CN101201679A - Radiation wind-guiding hood - Google Patents

Abstract

The invention provides a heat dissipation wind guide cover which is fixed and arranged in a computer box and covered on a plurality of high heating component of a master leaf. The invention comprises a main wind guide cover and an accessorial wind guide cover. A first wind guide area is separated from the inner part of the computer box by the main wind guide cover. And a wind inlet is formed at one side of the first wind guide area. The accessorial wind guide cover is fixed and arranged at the bottom of the main wind guide cover and is arranged in the first wind guide area, so a second wind guide area is separated from the inner of the first wind guide area and is communicated with the wind inlet. One of the high heating components is covered by the accessorial wind guide cover so as to be placed in the second wind guide area. The heat dissipation wind guide cover of the invention can integrate a system fan and a heat dissipation fin. The heat dissipation efficiency of the high heating components is strengthened.

Description

Radiation wind-guiding hood

Technical field

The invention relates to the radiator structure of a kind of computer cabinet inside, the particularly a kind of radiation wind-guiding hood that can strengthen dispelling the heat at a plurality of high heat generating components.

Background technology

For making computer system meet the requirement of consumer more for data processing speed, so that in the shortest time, finish increasingly sophisticated various programs, the developing goal that industry all realizes promoting processing speed and finishes the multitask computing with the means that increase chip precision, and under the situation that processing speed constantly promotes and chip size constantly dwindles, following one by one is the heat dissipation problem that chip produces under high-speed computation, this point directly has influence on performance of computer systems and stability, how the used heat of chip generation is promptly discharged, thereby the radiating efficiency of main chip in the elevator system, obviously become the industry most thorny issue in recent years, wherein comprise the personal desk-top computer of popularizing the most certainly, the known radiating mode of general the most normal use is nothing more than being that object surface in that desire is strengthened heat radiation installs the radiating module of being made up of various radiating fins and fan additional, under the system fan of cabinet cooperates, used heat is discharged outside the computer system again, reduce the temperature of inside computer system.

Compare with desk-top computer and notebook computer or workstation servers, have bigger heat-dissipating space between the main electronic component of each of desk-top computer, be difficult for the problem that exists used heat to get rid of, but significantly lifting along with each assembly arithmetic speed, with regard to desk side computer system now, it is not only the heat dissipation problem that will solve central processing unit, other is as internal memory, video card and be arranged at chip on the mainboard etc. and all perplexed by heat dissipation problem, and the simplest radiating module that on each assembly, all installs additional exactly, but so just can increase the cost and the electric load of computer system, and cabinet inside has the stream condition that a plurality of radiating modules also have a strong impact on its interior flow field, increase near the resistance to flow of the air of radiating module, make can't directly the flow through surface of other high heat generating component of air, and cause the air of cabinet inside to carry out thermal convection by the system fan and the external world apace, so that the used heat that each radiating module and other hot assembly occurred frequently are discharged is hoarded the cabinet inside in computer system, time increase along with the computer booting operation, the cabinet inside temperature is also because of the bad continuous rising of convection current, and then efficient that influences computer system and stability, even Yin Gaowen causes the overheated and defective chip of assembly.

Therefore, industry is just developed the wind scooper that is arranged at cabinet inside at this poor heat radiation problem, the wind scooper of the heat abstractor that is disclosed for I252972 number as the TaiWan, China patent announcement, be to cover assembly that need to strengthen heat radiation with wind scooper, constitute an air flow passage, cooperate the radiating fin that is provided with on the central processing unit again, and the fan that is provided with at wind scooper passage one side, so as to the stable flow field that needs the assembly surrounding air of reinforcement heat radiation, thereby increase cabinet inside cross-ventilation effect, but air is not directly to blow toward radiating fin, limited for the radiating effect of strengthening central processing unit, and the radiating requirements that produces because of high precision and high arithmetic speed for current central processing unit, this design easily makes its temperature too high and influence the stability of computer system, and is impracticable.

The United States Patent (USP) bulletin airduct that No. 6442024 patent disclosed and for example, it is the airflow direction that utilizes airduct inner structure control fan to blow out, and air is concentrated and directly blowed towards high heating region, so as to strengthening the radiating efficiency of high heat generating component, but the runner of its air is fixed, can only strengthen heat radiation at the high heat generating component of minority,, necessity of further improvement be arranged really for the desk-top computer that has numerous high heat generating components and inapplicable.

In other words, the radiating module of prior art easily makes the cabinet inside cross-ventilation not good, easily cause too much used heat to be hoarded and cause the cabinet inside temperature too high, and existing wind scooper design also can't effectively be strengthened heat radiation at the high heat generating component of computer system, or can only strengthen heat radiation at the high heat generating component of minority.

Summary of the invention

Fundamental purpose of the present invention provides a kind of radiation wind-guiding hood, but integration system fan and radiating fin, and for a plurality of high heat generating components reinforcement radiating efficiencys.

To achieve these goals, radiation wind-guiding hood of the present invention is fixedly arranged on computer cabinet inside and is covered on a plurality of high heat generating component of a mainboard, this radiation wind-guiding hood comprises: a leading fan housing, this computer cabinet inside is separated out one first wind-guiding district, and a side in this first wind-guiding district forms an air intake vent; An and attached wind scooper, be fixedly arranged on this leading fan housing bottom and be contained in this first wind-guiding district, thereby in this first wind-guiding district, be separated out one second wind-guiding district in addition, and be communicated with this air intake vent, wherein one of them of high heat generating component covered by this attached wind scooper, thereby is contained in this second wind-guiding district.

The leading fan housing of described radiation wind-guiding hood comprises that further one has an end face and a top plate portion with respect to the bottom surface of this end face, and the both sides, bottom surface of this top plate portion are extended two side plates respectively downwards certainly, surround with this top plate portion and form this first wind-guiding district.

The air intake vent of described radiation wind-guiding hood is adjacent to a plurality of fans arranged side by side on this computer cabinet, and fan sucks the cabinet outer air, and the generation air-flow imports this first wind-guiding district via this air intake vent.

The attached wind scooper of described radiation wind-guiding hood further includes a bias sheet and two flat plate of being extended by these bias sheet both sides respectively downwards, forms this second wind-guiding district so that surround.

The end face of the top plate portion of described radiation wind-guiding hood is staggered to form a plurality of convex ribs.

The top plate portion of the leading fan housing of described radiation wind-guiding hood is being provided with a fastener away from this inlet air oral-lateral, can detain solid on a dividing plate of this computer cabinet inside, so that this radiation wind-guiding hood is installed in this computer cabinet inside.

The top plate portion bottom surface of the leading fan housing of described radiation wind-guiding hood forms a plurality of projections, each projection front end can have a screw respectively, and this attached wind scooper has a plurality of fixed orifices, wherein each fixed orifice is used for passing and screw in this corresponding projection for a screw piece, so as to being fixedly arranged on this leading fan housing by attached wind scooper.

The top plate portion bottom surface of the leading fan housing of described radiation wind-guiding hood forms a plurality of projections, each projection front end also can form a fitting portion respectively, and this attached wind scooper has a plurality of fixed orifices, wherein respectively this fitting portion can embed this corresponding fixed orifice respectively, so as to being fixedly arranged on this leading fan housing by attached wind scooper.

In other words, to achieve these goals, the invention provides a kind of radiation wind-guiding hood, be fixedly arranged on a computer cabinet inside, and be covered on a plurality of high heat generating component of mainboard, it comprises a leading fan housing and an attached wind scooper.Leading fan housing is separated out one first wind-guiding district with this computer cabinet inside, and a side in the first wind-guiding district forms an air intake vent.Attached wind scooper is fixedly arranged on leading fan housing bottom and is placed in the first wind-guiding district, thereby in the first wind-guiding district, be separated out one second wind-guiding district in addition and be communicated with air intake vent, wherein one of them of a plurality of high heat generating components covered by attached wind scooper, thereby be placed in the second wind-guiding district, so that air-flow is concentrated the high heat generating component that blows to needs reinforcement heat radiation, so as to promoting the radiating efficiency of the inner high heat generating component of computer cabinet.

The invention has the beneficial effects as follows: the case radiation wind scooper limits a fixing air duct, and combination has a plurality of fans and radiating fin, can stablize the high heat generating component flow field of air-flow on every side, the air-flow that fan is blown out directly blows towards a plurality of high heat generating components or its radiating fin, so as to strengthening the cabinet inside cross-ventilation, thereby promote the radiating efficiency of computer system, and can be at the assembly of the required special reinforcement heat radiation of each main frame, the small-sized attached wind scooper of appropriate mix in wind scooper increases the radiating effect of high heat generating component.

Below be described in detail detailed features of the present invention and advantage in an embodiment, its content is enough to make any those skilled in the art to understand technology contents of the present invention and is implemented, and according to content, claims and the accompanying drawing that this instructions disclosed, any those skilled in the art can understand purpose and the advantage that the present invention is correlated with easily.

Above about content of the present invention explanation and the explanation of following embodiment be in order to demonstration and explain principle of the present invention, and provide the further explanation of patent claim of the present invention.

Description of drawings

Fig. 1 is the three-dimensional exploded view of radiation wind-guiding hood and computer cabinet in the first embodiment of the invention;

Fig. 2 is the three-dimensional exploded view of radiation wind-guiding hood, system fan and mainboard in the first embodiment of the invention;

Fig. 3 is the stereographic map of radiation wind-guiding hood, system fan and mainboard in the first embodiment of the invention;

Fig. 4 is the stereographic map of another angle of Fig. 3;

Fig. 5 is installed in the interior stereographic map of computer cabinet for radiation wind-guiding hood in the first embodiment of the invention;

Fig. 6 is the leading fan housing of radiation wind-guiding hood in the first embodiment of the invention and the three-dimensional exploded view of attached wind scooper;

Fig. 7 is the stereographic map of the radiation wind-guiding hood among Fig. 6;

Fig. 8 is the side view of radiation wind-guiding hood in the first embodiment of the invention;

Fig. 9 is the vertical view of radiation wind-guiding hood in the first embodiment of the invention;

Figure 10 is the diagrammatic cross-section of radiation wind-guiding hood in the first embodiment of the invention;

Figure 11 is the internal gas flow direction synoptic diagram of radiation wind-guiding hood in the first embodiment of the invention;

Figure 12 is the leading fan housing of radiation wind-guiding hood in the second embodiment of the invention and the three-dimensional exploded view of attached wind scooper;

Figure 13 is the stereographic map of the radiation wind-guiding hood in the second embodiment of the invention.

Wherein, description of reference numerals is as follows:

10-computer cabinet 11-back side panel 12-dividing plate

20-mainboard 21-internal memory 22-central processing unit

221-radiating fin 30-system fan 50-dominates fan housing

51-top plate portion 511-end face 512-bottom surface

513-convex rib 52-side plate 53-fastener

The 54-first wind-guiding district 55-air intake vent 56-projection

The attached wind scooper of 561-screw 562-fitting portion 60-

61-fixed orifice 611-screw piece 62-bias sheet

The 63-flat plate 64-second wind-guiding district 100-radiation wind-guiding hood

Embodiment

For making purpose of the present invention, structure, feature and function thereof there are further understanding, now are described in detail as follows in conjunction with the embodiments.

Please refer to Fig. 1, Fig. 2, Fig. 3, Fig. 4 and shown in Figure 5, it is a kind of radiation wind-guiding hood 100 that first embodiment of the invention discloses, be arranged at computer cabinet 10 inside, and be covered on the high heat generating component of mainboard 20, it comprises a leading fan housing 50 and an attached wind scooper 60.

Computer cabinet 10 is the framed structure that an inner hollow slightly becomes cuboid, is arranged at wherein in order to hold various electronic packages.Dividing plate 12 is fixedly arranged on computer cabinet 10 inside, locks in the one side for mainboard 20, and cooperates the opposite side of mainboard 20 to lock on the back side panel 11 of computer cabinet 10, makes mainboard 20 be installed in computer cabinet 10 inside.Mainboard 20 is provided with a plurality of high heat generating components, and as internal memory 21, central processing unit 22 and other thermoelectron assembly occurred frequently, and each central processing unit 22 top is provided with radiating fin 221, and the used heat that produces in the time of can central processing unit 22 being moved by heat conduction is discharged.Back side panel 11 inside of computer cabinet 10 have been arranged side by side two system fan 30, but its quantity is not as limit, contiguous mainboard 20 1 sides and correspond respectively to the radiating fin 221 of each central processing unit 22, system fan 30 is sucked into air in the computer cabinet 10 from computer cabinet 10 outsides, force computer cabinet 10 inside and outside air to produce convection current, to strengthen the heat-sinking capability of computer cabinet 10.

See also Fig. 6, Fig. 7, Fig. 8 and Fig. 9, wherein leading fan housing 50 is made up of a top plate portion 51 and two side plates 52, and top plate portion 51 has an end face 511 and a bottom surface 512 with respect to this end face.Be staggered to form a plurality of convex ribs 513 on the end face 511, increase its structural strength with the flex stiffiness that increases top plate portion 51.Form a plurality of projections 56 on the bottom surface 512, each projection 56 top is provided with screw 561.Two side plates 52 extend downward vertically from top plate portion 51 both sides respectively, 512 sides form one first wind-guiding district 54 in the bottom surface with top plate portion 51, cover on the mainboard 20, therein the radiating fin 221 contour heat generating components of containment fan 30, internal memory 21 and central processing unit 22.Fastener 53 is arranged on the top plate portion 51 of leading fan housing 50, another side away from air intake vent 55, wherein fastener 53 mates with the dividing plate 12 of computer cabinet 10, it is an elastically deformable bent sheet, when being covered in mainboard 20 1 sides, radiation wind-guiding hood 50 can withhold dividing plate 12, so that radiation wind-guiding hood 50 is installed in computer cabinet 10 inside.

As shown in Figure 10 and Figure 11, the first wind-guiding district, 54 1 sides are air intake vents 55, the back side panel 11 of nearby computers cabinet 10, and with each system fan 30 covering, wherein each system fan 30 sucks computer cabinet 10 extraneous airs and the generation air-flow, import in the first wind-guiding district 54 through air intake vent 55, so that the air-flow of system fan 30 generations is directed to the radiating fin 221 of each central processing unit 22 by leading fan housing 50, to strengthen its radiating efficiency, avoid temperature too high and influence the stability of system.

Attached wind scooper 60 is installed in leading fan housing 50 lower edges, thereby is contained in the first wind-guiding district 54.Attached wind scooper 60 has a plurality of fixed orifices 61, correspond respectively to each projection 56 of leading fan housing 50 top plate portions 51, each fixed orifice 61 is to use for a screw piece 611 to pass, screw togather the screw 561 that screws in corresponding each projection 56 again, so that attached wind scooper 60 is connected on the bottom surface 512 that is fixedly arranged on leading fan housing 50.Attached wind scooper 60 further comprises a bias sheet 62, and two flat plate 63 of extending downward vertically by bias sheet 62 both sides respectively, to form the second wind-guiding district 64, and be communicated with air intake vent 55, cover internal memory 21 tops, the air-flow of system fan 30 generations is concentrated blow to internal memory 21, to strengthen its radiating efficiency, but attached wind scooper 60 can change according to the demand of design with the relation of leading fan housing 50 relative positions, to cooperate the position that is provided with of thermoelectron assembly occurred frequently on the various mainboards 20.

As Figure 12 and shown in Figure 13, be second embodiment of radiation wind-guiding hood of the present invention, its embodiment is roughly identical with first embodiment, however both difference parts are that attached wind scooper 60 combines with leading fan housing 50 in different ways.In a second embodiment, each projection 56 front end of leading fan housing 50 have an elasticity fitting portion 562 respectively, and each fitting portion 562 mates each fixed orifice 61 corresponding to attached wind scooper 60 respectively.Each fitting portion 562 is a cone shape, and has a broken ditch, along the radially incision of fitting portion 562.When fitting portion 562 bore radially a compressing power, fitting portion 562 can be compressed distortion, makes the diameter of the maximum gauge of its outer peripheral edges less than fixed orifice.When fitting portion 562 was inserted into fixed orifice 61, fitting portion 562 bore radially a compressing power and is compressed distortion, made fitting portion 562 by fixed orifice 61, and was restoring by fixed orifice 61 backs, embedded each corresponding fixed orifice 61 so as to making fitting portion 562.Therefore, the user only needs each fixed orifice 61 of attached wind scooper 60 is aimed at the fitting portion 562 of leading fan housing 50, again with of top plate portion 51 pushings of attached wind scooper 60 towards leading fan housing 50, make fitting portion 562 embed each fixed orifice 61 respectively, just attached wind scooper 60 can be connected on the bottom surface 512 that is fixedly arranged on leading fan housing 50.

Therefore, radiation wind-guiding hood 100 of the present invention limits a fixing air-flow channel, the air-flow that system fan 30 is produced can be concentrated to blow needs the assembly that dispels the heat on the motherboard 20, and attached wind scooper 60 can dispose its position according to different radiating requirements, so that be separated out another gas channel, air-flow is concentrated directly blown toward needing the extra assembly of strengthening heat radiation, promote radiating efficiency so as to strengthening cross-ventilation, and can need the special assembly of strengthening heat radiation to change collocation at each main frame, possess the effect of simultaneously a plurality of high heat generating components being strengthened heat radiation.

Though the present invention discloses as above with aforesaid embodiment, be not in order to limit the present invention.Modification of being made and retouching without departing from the spirit and scope of the present invention all belongs to scope of patent protection of the present invention.Please refer to appended claim about the protection domain that the present invention limited and ask book.

Claims (8)

1. radiation wind-guiding hood, it is inner and be covered on a plurality of high heat generating component of a mainboard to be fixedly arranged on a computer cabinet, and it is characterized in that: this radiation wind-guiding hood comprises:

One leading fan housing this computer cabinet inside is separated out one first wind-guiding district, and a side in this first wind-guiding district forms an air intake vent; And

One attached wind scooper, be fixedly arranged on this leading fan housing bottom and be contained in this first wind-guiding district, thereby in this first wind-guiding district, be separated out one second wind-guiding district in addition, and be communicated with this air intake vent, wherein one of them of high heat generating component covered by this attached wind scooper, thereby is contained in this second wind-guiding district.

2. radiation wind-guiding hood as claimed in claim 1, it is characterized in that: this leading fan housing comprises that further one has an end face and a top plate portion with respect to the bottom surface of this end face, both sides, bottom surface from this top plate portion are extended two side plates respectively downwards, surround with this top plate portion and form this first wind-guiding district.

3. radiation wind-guiding hood as claimed in claim 1 is characterized in that: a plurality of fans arranged side by side on contiguous this computer cabinet of this air intake vent, fan sucks the cabinet outer air, and the generation air-flow imports this first wind-guiding district via this air intake vent.

4. radiation wind-guiding hood as claimed in claim 1 is characterized in that: this attached wind scooper further includes a bias sheet and two flat plate of being extended by these bias sheet both sides respectively downwards, forms this second wind-guiding district so that surround.

5. radiation wind-guiding hood as claimed in claim 1 is characterized in that: the end face of this top plate portion is staggered to form a plurality of convex ribs.

6. radiation wind-guiding hood as claimed in claim 1, it is characterized in that: the top plate portion of this leading fan housing is being provided with a fastener away from this inlet air oral-lateral, can detain solid on a dividing plate of this computer cabinet inside, so that this radiation wind-guiding hood is installed in this computer cabinet inside.

7. radiation wind-guiding hood as claimed in claim 1, it is characterized in that: the top plate portion bottom surface of this leading fan housing forms a plurality of projections, each projection front end has a screw respectively, and this attached wind scooper has a plurality of fixed orifices, wherein each fixed orifice is used for passing and screw in this corresponding projection for a screw piece, so as to being fixedly arranged on this leading fan housing by attached wind scooper.

8. radiation wind-guiding hood as claimed in claim 1, it is characterized in that: the top plate portion bottom surface of this leading fan housing forms a plurality of projections, each projection front end forms a fitting portion respectively, and this attached wind scooper has a plurality of fixed orifices, wherein respectively this fitting portion can embed this corresponding fixed orifice respectively, so as to being fixedly arranged on this leading fan housing by attached wind scooper.

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