity, direction, shape and inlet internal diameter size change, and import usefulness with producing different air capacities.

Because radiating module 3 is installed on the electronic building brick 5 in upright mode, the longitudinal length that forms is greater than lateral length, the heat energy that allows radiating module 3 the be absorbed transmission that to make progress fast, add the air guide hole 25 of fan housing 2 sidewalls 22,23 and the design of flange part 26, the heat energy that fan 4,4a can fast fins group 1 be absorbed is discharged, and can reach the purpose of quick heat radiating.Simultaneously, radiating module 3 is installed on the electronic building brick 5 in upright mode, is not subjected to the influence of electronic building brick 5 perimeter components, allows radiating module 3 can be easily mounted on the electronic building brick 5 or from wherein separating.

Below only being the explanation to preferred embodiment of the present utility model, is not to be used for limiting practical range of the present invention.Under the situation that does not break away from scope and spirit of the present utility model, the various variations of being done all should be encompassed in the claim of the present utility model institute restricted portion with modifying.

Claims (6)

1. a vertical type fan heat spreader structures is characterized in that, is installed on the electronic building brick in the upright mode of longitudinal length greater than lateral length, and this structure comprises:

Fan housing has roof on it, described roof two ends respectively have sidewall, forms a space between described roof and two sidewalls;

Fins group is installed in described fan housing inside with a plurality of radiating fins with level, is formed with passage between each radiating fin, and runs through in each radiating fin and be provided with at least one heat pipe;

At least two fans are installed in described fan housing inside in mutual stacked mode, and adjacent with described fins group.

2. vertical type fan heat spreader structures as claimed in claim 1 is characterized in that, is provided with an air guide hole at least on described two sidewalls, and described air guide hole periphery convexes with flange part.

3. vertical type fan heat spreader structures as claimed in claim 1 is characterized in that, described heat pipe one end contacts with heat-conducting plate.

4. a vertical type fan heat spreader structures is characterized in that, is installed on the electronic building brick in the upright mode of longitudinal length greater than lateral length, and this structure comprises:

Fan housing has roof on it, described roof two ends respectively have sidewall, forms a space between described roof and two sidewalls;

Fins group is installed in described fan housing inside with a plurality of radiating fins with level, is formed with passage between each radiating fin, and runs through in each radiating fin and be provided with at least one heat pipe;

At least two fans are installed in described fan housing outside in mutual stacked mode, and adjacent with fins group.

5. vertical type fan heat spreader structures as claimed in claim 4 is characterized in that, is provided with an air guide hole at least on described two sidewalls, and described air guide hole periphery convexes with flange part.

6. vertical type fan heat spreader structures as claimed in claim 4 is characterized in that, described heat pipe one end contacts with heat-conducting plate.

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