CN105334933B - A kind of method, electronic equipment and radiator removing radiator dust - Google Patents

Abstract

The embodiment of the invention provides a kind of method, electronic equipment and radiators for removing radiator dust, it is related to electronic field, realize the easy dust for automatically removing radiator, solve the prior art remove manually radiator dust method it is not only cumbersome, but also be easily damaged the defect of electronic equipment.The embodiment of the present invention provides a kind of method for removing radiator dust, the described method includes: the fan for controlling the radiator is rotated to first direction, dust on first part's cooling fin is sucked into the air duct in the radiator, and blows out the radiator from the second outlet；After the fan of the radiator is rotated to first direction, the fan for controlling the radiator is rotated to second direction, the dust on second part cooling fin is sucked the air duct in the radiator, and blow out the radiator from the first outlet.

Description

A kind of method, electronic equipment and radiator removing radiator dust

Technical field

The present invention relates to electronic field more particularly to a kind of method, electronic equipment and radiators for removing radiator dust.

Background technique

The radiator of electronic equipment generally comprises fan and cooling fin, when the processor of electronic equipment reaches certain temperature When, fan begins to rotate, by heat outside the gap blowout electronic equipment between cooling fin.But when electronic equipment uses Time it is longer after, or in the case where environmental sanitation is poor, on the cooling fin of radiator can accumulate one layer by fiber, carefully Hair, the floccule of the compositions such as soft hair, the gap between blocks heat dissipation piece, and the more can accumulate the more more, and due to cooling fin itself Heating, so that floccule condenses, the thing until forming similar felt blocks air outlet completely, so that fan is ceaselessly blown, both It is power-consuming, and be difficult to for heat being discharged.

The method of the dust of existing removal radiator is usually to dismantle electronic equipment, takes out radiator and is manually removed Dirt.

But the method for existing artificial dedusting was not only cumbersome, but also was easily damaged electronic equipment, moreover, because majority couple The structure of electronic equipment is unfamiliar with, it may be necessary to which the help of professional person just can be carried out artificial dedusting.

Summary of the invention

The present invention provides a kind of method and electronic equipment for removing radiator dust, realizes easy automatic dust removing.

In view of this, the present invention provides a kind of method for removing radiator dust, it is applied to an electronic equipment, the electronics Equipment includes radiator, wherein the radiator includes fan, first part's cooling fin, second part cooling fin, with described The corresponding first outlet of a part of cooling fin, second outlet corresponding with the second part cooling fin；The described method includes:

The fan for controlling the radiator is rotated to first direction, and the dust on first part's cooling fin is sucked institute The air duct in radiator is stated, and blows out the radiator from the second outlet；

After the fan of the radiator is rotated to first direction, the fan for controlling the radiator turns to second direction It is dynamic, the dust on the second part cooling fin is sucked into the air duct in the radiator, and blow out institute from the first outlet State radiator.

The present invention also provides a kind of electronic equipment, the electronic equipment include: including receiving unit, processor, and dissipate Hot device, wherein the radiator includes fan, first part's cooling fin, second part cooling fin, with first part heat dissipation The corresponding first outlet of piece, second outlet corresponding with the second part cooling fin；

The processor is used for, and the fan for controlling the radiator is rotated to first direction, and the first part is radiated The dust of on piece sucks the air duct in the radiator, and blows out the radiator from the second outlet；

And the radiator fan to after first direction rotation, control the fan of the radiator to second party To rotation, the dust on the second part cooling fin is sucked into the air duct in the radiator, and blow from the first outlet The radiator out.

The present invention also provides a kind of radiator, the radiator includes: fan, first part's cooling fin, and second part dissipates Backing, first outlet corresponding with first part's cooling fin, second outlet corresponding with the second part cooling fin；

Wherein, the fan is used to rotate to first direction, will be described in the dust sucking on first part's cooling fin Air duct in radiator, and the radiator is blown out from the second outlet；

And rotated to second direction, the dust on the second part cooling fin is sucked to the wind in the radiator Road, and the radiator is blown out from the first outlet.

From the foregoing, it will be observed that method, electronic equipment and the radiator of removal radiator dust provided in an embodiment of the present invention, pass through The fan for controlling radiator is rotated to first direction, by the air duct in the dust sucking radiator on first part's cooling fin, and The radiator is blown out from second outlet；After the fan of the radiator is rotated to first direction, the fan of radiator is controlled It is rotated to second direction, by the air duct in the dust sucking radiator on second part cooling fin, and blows out institute from first outlet Radiator is stated, to realize the easy dust for automatically removing radiator, the prior art is solved and removes radiator dust manually Method it is not only cumbersome, but also be easily damaged the defect of electronic equipment.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is the structure drawing of device of a kind of electronic equipment provided by the invention；

Fig. 2 is a kind of structure drawing of device of radiator provided by the invention；

Fig. 3 is a kind of structure drawing of device of radiator provided by the invention；

Fig. 4 is the structure drawing of device of another radiator provided by the invention；

Fig. 5 is the structure drawing of device of another radiator provided by the invention；

Fig. 6 is the A direction view and A-A ' sectional view of first baffle and second baffle in Fig. 5；

Fig. 7 is a kind of interactive body schematic diagram provided by the invention；

Fig. 8 is a kind of method flow diagram for removing radiator dust provided by the invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

The embodiment of the present invention provides a kind of electronic equipment 1, which can be laptop, desktop computer Deng.Referring to Fig. 1, the electronic equipment 1 includes: including receiving unit 11, processor 12 and radiator 13, wherein referring to figure 2, the radiator 13 includes fan 10, first part's cooling fin 20, second part cooling fin 30, with first part heat dissipation The corresponding first outlet 40 of piece 20, second outlet 50 corresponding with the second part cooling fin 30；

The processor 12 is used for, and the fan 10 for controlling the radiator 13 is rotated to first direction, and first part is dissipated 20 dust sucks the air duct in the radiator 13 on backing, and blows out the radiator 13 from the second outlet 50；

And after the fan 10 of the radiator 13 is rotated to first direction, control the fan 10 of the radiator 13 To second direction, for the dust on second part cooling fin 30 to suck to the air duct in the radiator 13, and from described One outlet, the 50 blowout radiator 13.

Preferably, the processor 12 can first be controlled the fan 10 of the radiator and be turned with first rate to first direction Dynamic first preset duration；Then control again the fan 10 of the radiator with the second rate to second direction rotation second it is default when It is long.

Wherein, the first rate and second rate are respectively preset rate, the embodiment of the present invention to this not into Row limits, it is generally the case that the first rate and second rate are disposed proximate to the maximum rate of the fan.

The first direction and the second direction are opposite direction.For example, first direction can be clockwise direction, the Two directions are counterclockwise, alternatively, first direction can be for counterclockwise, second direction be this implementation clockwise Example is not limited this.Referring to fig. 2, it is only illustrated so that first direction is clockwise direction as an example herein.

First preset duration and second preset duration can be equal, can also be unequal, it is generally the case that institute It states the first preset duration and second preset duration is 5-20 seconds, preferably 5 seconds.

Referring to fig. 2, the fan 10 that processor 12 controls radiator approaches the rotational speed of maximum rate to first direction. When rotational speed of the fan 10 to first direction (clockwise) to approach maximum rate, the flow direction of wind is Fig. 2 institute in radiator Show arrow direction, i.e., flow to the inside cavity of radiator from first part's cooling fin 20, then along going to clockwise Then two one end of part heat sink 30 far from second outlet 50 reach second by the gap between second part cooling fin 30 Outlet 50 is finally flowed out from second outlet 50.So fan 10 rotationally clockwise when, be equivalent to first part radiate Dust in piece 20 forms the suction into heat sink cavity, because the revolving speed of fan 10 is close to maximum rate, to first Dust in part heat sink 20 forms larger suction, so that the dust in first part's cooling fin 20 is detached from first part's heat dissipation Piece 20 enters air duct, then radiator is blown out from second outlet 50 along the flow direction of wind, to reach to first part's cooling fin 20 The effect of dedusting.

Similarly, processor 12 controls the fan 10 of radiator to approach the revolving speed of maximum rate to second direction (counterclockwise) When rotation, the flow direction of wind is arrow direction shown in Fig. 3 in radiator, and the chamber of radiator is as flowed to from second part cooling fin 30 Internal portion, then along the one end of first part's cooling fin 20 far from first outlet 40 is counterclockwise gone to, then by the Gap between a part of cooling fin 20 reaches first outlet 40, finally flows out from first outlet 40.So fan 10 is counterclockwise When direction rotates, it is equivalent to and the suction into heat sink cavity is formed to the dust in second part cooling fin 30, because of fan 10 revolving speed close to maximum rate, so, larger suction is formed to the dust in second part cooling fin 30, so that second part Dust in cooling fin 30 is detached from second part cooling fin 30 and enters air duct, then dissipates along the flow direction of wind from the blowout of first outlet 40 Hot device, to achieve the effect that dedusting to second part cooling fin 30.

Preferably, referring to fig. 4, it can be set between first part's cooling fin 20 and the second part cooling fin 30 There is first baffle 60, one end of the first baffle 60 is located at 50 side of the first outlet 40 and second outlet, and the other end is located at Between the cooling fin and fan 10, the first baffle 60 is for preventing the dust backflow of cooling fin to the seam of the cooling fin In gap.

For example, radiator can effectively be isolated dust using structure shown in Fig. 4 when being dusted, improve Efficiency of dust collection.

Preferably, referring to Fig. 5, the other end of the first baffle 60 can also be connect with second baffle 70, and described second Baffle 70 is for preventing the dust backflow of cooling fin into the gap of the cooling fin.

It is the A direction view and A-A ' section of first baffle 60 and second baffle 70 in Fig. 5 referring in Fig. 66 (a) and 6 (b) Figure.Guide groove 80 is provided on the surface of the second baffle 70, the other end of the first baffle 60 passes through the guide groove 80 are flexibly connected with the second baffle 70；

When the fan 10 is rotated to first direction, the second baffle 70 is rotated in the fan 10 to first direction When the blowing of air-flow that generates under, the direction of Xiang Suoshu first part cooling fin 20 is mobile, preferably to stop first part to dissipate The dust of backing 20 flows into the gap of first part's cooling fin 20 again；

When the fan 10 is rotated to second direction, the second baffle 70 is rotated in the fan 10 to second direction When the blowing of air-flow that generates under, the direction of Xiang Suoshu second part cooling fin 30 rotates, preferably to stop second part to dissipate The dust of backing 30 flows into the gap of second part cooling fin 30 again, further increases dust removing effects.

Further, the receiving unit 11 is used for, and controls the fan 10 to first of the radiator 13 in processor 12 Before the rotation of direction, the first instruction of the dust of the radiator of the instruction removal electronic equipment is received；

Correspondingly, the processor 12 is specifically used for, the first instruction control institute received according to the receiving unit 11 The fan 10 for stating radiator is rotated to first direction.

Wherein, the receiving unit 11 can be for for receiving touch control display device or the keyboard etc. that input instructs.

Referring to Fig. 7, it is illustrated so that receiving unit 11 is touch control display device as an example.User, which can click touch-control and show, to be set Dedusting button on standby upper interaction body, the first instruction of input.

Optionally, the icon or shortcut key about radiator be can store in electronic equipment 1, processor 12 is according to user The interface of the icon or quick key control interaction body of clicking radiator is presented on receiving unit 11, so that user selects It selects.

Alternatively, the interface that processor 12 can control interaction body according to preset rules is presented on receiving unit 11. Wherein, preset rules can be with are as follows:

The setting of processor 12 controls interaction body and is presented on receiving unit 11, for example, processor every prefixed time interval 12 can set every other week or one month, control interaction body and are presented on receiving unit 11, the embodiment of the present invention is to default Time interval is not limited.

Alternatively, the setting of processor 12 after the fan rotation time of electronic equipment is more than preset duration, controls interaction body certainly It is dynamic to be presented on receiving unit 11.

Further, the processor 12 is also used to: the time of dedusting is preset, so that when reaching preset dedusting Between when, automatically control the fan of the radiator and rotated to first direction.

Electronic equipment 1 provided in an embodiment of the present invention, the fan by controlling radiator is rotated to first direction, by first The air duct in dust sucking radiator on part heat sink, and the radiator is blown out from second outlet；In the radiator Fan to after first direction rotation, control the fan of radiator and rotated to second direction, by the ash on second part cooling fin Dirt sucks the air duct in radiator, and blows out the radiator from first outlet.Realize the easy ash for automatically removing radiator Dirt, solve the prior art remove manually radiator dust method it is not only cumbersome, but also be easily damaged the defect of electronic equipment.

The present embodiment provides a kind of methods for removing radiator dust, are applied to an electronic equipment, which can be with For laptop, desktop computer etc., the electronic equipment includes radiator, wherein referring to fig. 2, the radiator includes Fan 10, first part's cooling fin 20, second part cooling fin 30, first outlet corresponding with first part's cooling fin 20 40, second outlet 50 corresponding with the second part cooling fin 30；Referring to Fig. 8, which comprises

S801: the fan for controlling the radiator is rotated to first direction, and the dust on first part's cooling fin is sucked Air duct in the radiator, and the radiator is blown out from the second outlet.

Preferably, it can control the fan of the radiator and the first preset duration rotated to first direction with first rate.

Wherein, the first rate is preset rate, and the embodiment of the present invention is to this without limiting；Under normal conditions, First rate is disposed proximate to the maximum rate of the fan.

First preset duration can be 5-20 seconds, it is preferred that the first preset duration can be 5 seconds.

S802: the radiator fan to after first direction rotation, control the fan of the radiator to second party To rotation, the dust on second part cooling fin is sucked into the air duct in the radiator, and blow out institute from the first outlet State radiator.

Preferably, it can control the radiator and the second preset duration rotated to second direction with the second rate.

Wherein, second rate is also preset rate, and the embodiment of the present invention is to this without limiting；Usual situation Under, the second rate is also set to the maximum rate close to the fan.

The second direction is the opposite direction of the first direction.For example, first direction can be clockwise direction, the Two directions are counterclockwise, alternatively, first direction can be for counterclockwise, second direction be this implementation clockwise Example is not limited this.Referring to fig. 2, it is only illustrated so that first direction is clockwise direction as an example herein.

Second preset duration can be equal with first preset duration, can also be unequal, likewise, described Two preset durations can be 5-20 seconds, it is preferred that the first preset duration can be 5 seconds.

The above method is specifically described below:

As shown in Fig. 2, the fan 10 of control radiator is rotated with first rate to first direction, when fan 10 is with the first speed When the revolving speed of rate rotates clockwise, the flow direction of wind is arrow direction shown in Fig. 2 in radiator, i.e., flows from first part's cooling fin 20 To the inside cavity of radiator, then along going to one of second part cooling fin 30 far from second outlet 50 clockwise Then end reaches second outlet 50 by the gap between second part cooling fin 30, finally flow out from second outlet 50.Institute When with, fan 10 rotationally clockwise, it is equivalent to and the dust in first part's cooling fin 20 is formed into heat sink cavity Suction, when fan 10 first rate close to the fan maximum rate, to the dust shape in first part's cooling fin 20 At larger suction, so that the dust in first part's cooling fin 20, which is detached from first part's cooling fin 20, enters air duct, then along wind Flow direction from second outlet 50 blow out radiator, to achieve the effect that dedusting to first part's cooling fin 20.

When fan 10 controls the fan of radiator when such as 5 seconds equal to the first preset duration to the rotation duration of first direction 10 are rotated with the revolving speed of the second rate to second direction is (counterclockwise), and the flow direction of wind is arrow direction shown in Fig. 3 in radiator, The inside cavity that radiator is as flowed to from second part cooling fin 30 radiates then along first part is counterclockwise gone to Then the one end of piece 20 far from first outlet 40 reaches first outlet 40 by the gap between first part's cooling fin 20, most It is flowed out afterwards from first outlet 40.So being equivalent to when fan 10 rotates in an anti-clockwise direction to the ash in second part cooling fin 30 Dirt forms the suction into heat sink cavity, when maximum rate of the second rate of fan 10 close to the fan 10, to Dust in two part heat sinks 30 forms larger suction, so that the dust in second part cooling fin 30 is detached from second part and dissipates Backing 30 enters air duct, then radiator is blown out from first outlet 40 along the flow direction of wind, to reach to second part cooling fin 30 To the effect of dedusting.

Preferably, referring to fig. 4, it can be set between first part's cooling fin 20 and the second part cooling fin 30 There is first baffle 60, one end of the first baffle 60 is located at 50 side of the first outlet 40 and second outlet, and the other end is located at Between the cooling fin and fan 10, the first baffle 60 is for preventing the dust backflow of cooling fin to the seam of the cooling fin In gap.

Preferably, referring to Fig. 5, the other end of the first baffle 60 can also be connect with second baffle 70, and described second Baffle 70 is for preventing the dust backflow of cooling fin into the gap of the cooling fin.

For example, radiator uses structure shown in fig. 5, second baffle 70 bends towards the fan in crescent.Work as progress When dedusting, effectively dust can be isolated, prevent dust from flowing to the reverse direction of wind direction and improve efficiency of dust collection.

Preferably, referring to 6 (a) and 6 (b) in Fig. 6, be in Fig. 5 the A direction view of first baffle 60 and second baffle 70 and A-A ' sectional view.Guide groove 80 is provided on the surface of the second baffle 70, the first baffle 60 passes through the guide groove 80 are flexibly connected with the second baffle 70.So that when fan 10 is rotated with first direction, second baffle 70 is to first part The direction of cooling fin 20 deviates, preferably to stop the dust of first part's cooling fin 20 to flow into first part's cooling fin 20 again Gap；So that second baffle 70 is mobile to the direction of second part cooling fin 30, when fan 10 is rotated with second direction with more The dust of good blocking second part cooling fin 30 flows into the gap of second part cooling fin 30 again, further increases dedusting effect Fruit.

Further, before the fan for controlling the radiator is rotated to first direction, the method also includes:

Receive the first instruction that instruction removes the radiator dust of the electronic equipment；

Correspondingly, the fan of the control radiator is rotated to first direction, comprising:

It is rotated according to the fan that first instruction controls the radiator to first direction.

Illustratively, the first instruction can be received by touch control display device or keyboard etc..

For example, with reference to Fig. 7, to be a kind of in such a way that touch control display device receives the first instruction, user can click touching The dedusting button on interaction body in control display equipment, the first instruction of input.

Optionally, the icon or shortcut key about radiator be can store in electronic equipment, user clicks radiator Icon or shortcut key can enter the interface of interaction body, so that user selects.

Alternatively, interaction body can be automatically presented in touch control display device according to preset rules.Wherein, preset rules It can be with are as follows:

Setting every prefixed time interval interaction body be automatically presented in touch control display device, for example, can set every One week or one month, interaction body be automatically presented in touch control display device, the embodiment of the present invention to prefixed time interval not into Row limitation.

Alternatively, setting, after the fan rotation time of electronic equipment is more than preset duration, interaction body is automatically presented in touch-control It shows in equipment.

Certainly, receiving the mode of the first instruction above by touch control display device is only a kind of optional embodiment, no The embodiment of the present invention is construed as limiting.

Further, the time that can also preset dedusting automatically controls described dissipate when reaching preset dedusting time The fan of hot device is rotated to first direction.

The method of removal radiator dust provided in an embodiment of the present invention, by controlling the fan of radiator to first direction Rotation by the air duct in the dust sucking radiator on first part's cooling fin, and blows out the radiator from second outlet；? After the fan of the radiator is rotated to first direction, the fan for controlling radiator is rotated to second direction, and second part is dissipated The air duct in dust sucking radiator on backing, and the radiator is blown out from first outlet.Realize easy automatically remove The dust of radiator, solve the prior art remove manually radiator dust method it is not only cumbersome, but also be easily damaged electronic equipment Defect.

It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.

In several embodiments provided herein, it should be understood that disclosed system, device and method can be with It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of device or unit It closes or communicates to connect, can be electrical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit It is that the independent physics of each unit includes, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of hardware adds SFU software functional unit.

The above-mentioned integrated unit being realized in the form of SFU software functional unit can store and computer-readable deposit at one In storage media.Above-mentioned SFU software functional unit is stored in a storage medium, including some instructions are used so that a computer Equipment (can be personal computer, server or the network equipment etc.) executes the portion of each embodiment the method for the present invention Step by step.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, abbreviation ROM), random access memory (Random Access Memory, abbreviation RAM), magnetic or disk etc. are various can store The medium of program code.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features； And these are modified or replaceed, technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution spirit and Range.

Claims (13)

1. a kind of method for removing radiator dust, is applied to an electronic equipment, the electronic equipment includes radiator, wherein The radiator includes fan, first part's cooling fin, second part cooling fin, and corresponding with first part's cooling fin One outlet, second outlet corresponding with the second part cooling fin；The described method includes:

The fan for controlling the radiator is rotated to first direction, and the dust sucking on first part's cooling fin is described scattered Air duct in hot device, and the radiator is blown out from the second outlet；

After the fan of the radiator is rotated to first direction, the fan for controlling the radiator is rotated to second direction, will Dust on the second part cooling fin sucks the air duct in the radiator, and blows out the heat dissipation from the first outlet Device；

It is provided with first baffle between first part's cooling fin and the second part cooling fin, the one of the first baffle End be located at the first outlet and second outlet side, the other end of the first baffle between the cooling fin and fan, Wherein, the first baffle is for preventing the dust backflow of radiator into the gap of the radiator.

2. the method according to claim 1, wherein the other end of the first baffle is connect with second baffle, Wherein, the second baffle is for preventing the dust backflow of cooling fin into the gap of the cooling fin.

3. according to the method described in claim 2, it is characterized in that, be provided with guide groove on the surface of the second baffle, institute The other end for stating first baffle is flexibly connected by the guide groove with the second baffle；

When the fan is rotated to first direction, second baffle gas for generating when the fan is rotated to first direction Under the blowing of stream, the direction of Xiang Suoshu first part cooling fin is mobile；

When the fan is rotated to second direction, second baffle gas for generating when the fan is rotated to second direction Under the blowing of stream, the direction of Xiang Suoshu second part cooling fin is rotated.

4. method according to claim 1-3, which is characterized in that in the fan for controlling the radiator to first Before the rotation of direction, the method also includes:

Receive the first instruction that instruction removes the radiator dust of the electronic equipment；

Correspondingly, the fan of the control radiator is rotated to first direction, comprising:

It is rotated according to the fan that first instruction controls the radiator to first direction.

5. method according to claim 1-3, which is characterized in that the fan of the control radiator is to the The rotation of one direction, comprising:

In preset dedusting time, the fan for controlling the radiator is rotated to first direction.

6. a kind of electronic equipment, which is characterized in that the electronic equipment includes: receiving unit, processor and radiator, In, the radiator includes fan, first part's cooling fin, and second part cooling fin is corresponding with first part's cooling fin First outlet, second outlet corresponding with the second part cooling fin；

The processor is used for, and the fan for controlling the radiator is rotated to first direction, will be on first part's cooling fin Dust suck the air duct in the radiator, and blow out the radiator from the second outlet；

And after the fan of the radiator is rotated to first direction, the fan for controlling the radiator turns to second direction It is dynamic, the dust on the second part cooling fin is sucked into the air duct in the radiator, and blow out institute from the first outlet State radiator；

It is provided with first baffle between first part's cooling fin and the second part cooling fin, the one of the first baffle End is located at the first outlet and second outlet side, and the other end is between the cooling fin and fan；Wherein, the first gear Plate is for preventing the dust backflow of cooling fin into the gap of the cooling fin.

7. electronic equipment according to claim 6, which is characterized in that the other end and second baffle of the first baffle connect It connects, wherein the second baffle is for preventing the dust backflow of cooling fin into the gap of the cooling fin.

8. electronic equipment according to claim 7, which is characterized in that be provided with guiding on the surface of the second baffle The other end of slot, the first baffle is flexibly connected by the guide groove with the second baffle；

Correspondingly, the second baffle is specifically used for:

When the fan is rotated to first direction, under the blowing of the air-flow generated when the fan is rotated to first direction, It is mobile to the direction of first part's cooling fin；

When the fan is rotated to second direction, under the blowing of the air-flow generated when the fan is rotated to second direction, It is rotated to the direction of the second part cooling fin.

9. according to the described in any item electronic equipments of claim 6-8, which is characterized in that

The receiving unit is used for: before the fan that the processor controls the radiator is rotated to first direction, being received Indicate that remove the radiator dust of the electronic equipment first instructs；

The processor is specifically used for: being rotated according to the fan that first instruction controls the radiator to first direction.

10. according to the described in any item electronic equipments of claim 6-8, which is characterized in that

The processor is specifically used for: in preset dedusting time, the fan for controlling the radiator is rotated to first direction.

11. a kind of radiator characterized by comprising fan, first part's cooling fin, second part cooling fin, with described The corresponding first outlet of a part of cooling fin, second outlet corresponding with the second part cooling fin；

Wherein, the fan is used to rotate to first direction, and the dust on first part's cooling fin is sucked the heat dissipation Air duct in device, and the radiator is blown out from the second outlet；

And rotated to second direction, the dust on the second part cooling fin is sucked into the air duct in the radiator, and The radiator is blown out from the first outlet；

The radiator further include: the first gear between first part's cooling fin and the second part cooling fin Plate；

Wherein, one end of the first baffle is located at the first outlet and second outlet side, and the other end is located at the cooling fin Between fan；The first baffle is for preventing the dust backflow of cooling fin into the gap of the cooling fin.

12. radiator according to claim 11, which is characterized in that the radiator further include: with the first baffle The other end connection second baffle；The second baffle is for preventing the dust backflow of cooling fin to the seam of the cooling fin In gap.

13. radiator according to claim 12, which is characterized in that

Be provided with guide groove on the surface of the second baffle, the other end of the first baffle by the guide groove with it is described Second baffle is flexibly connected.