CN105334933A

CN105334933A - Method for removing dust of heat dissipater, electronic device and heat dissipater

Info

Publication number: CN105334933A
Application number: CN201410298958.3A
Authority: CN
Inventors: 王欢; 李凡智; 易贤群
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-06-26
Filing date: 2014-06-26
Publication date: 2016-02-17
Anticipated expiration: 2034-06-26
Also published as: CN105334933B

Abstract

Embodiments of the invention provide a method for removing dust of a heat dissipater, an electronic device and the heat dissipater, and relates to the field of electronics. The method can simply and automatically remove the dust of the heat dissipater, thereby overcoming the defects in the prior art that a method for manually removing dust of a heat dissipater is tedious and liable to damage an electronic device. The embodiment of the invention provides the method for removing the dust of the heat dissipater. The method comprises: controlling a fan of the heat dissipater to rotate in a first direction, sucking dust on first partial cooling fins into an air channel in the heat dissipater, and blowing the dust out of the heat dissipater from a second outlet; and after the fan of the heat dissipater rotates in the first direction, controlling the fan of the heat dissipater to rotate in a second direction, sucking dust on second partial cooling fins into the air channel in the heat dissipater, and blowing the dust out of the heat dissipater from a first outlet.

Description

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

Technical field

The present invention relates to electronic applications, particularly relate to a kind of method, electronic equipment and the heating radiator of removing heating radiator dust.

Background technology

The heating radiator of electronic equipment generally comprises fan and heat radiator, and when the processor of electronic equipment reaches uniform temperature, fan just starts to rotate, by heat from the gap blowout electronic equipment between heat radiator.But, after the time that electronic equipment uses is longer, or when environmental health is poor, the heat radiator of heating radiator can accumulate one deck by fiber, fine, soft fur, soft is waited the floccus formed, gap between blocks heat dissipation sheet, and can accumulate more and more, again due to the heating of heat radiator self, floccus is condensed, until form the thing total blockage air outlet of similar felt, fan is ceaselessly blown, both took electricity, be difficult to again heat to be discharged.

The method of the dust of existing removal heating radiator is generally taken apart by electronic equipment, takes out heating radiator and carries out artificial dedusting.

But the method for existing artificial dedusting is both loaded down with trivial details, easily damages electronic equipment again, and, because the structure of majority to electronic equipment is unfamiliar with, the help of professional person may be needed just to carry out artificial dedusting.

Summary of the invention

The invention provides a kind of method and the electronic equipment of removing heating radiator dust, realize easy automatic dust removing.

In view of this, the invention provides a kind of method removing heating radiator dust, be applied to an electronic equipment, described electronic equipment comprises heating radiator, and wherein, described heating radiator comprises fan, Part I heat radiator, Part II heat radiator, corresponding with described Part I heat radiator first exports, and corresponding with described Part II heat radiator second exports; Described method comprises:

The fan controlling described heating radiator rotates to first direction, the dust on described Part I heat radiator is sucked the air channel in described heating radiator, and from the described heating radiator of described second outlet blowout;

After the fan of described heating radiator rotates to first direction, the fan controlling described heating radiator rotates to second direction, the dust on described Part II heat radiator is sucked the air channel in described heating radiator, and from the described heating radiator of described first outlet blowout.

The present invention also provides a kind of electronic equipment, described electronic equipment comprises: comprise receiving element, processor, and heating radiator, wherein, described heating radiator comprises fan, Part I heat radiator, Part II heat radiator, corresponding with described Part I heat radiator first exports, and corresponding with described Part II heat radiator second exports;

Described processor is used for, and the fan controlling described heating radiator rotates to first direction, the dust on described Part I heat radiator is sucked the air channel in described heating radiator, and from the described heating radiator of described second outlet blowout;

And after the fan of described heating radiator rotates to first direction, the fan controlling described heating radiator rotates to second direction, the dust on described Part II heat radiator is sucked the air channel in described heating radiator, and from the described heating radiator of described first outlet blowout.

The present invention also provides a kind of heating radiator, and described heating radiator comprises: fan, Part I heat radiator, Part II heat radiator, and corresponding with described Part I heat radiator first exports, and corresponding with described Part II heat radiator second exports;

Wherein, described fan is used for rotating to first direction, the dust on described Part I heat radiator is sucked the air channel in described heating radiator, and from the described heating radiator of described second outlet blowout;

And, rotate to second direction, the dust on described Part II heat radiator is sucked the air channel in described heating radiator, and from the described heating radiator of described first outlet blowout.

As from the foregoing, the method of the removal heating radiator dust that the embodiment of the present invention provides, electronic equipment and heating radiator, rotated to first direction by the fan controlling heating radiator, the dust on Part I heat radiator is sucked the air channel in heating radiator, and from the described heating radiator of the second outlet blowout; After the fan of described heating radiator rotates to first direction, the fan controlling heating radiator rotates to second direction, dust on Part II heat radiator is sucked the air channel in heating radiator, and from the described heating radiator of the first outlet blowout, thus realize the dust of easy automatic removal heating radiator, solving prior art, manually to remove the method for heating radiator dust both loaded down with trivial details, easily damages again the defect of electronic equipment.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

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

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

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

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

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

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

Fig. 7 is the mutual body schematic diagram of one provided by the invention;

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

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

The embodiment of the present invention provides a kind of electronic equipment 1, and this electronic equipment 1 can be notebook computer, desktop computer etc.See Fig. 1, described electronic equipment 1 comprises: comprise receiving element 11, processor 12, and heating radiator 13, wherein, see Fig. 2, described heating radiator 13 comprises fan 10, Part I heat radiator 20, Part II heat radiator 30, corresponding with described Part I heat radiator 20 first exports 40, and corresponding with described Part II heat radiator 30 second exports 50;

Described processor 12 for, the fan 10 controlling described heating radiator 13 rotates to first direction, by Part I heat radiator 20 dust suck air channel in described heating radiator 13, and from the described heating radiator 13 of described second outlet 50 blowout;

And, after the fan 10 of described heating radiator 13 rotates to first direction, the fan 10 controlling described heating radiator 13, to second direction, for the dust on Part II heat radiator 30 being sucked the air channel in described heating radiator 13, and blows out described heating radiator 13 from described first outlet 50.

Preferably, the fan 10 that described processor 12 first can control described heating radiator rotates the first preset duration with first rate to first direction; And then the fan 10 controlling described heating radiator rotates the second preset duration with the second speed to second direction.

Wherein, described first rate and described second speed are respectively default speed, and the embodiment of the present invention does not limit this, under normal circumstances, described first rate and described second speed are set to the maximum rate close to described fan.

Described first direction and described second direction are reverse direction.Such as, first direction can be clockwise direction, and second direction is counterclockwise, or first direction can be that counterclockwise second direction is clockwise direction, and the present embodiment does not limit this.See Fig. 2, be only clockwise direction with first direction for example is described at this.

Described first preset duration and described second preset duration can be equal, also can be unequal, and under normal circumstances, described first preset duration and described second preset duration are 5-20 second, are preferably 5 seconds.

See Fig. 2, the fan 10 that processor 12 controls heating radiator to first direction with the rotational speed close to maximum rate.When fan 10 to first direction (clockwise) with rotational speed close to maximum rate time, in heating radiator, the flow direction of wind is the direction of arrow shown in Fig. 2, namely the inside cavity of heating radiator is flowed to from Part I heat radiator 20, then Part II heat radiator 30 one end away from the second outlet 50 is forwarded clockwise to, then the gap between Part II heat radiator 30 arrives the second outlet 50, finally flows out from the second outlet 50.So, when fan 10 clockwise direction is rotated, be equivalent to be formed to the suction in heat sink cavity the dust in Part I heat radiator 20, because the rotating speed of fan 10 is close to maximum rate, so, larger suction is formed to the dust in Part I heat radiator 20, makes the dust in Part I heat radiator 20 depart from Part I heat radiator 20 and enter air channel, then along the flow direction of wind from the second outlet 50 blowout heating radiator, thus Part I heat radiator 20 is reached to the effect of dedusting.

In like manner, when the fan 10 that processor 12 controls heating radiator is to rotate to second direction (counterclockwise) close to the rotating speed of maximum rate, in heating radiator, the flow direction of wind is the direction of arrow shown in Fig. 3, be the inside cavity flowing to heating radiator from Part II heat radiator 30, then along counterclockwise forwarding Part I heat radiator 20 one end away from the first outlet 40 to, then the gap between Part I heat radiator 20 arrives the first outlet 40, finally flows out from the first outlet 40.So, when fan 10 counterclockwise rotates, be equivalent to be formed to the suction in heat sink cavity the dust in Part II heat radiator 30, because the rotating speed of fan 10 is close to maximum rate, so, larger suction is formed to the dust in Part II heat radiator 30, makes the dust in Part II heat radiator 30 depart from Part II heat radiator 30 and enter air channel, then along the flow direction of wind from the first outlet 40 blowout heating radiator, thus Part II heat radiator 30 is reached to the effect of dedusting.

Preferably, see Fig. 4, the first baffle plate 60 can be provided with between described Part I heat radiator 20 and described Part II heat radiator 30, one end of described first baffle plate 60 is positioned at described first outlet 40 and the second outlet 50 sides, the other end is between described heat radiator and fan 10, and described first baffle plate 60 is for preventing the dust backflow of heat radiator in the gap of described heat radiator.

Such as, heating radiator adopts the structure shown in Fig. 4, when carrying out dedusting, can effectively isolate dust, improves efficiency of dust collection.

Preferably, see Fig. 5, the other end of described first baffle plate 60 can also be connected with second baffle 70, and described second baffle 70 is for preventing the dust backflow of heat radiator in the gap of described heat radiator.

See 6 (a) in Fig. 6 and 6 (b), be A direction view and the A-A ' sectional view of the first baffle plate 60 and second baffle 70 in Fig. 5.The surface of described second baffle 70 is provided with gathering sill 80, and the other end of described first baffle plate 60 is flexibly connected with described second baffle 70 by described gathering sill 80;

When described fan 10 rotates to first direction, under the blowing of the air-flow that described second baffle 70 produces when described fan 10 rotates to first direction, direction to described Part I heat radiator 20 is moved, better to stop that the dust of Part I heat radiator 20 flows into the gap of Part I heat radiator 20 again;

When described fan 10 rotates to second direction, under the blowing of the air-flow that described second baffle 70 produces when described fan 10 rotates to second direction, direction to described Part II heat radiator 30 is rotated, better to stop that the dust of Part II heat radiator 30 flows into the gap of Part II heat radiator 30 again, improve dust removing effects further.

Further, described receiving element 11 for, the fan 10 controlling described heating radiator 13 at processor 12 receives the first instruction that the dust of the heating radiator of described electronic equipment is removed in instruction before rotating to first direction;

Accordingly, described processor 12 specifically for, the fan 10 that the first instruction received according to described receiving element 11 controls described heating radiator rotates to first direction.

Wherein, described receiving element 11 can be the touch control display device for receiving input instruction or keyboard etc.

See Fig. 7, be described for touch control display device for receiving element 11.User can click the dedusting button on the mutual body in touch control display device, inputs the first instruction.

Optionally, can store the icon about heating radiator or shortcut in electronic equipment 1, processor 12 is clicked according to user the interface that the icon of heating radiator or shortcut control mutual body and is presented on receiving element 11, selects for user.

Interchangeable, the interface that processor 12 can control mutual body according to preset rules is presented on receiving element 11.Wherein, preset rules can be:

Processor 12 sets every prefixed time interval, controlling mutual body is presented on receiving element 11, and such as, processor 12 can set week about or one month, control mutual body to be presented on receiving element 11, the embodiment of the present invention does not limit prefixed time interval.

Or processor 12 sets after the fan turns time of electronic equipment exceedes preset duration, controls mutual body and is automatically presented on receiving element 11.

Further, described processor 12 is also for the time pre-setting dedusting, and during to make to arrive the dedusting time of presetting, the fan automatically controlling described heating radiator rotates to first direction.

The electronic equipment 1 that the embodiment of the present invention provides, is rotated to first direction by the fan controlling heating radiator, and the dust on Part I heat radiator is sucked the air channel in heating radiator, and from the described heating radiator of the second outlet blowout; After the fan of described heating radiator rotates to first direction, the fan controlling heating radiator rotates to second direction, and the dust on Part II heat radiator is sucked the air channel in heating radiator, and from the described heating radiator of the first outlet blowout.Realize the dust of easy automatic removal heating radiator, solving prior art, manually to remove the method for heating radiator dust both loaded down with trivial details, easily damages again the defect of electronic equipment.

The present embodiment provides a kind of method removing heating radiator dust, be applied to an electronic equipment, this electronic equipment can be notebook computer, desktop computer etc., described electronic equipment comprises heating radiator, wherein, see Fig. 2, described heating radiator comprises fan 10, Part I heat radiator 20, Part II heat radiator 30, corresponding with described Part I heat radiator 20 first exports 40, and corresponding with described Part II heat radiator 30 second exports 50; See Fig. 8, described method comprises:

S801: the fan controlling described heating radiator rotates to first direction, sucks the air channel in described heating radiator by the dust on Part I heat radiator, and from the described heating radiator of described second outlet blowout.

Preferably, the fan that can control described heating radiator rotates the first preset duration with first rate to first direction.

Wherein, described first rate is default speed, and the embodiment of the present invention does not limit this; Under normal circumstances, first rate is set to the maximum rate close to described fan.

Described first preset duration can be 5-20 second, and preferably, the first preset duration can be 5 seconds.

S802: after the fan of described heating radiator rotates to first direction, the fan controlling described heating radiator rotates to second direction, and the dust on Part II heat radiator is sucked the air channel in described heating radiator, and from the described heating radiator of described first outlet blowout.

Preferably, described heating radiator can be controlled and rotate the second preset duration with the second speed to second direction.

Wherein, the speed of described second speed also for presetting, the embodiment of the present invention does not limit this; Under normal circumstances, the second speed is also set to the maximum rate close to described fan.

Described second direction is the reverse direction of described first direction.Such as, first direction can be clockwise direction, and second direction is counterclockwise, or first direction can be that counterclockwise second direction is clockwise direction, and the present embodiment does not limit this.See Fig. 2, be only clockwise direction with first direction for example is described at this.

Described second preset duration can be equal with described first preset duration, also can be unequal, same, and described second preset duration can be 5-20 second, and preferably, the first preset duration can be 5 seconds.

Below said method is specifically described:

As shown in Figure 2, the fan 10 controlling heating radiator rotates to first direction with first rate, when fan 10 rotates clockwise with the rotating speed of first rate, in heating radiator, the flow direction of wind is the direction of arrow shown in Fig. 2, namely the inside cavity of heating radiator is flowed to from Part I heat radiator 20, then forward Part II heat radiator 30 one end away from the second outlet 50 clockwise to, the gap then between Part II heat radiator 30 arrives the second outlet 50, finally flows out from the second outlet 50.So, when fan 10 clockwise direction is rotated, be equivalent to be formed to the suction in heat sink cavity the dust in Part I heat radiator 20, when the first rate of fan 10 is close to the maximum rate of described fan, larger suction is formed to the dust in Part I heat radiator 20, make the dust in Part I heat radiator 20 depart from Part I heat radiator 20 and enter air channel, then along the flow direction of wind from the second outlet 50 blowout heating radiator, thus Part I heat radiator 20 is reached to the effect of dedusting.

When fan 10 equals the first preset duration to the rotation duration of first direction, during as 5 seconds, the fan 10 controlling heating radiator rotates to second direction (counterclockwise) with the rotating speed of the second speed, in heating radiator, the flow direction of wind is the direction of arrow shown in Fig. 3, be the inside cavity flowing to heating radiator from Part II heat radiator 30, then along counterclockwise forwarding Part I heat radiator 20 one end away from the first outlet 40 to, then the gap between Part I heat radiator 20 arrives the first outlet 40, finally flows out from the first outlet 40.So, when fan 10 counterclockwise rotates, be equivalent to be formed to the suction in heat sink cavity the dust in Part II heat radiator 30, when maximum rate close to described fan 10 of the second speed of fan 10, larger suction is formed to the dust in Part II heat radiator 30, make the dust in Part II heat radiator 30 depart from Part II heat radiator 30 and enter air channel, then along the flow direction of wind from the first outlet 40 blowout heating radiator, thus Part II heat radiator 30 is reached to the effect of dedusting.

Such as, heating radiator adopts the structure shown in Fig. 5, and second baffle 70 is that crescent bends towards described fan.When carrying out dedusting, effectively can isolate dust, preventing dust from improving efficiency of dust collection to the reverse direction flowing of wind direction.

Preferably, see 6 (a) and 6 (b) in Fig. 6, be A direction view and the A-A ' sectional view of the first baffle plate 60 and second baffle 70 in Fig. 5.The surface of described second baffle 70 is provided with gathering sill 80, and described first baffle plate 60 is flexibly connected with described second baffle 70 by described gathering sill 80.Make when fan 10 rotates with first direction, second baffle 70 offsets to the direction of Part I heat radiator 20, better to stop that the dust of Part I heat radiator 20 flows into the gap of Part I heat radiator 20 again; Make when fan 10 rotates with second direction, second baffle 70 moves to the direction of Part II heat radiator 30, better to stop that the dust of Part II heat radiator 30 flows into the gap of Part II heat radiator 30 again, improves dust removing effects further.

Further, control described heating radiator fan to first direction rotate before, described method also comprises:

Receive the first instruction that the heating radiator dust of described electronic equipment is removed in instruction;

Accordingly, the fan of the described heating radiator of described control rotates to first direction, comprising:

Rotate to first direction according to the fan that described first instruction controls described heating radiator.

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

Such as, see Fig. 7, be a kind of mode being received the first instruction by touch control display device, user can click the dedusting button on the mutual body in touch control display device, inputs the first instruction.

Optionally, can store the icon about heating radiator or shortcut in electronic equipment, user clicks the interface that the icon of heating radiator or shortcut can enter mutual body, selects for user.

Interchangeable, mutual body can be presented in touch control display device automatically according to preset rules.Wherein, preset rules can be:

Setting is presented in touch control display device automatically every the mutual body of prefixed time interval, and such as, can set week about or one month, mutual body is presented in touch control display device automatically, and the embodiment of the present invention does not limit prefixed time interval.

Or setting is after the fan turns time of electronic equipment exceedes preset duration, and mutual body is presented in touch control display device automatically.

Certainly, the mode receiving the first instruction above by touch control display device is only a kind of optional embodiment, is not construed as limiting the embodiment of the present invention.

Further, can also pre-set the time of dedusting, when reaching the default dedusting time, the fan automatically controlling described heating radiator rotates to first direction.

The method of the removal heating radiator dust that the embodiment of the present invention provides, is rotated to first direction by the fan controlling heating radiator, and the dust on Part I heat radiator is sucked the air channel in heating radiator, and from the described heating radiator of the second outlet blowout; After the fan of described heating radiator rotates to first direction, the fan controlling heating radiator rotates to second direction, and the dust on Part II heat radiator is sucked the air channel in heating radiator, and from the described heating radiator of the first outlet blowout.Realize the dust of easy automatic removal heating radiator, solving prior art, manually to remove the method for heating radiator dust both loaded down with trivial details, easily damages again the defect of electronic equipment.

Those skilled in the art can be well understood to, and for convenience and simplicity of description, the system of foregoing description, the specific works process of device and unit, with reference to the corresponding process in preceding method embodiment, can not repeat them here.

In several embodiments that the application provides, should be understood that, disclosed system, apparatus and method, can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit comprises, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.

The above-mentioned integrated unit realized with the form of SFU software functional unit, can be stored in a computer read/write memory medium.Above-mentioned SFU software functional unit is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the part steps of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, ROM (read-only memory) (Read-OnlyMemory, be called for short ROM), random access memory (RandomAccessMemory, be called for short RAM), magnetic disc or CD etc. various can be program code stored medium.

Last it is noted that above embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims

1. remove the method for heating radiator dust for one kind, be applied to an electronic equipment, described electronic equipment comprises heating radiator, wherein, described heating radiator comprises fan, Part I heat radiator, Part II heat radiator, corresponding with described Part I heat radiator first exports, and corresponding with described Part II heat radiator second exports; Described method comprises:

2. method according to claim 1, it is characterized in that, the first baffle plate is provided with between described Part I heat radiator and described Part II heat radiator, one end of described first baffle plate is positioned at described first outlet and the second outlet side, the other end of described first baffle plate is between described heat radiator and fan, wherein, described first baffle plate is for preventing the dust backflow of heating radiator in the gap of described heating radiator.

3. method according to claim 2, is characterized in that, the other end of described first baffle plate is connected with second baffle, and wherein, described second baffle is for preventing the dust backflow of heat radiator in the gap of described heat radiator.

4. method according to claim 3, is characterized in that, the surface of described second baffle is provided with gathering sill, and the other end of described first baffle plate is flexibly connected with described second baffle by described gathering sill;

When described fan rotates to first direction, under the blowing of the air-flow that described second baffle produces when described fan rotates to first direction, the direction to described Part I heat radiator is moved;

When described fan rotates to second direction, under the blowing of the air-flow that described second baffle produces when described fan rotates to second direction, the direction to described Part II heat radiator is rotated.

5. the method according to any one of claim 1-4, is characterized in that, control described heating radiator fan to first direction rotate before, described method also comprises:

6. the method according to any one of claim 1-4, is characterized in that, the fan of the described heating radiator of described control rotates to first direction, comprising:

The dedusting time of presetting, the fan controlling described heating radiator rotates to first direction.

7. an electronic equipment, it is characterized in that, described electronic equipment comprises: receiving element, processor, and heating radiator, wherein, described heating radiator comprises fan, Part I heat radiator, Part II heat radiator, corresponding with described Part I heat radiator first exports, and corresponding with described Part II heat radiator second exports;

8. electronic equipment according to claim 7, is characterized in that,

Be provided with the first baffle plate between described Part I heat radiator and described Part II heat radiator, one end of described first baffle plate is positioned at described first outlet and the second outlet side, and the other end is between described heat radiator and fan; Wherein, described first baffle plate is for preventing the dust backflow of heat radiator in the gap of described heat radiator.

9. electronic equipment according to claim 8, is characterized in that, the other end of described first baffle plate is connected with second baffle, and wherein, described second baffle is for preventing the dust backflow of heat radiator in the gap of described heat radiator.

10. electronic equipment according to claim 9, is characterized in that, the surface of described second baffle is provided with gathering sill, and the other end of described first baffle plate is flexibly connected with described second baffle by described gathering sill;

Accordingly, described second baffle specifically for:

When described fan rotates to first direction, under the blowing of the air-flow produced when described fan rotates to first direction, the direction to described Part I heat radiator is moved;

When described fan rotates to second direction, under the blowing of the air-flow produced when described fan rotates to second direction, the direction to described Part II heat radiator is rotated.

11. electronic equipments according to any one of claim 7-10, is characterized in that,

Described receiving element is used for: the fan controlling described heating radiator at described processor receives the first instruction that the heating radiator dust of described electronics is removed in instruction before rotating to first direction;

Described processor specifically for: rotate to first direction according to the fan that described first instruction controls described heating radiator.

12. electronic equipments according to any one of claim 7-10, is characterized in that,

Described processor specifically for: preset the dedusting time, the fan controlling described heating radiator rotates to first direction.

13. 1 kinds of heating radiators, is characterized in that, comprising: fan, Part I heat radiator, Part II heat radiator, and corresponding with described Part I heat radiator first exports, and corresponding with described Part II heat radiator second exports;

14. heating radiators according to claim 13, is characterized in that, described heating radiator also comprises: the first baffle plate between described Part I heating radiator and described second heating radiator;

Wherein, one end of described first baffle plate is positioned at described first outlet and the second outlet side, and the other end is between described heat radiator and fan; Described first baffle plate is for preventing the dust backflow of heat radiator in the gap of described heat radiator.

15. heating radiators according to claim 14, is characterized in that, described heating radiator also comprises: the second baffle be connected with the other end of described first baffle plate; Described second baffle is in the gap of the dust backflow to described heat radiator of preventing and treating heat radiator.

16. heating radiators according to claim 15, is characterized in that,

The surface of described second baffle is provided with gathering sill, and the other end of described first baffle plate is flexibly connected with described second baffle by described gathering sill.