CN106873741A - The heat dissipation equipment of computer housing heat generating components - Google Patents

Abstract

The invention belongs to computer realm, specifically disclose a kind of heat dissipation equipment of computer housing heat generating components, including installing the radiator fan in cabinet, the wind outlet of the radiator fan is provided with wind collection slot, ventilation duct is communicated with the wind collection slot, the wind outlet of the ventilation duct is provided with the relative cooling mechanism in position, and the cooling mechanism includes several heat-sink units being arranged on heat generating components, rotating shaft is connected between the heat-sink unit, several rotating vanes are coaxially arranged with the rotating shaft.This programme can for the first time be radiated to cabinet heat generating components, secondary radiating and three radiatings, substantially increase the radiating efficiency of cabinet heat generating components, and radiating effect is more preferable.

Description

The heat dissipation equipment of computer housing heat generating components

Technical field

The invention belongs to computer realm, more particularly to a kind of computer configuation part or configuration.

Background technology

With the development of science and technology, computer starts to come into various enterprises and family, play important in production and living Effect.The electronic component of desktop computer is typically assembled into computer housing, and some parts in computer in operation can be a large amount of Heating, influence part in itself and other parts work.

The Chinese patent of Publication No. CN103970229A discloses a kind of circumferential malleation radiating computer housing, and it includes shell Body, inlet box, radiator fan；Inlet box is assemblied in enclosure interior top, is equipped with computer fittings, inlet box in housing in side wall Side on be machined with and be assemblied in the inside of inlet box with the heating corresponding through hole of computer fittings, radiator fan.The cabinet passes through Radiator fan blows out radiation air to inlet box, and radiation air blows to the electricity installed on housing by the through hole in inlet box surrounding side wall On brain fever part, air blowing radiating is carried out simultaneously to many places computer heat generating components.This radiator structure can only simply be radiated, The part especially severe for heating, such as processor, mainboard heat generating components radiating effect it is unsatisfactory, and air intake lower box part Sealing, the wind being blown into can not shed in time, have a strong impact on the radiating effect of cabinet.

The content of the invention

It is an object of the invention to provide a kind of heat dissipation equipment of computer housing heat generating components, to solve electricity in background technology The radiating of brain fever part is slow, the problem that radiating effect is bad.

In order to achieve the above object, base case of the invention provides a kind of heat dissipation equipment of computer housing heat generating components, Including installing the radiator fan in cabinet, the wind outlet of the radiator fan is provided with wind collection slot, is communicated with the wind collection slot Ventilation duct, the wind outlet of the ventilation duct is provided with the cooling mechanism relative with ventilation duct wind outlet position；The cooling mechanism bag Several heat-sink units on heat generating components are included, rotating shaft is connected between the heat-sink unit, it is coaxial in the rotating shaft Several rotating vanes are provided with, the wind that the rotating vane can be vented the blowout of pipe wind outlet drives.

The principle of this base case is：During work, when heat generating components needs radiating, start radiator fan, radiation air The radiation air that fan blows into is radiated for the first time to heat generating components, and radiation air completes first radiating, and post-concentration collection is at wind collection slot and passes through Cross ventilation duct to be discharged on rotating vane, the radiation air of discharge drives rotating vane to rotate, and the rotation of rotating vane can drive The flowing of surrounding air, realizes the secondary radiating to heat generating components.In addition, the rotation of rotating vane drives rotating shaft and heat-sink unit The heat that heat generating components is produced rapidly is passed out and radiated by motion, heat-sink unit in motion process, to heating Part carries out three radiatings, enhances radiating effect.

The beneficial effect of this base case is：

1st, this programme cabinet heat generating components can for the first time be radiated, it is secondary radiating and three times radiating, substantially increase cabinet The radiating efficiency of heat generating components, radiating effect is more preferable；

2nd, the radiation air that radiator fan blows out in this programme to heat generating components in addition to it can directly carry out first radiating, moreover it is possible to poly- Collect at wind collection slot and be transported in the relative position of rotating vane by ventilation duct, allow radiation air to be dissipated as heat generating components is secondary Heat and three power sources of radiating, this greatly reduces the energy consumption of case radiation, reduces maintenance cost；

3rd, the flowing for constantly rotarily driving surrounding air that this programme passes through rotating vane, realizes dissipating the secondary of heat generating components Heat；

4th, this programme constantly rotarily drives rotating shaft and heat-sink unit motion by rotating vane, it is achieved thereby that to heat generating components Three times radiating, improve radiating efficiency.

Scheme two：Scheme is preferred based on this, and the heat-sink unit includes the heat-conducting plate that can be conducted heat, the heat-conducting plate The ring duct for radiating is provided with, the ring duct is built with the hydrone in liquid under normal temperature；Ring duct Top be communicated with chamber, the pump for stirring hydrone is installed in the chamber, the pump is dynamic to be connected in rotating shaft.This Hydrone in scheme is in liquid at normal temperatures, and flowable, hydrone alloy thermal conductivity is very high, and by with ring The cooperation of shape conduit, increases the area of radiating, and realizes that sealing circulating type radiates in the presence of pump, and radiating rate is fast, dissipates Thermal effect is good；In addition, the heat transfer that heat-conducting plate rapidly can produce heat generating components is to the hydrone in ring duct, Improve the radiating efficiency of heat generating components；Ring duct can increase the flow path of hydrone, so as to allow hydrone to incite somebody to action The heat being absorbed to fully comes out, improving radiating effect.

Scheme three：This is preferred for scheme two, and the heat-conducting plate is copper heat-conducting plate.The heat transfer efficiency of copper heat-conducting plate Height, the heat transfer that rapidly can be produced heat generating components out, improves radiating efficiency.

Scheme four：This is preferred for scheme three, and the ring duct is copper ring duct.The heat conduction of copper ring duct Efficiency high, in the heat absorption that rapidly can be absorbed to hydrone to ring duct, and by ring duct and air The face of contact rapidly comes out heat, improves radiating efficiency.

Scheme five：Scheme is preferred based on this, and the wind collection slot is in funnel-form.Funnelform wind collection slot can be more rapidly Ground gathers the radiation air that radiator fan is produced in wind collection slot.

Scheme six：This is preferred for scheme five, and negative-pressure air fan is provided with the wind collection slot.Negative-pressure air fan can be more rapidly Be gathered in the radiation air that radiator fan is produced in wind collection slot by ground, and the radiation air for carrying out aggregation enters into ventilation with certain speed Pipe in, and increase radiation air from ventilation duct wind outlet out when speed, so as to improve the rotary speed of rotating vane, finally carry The radiating efficiency of high heat producing component.

Scheme seven：This is preferred for scheme six, and the filter for dedusting is provided with the wind collection slot.Filter can Filtering dust in radiation air is fallen, prevent dust block ventilation duct, and be also possible to prevent dust radiation processes always with The motion of radiation air and constantly enter into the part in cabinet is had adverse effect in cabinet.

Brief description of the drawings

Fig. 1 is the example structure schematic diagram of the heat dissipation equipment of computer housing heat generating components of the present invention；

Fig. 2 is the sectional view of heat-sink unit.

Specific embodiment

Below by specific embodiment, the present invention is further detailed explanation：

Reference in Figure of description includes：It is radiator fan 1, heat-sink unit 2, rotating shaft 3, rotating vane 4, wind collection slot 5, negative Pressure fan 6, filter 7, ventilation duct 8, heat generating components 9, heat-conducting plate 10, ring duct 11, hydrone 12, chamber 13, pump 14.

Embodiment is substantially as shown in Figures 1 and 2：

The heat dissipation equipment of computer housing heat generating components, is mainly made up of radiator fan 1, wind collection slot 5, ventilation duct 8, cooling mechanism. Radiator fan 1 is arranged in cabinet and is located at the top of cooling mechanism.Wind collection slot 5 is arranged in cabinet and positioned at cooling mechanism Lower section, wind collection slot 5 is in funnel-form, is provided with negative-pressure air fan 6 and the filter 7 for dedusting in wind collection slot 5.Ventilation duct 8 with Wind collection slot 5 is connected, and the upper end wind outlet of ventilation duct 8 is relative with the position of rotating vane 4 of cooling mechanism.

Cooling mechanism is made up of rotating shaft 3, several rotating vanes 4, several heat-sink units 2.Rotating vane 4 is arranged on and turns On axle 3；Heat-sink unit 2 is arranged on heat generating components 9, and by the sodium aluminium in liquid under heat-conducting plate 10, ring duct 11, normal temperature Alloy 12, chamber 13 and pump 14 are constituted.Wherein, heat-conducting plate 10 is copper heat-conducting plate 10, and ring duct 11 is copper ring duct 11；The bottom end face of ring duct 11 is welded on heat-conducting plate 10, and the hydrone 12 in liquid is located at annular under normal temperature In conduit 11；Ring duct 11 is connected with chamber 13, is provided with the pump 14 for stirring hydrone 12 in chamber 13, pump 14 with Rotating shaft 3 passes through spline connection.

During work, when heat generating components 9 needs radiating, start radiator fan 1, the radiation air that radiator fan 1 blows into is to hair Thermal part 9 is radiated for the first time, and radiation air completes first radiating post-concentration collection at wind collection slot 5, and in the effect of negative-pressure air fan 6 Under radiation air is entered into ventilation duct 8 with certain speed, and by the filtering of filter 7, the dust in radiation air is gone Remove.Go out and impact on the rotating vane 4 of high order end from the wind outlet of ventilation duct 8 by the radiation air for accelerating so that rotation Rotating vane piece 4 starts to rotate, and the rotation of rotating vane 4 can drive the flowing of surrounding air, realizes dissipating the secondary of heat generating components 9 Heat.In addition, the rotation of rotating vane 4 drives the pump 14 in rotating shaft 3 and chamber 13 to rotate, the rotation of pump 14 can stir annular and lead Hydrone 12 in pipe 11 simultaneously makes hydrone 12 be flowed in the interior circulation of ring duct 11, when hydrone 12 flow to During the position that heat-conducting plate 10 is in contact, hydrone 12 takes away the heat that heat generating components 9 is delivered on heat-conducting plate 10, and is following The heat that will be absorbed to during circulation is dynamic is come out by ring duct 11, and then three radiatings are carried out to heat generating components 9, Enhance radiating effect.

Above-described is only embodiments of the invention, and the general knowledge such as known concrete structure and characteristic is not made herein in scheme Excessive description.It should be pointed out that for a person skilled in the art, on the premise of structure of the present invention is not departed from, can be with Some deformations and improvement are made, these should also be considered as protection scope of the present invention, these are implemented all without the influence present invention Effect and practical applicability.This application claims protection domain should be defined by the content of its claim, in specification Specific embodiment etc. records the content that can be used for explaining claim.

Claims (7)

1. the radiator fan in the heat dissipation equipment of computer housing heat generating components, including installation cabinet, characterized in that, described dissipate The wind outlet of Hot-air fan is provided with wind collection slot, is communicated with ventilation duct on the wind collection slot, the wind outlet of the ventilation duct be provided with The relative cooling mechanism in ventilation duct wind outlet position；The cooling mechanism includes several radiating lists being arranged on heat generating components Unit, is connected with rotating shaft between the heat-sink unit, several rotating vanes, the rotating vane are coaxially arranged with the rotating shaft The wind that the blowout of pipe wind outlet can be vented drives.

2. the heat dissipation equipment of computer housing heat generating components according to claim 1, it is characterised in that：The heat-sink unit bag The heat-conducting plate that can be conducted heat is included, the heat-conducting plate top is provided with the ring duct for radiating, and the ring duct is built with normal The lower hydrone in liquid of temperature；Chamber is communicated with the top of ring duct, is provided with the chamber for stirring sodium aluminium The pump of alloy, the pump is dynamic to be connected in rotating shaft.

3. the heat dissipation equipment of computer housing heat generating components according to claim 2, it is characterised in that：The heat-conducting plate is copper Heat-conducting plate processed.

4. the heat dissipation equipment of computer housing heat generating components according to claim 3, it is characterised in that：The ring duct is Copper ring duct.

5. the heat dissipation equipment of computer housing heat generating components according to claim 1, it is characterised in that：The wind collection slot is in leakage It is bucket-shaped.

6. the heat dissipation equipment of computer housing heat generating components according to claim 5, it is characterised in that：Peace in the wind collection slot Equipped with negative-pressure air fan.

7. the heat dissipation equipment of computer housing heat generating components according to claim 6, it is characterised in that：Pacify on the wind collection slot Equipped with the filter for dedusting.