CN106163210A - A kind of radiator - Google Patents

Abstract

The invention provides a kind of radiator, including: fixing device, driving means and rotary apparatus；Wherein said driving means is fixed in described fixing device, and described rotary apparatus is fixed in described driving means；Described fixing device, described driving means and described rotary apparatus form a sealing space after being fixed together, described sealing space is used for holding cooling medium, and described rotary apparatus drives air and cooling medium flowing under the dynamic action of driving means.When above-mentioned radiator uses, rotary apparatus high speed rotating is driven when driving means is run, and air around the rotary apparatus disturbance highly rotated and be positioned at the cooling medium flowing sealing space, the air of flowing forms ventilation type heat radiation, the cooling medium of flowing forms water cooled heat radiating, thus uses the radiator in the embodiment of the present invention can be with gas collection cooling radiation and water cooled heat radiating in one.

Description

A kind of radiator

Technical field

The present invention relates to radiating device technical field, particularly to a kind of radiator.

Background technology

High temperature can be produced after producing substantial amounts of heat during electronic device works and assembling, and the height produced Temperature likely can burn the electronic equipment worked, and now radiator just can efficiently solve this Problem.Wherein radiator is a kind of to accelerate the device that heater heat distributes, and electronics can be set by it The amount of heat cooling that standby work produces, thus reduce the bulk temperature of electronic equipment.

The most conventional radiator includes air cooled heat sinks and water-cooling type radiator, and wherein ventilation type dissipates Hot device can drive air to flow by the rotation of fan, reduces electronic equipment with the air of flowing Temperature.Water-cooling type radiator is then the temperature being reduced electronic equipment by the flowing of the liquid such as water.

Summary of the invention

In view of this, the present invention provides a kind of radiator, drops for being flowed by air and liquid The temperature of low electronic equipment.Technical scheme is as follows:

A kind of radiator, including: fixing device, driving means and rotary apparatus；Wherein said driving Device is fixed in described fixing device, and described rotary apparatus is fixed in described driving means；

It is close that described fixing device, described driving means and described rotary apparatus form one after being fixed together Envelope space, described sealing space is used for holding cooling medium, and described rotary apparatus is in driving means Air and cooling medium flowing is driven under dynamic action.

Preferably, in above-mentioned radiator, described radiator also includes guiding device, described guiding device It is arranged in sealing space, and described sealing space is separated into multiple circulation cooling being interconnected Road.

Preferably, in above-mentioned radiator, described fixing device includes: fixing heat dissipation base dissipates with fixing Backing, wherein said fixing cooling fins is fixed on described fixing heat dissipation base.

Preferably, in above-mentioned radiator, described driving means includes: the first sealing bearing, motor are solid Reservation and motor；First connector of wherein said motor fixing base is vertically fixed on described fixing scattered On hot base, and described motor is fixed on the second connector of described motor fixing base, and described Two connectors are vertically fixed on described first connector；

Described first inner ring sealing bearing is fixed on the periphery of described first connector.

Preferably, in above-mentioned radiator, described rotary apparatus includes: rotate heat dissipation base, rotation dissipates Backing and second seals bearing；

Wherein

Described rotation fin includes supporting disk and multiple first blades being arranged on described supporting disk, Described supporting disk is fixed on described motor, and the plurality of first blade protrudes from described fixing scattered On backing, between edge and the described fixing cooling fins of described supporting disk, it is provided with described Two seal bearing；

Described rotation heat dissipation base includes the rotation heat dissipating housing of hollow and is arranged on described rotation heat dissipating housing Multiple second blades of outer surface, the first end of described rotation heat dissipating housing and described first seal shaft The outer ring held is fixedly linked, and the second end of described rotation heat dissipating housing is fixed on described supporting disk；

Described supporting disk, described rotation heat dissipating housing, described fixing heat dissipation base and described fixing cooling fins Surround described sealing space.

Preferably, in above-mentioned radiator, described first blade is provided with and is connected with described sealing space Logical vane heat dissipating cavity.

Preferably, in above-mentioned radiator, described rotation heat dissipation base is conical structure, and described rotation The sectional area of the first end of heat dissipation base is less than the sectional area of the second end of described rotation heat dissipation base.

Preferably, in above-mentioned radiator, described motor has one protruding, described supporting disk has with The opening that the outer surface of described swivel bearing matches, the bossing of described swivel bearing is embedded into In described opening, so that described rotation fin is fixed on described motor.

Preferably, in above-mentioned radiator, described guiding device includes: one end is fixed on described fixing scattered On hot base, the other end is along the axial axially extending separating part in described sealing space；With from described axle To separating part to the radial separations portion radially extended in described sealing space.

Preferably, in above-mentioned radiator, described axially spaced portion is provided with multiple screwed hole, institute State multiple screwed hole for installing screw to be fixed at the bottom of described fixing heat radiation by described guiding device On seat.

During from technique scheme it can be seen that above-mentioned radiator uses, drive when driving means is run Rotary apparatus high speed rotating, and air around the rotary apparatus disturbance highly rotated and be positioned at close Cooling medium flowing in envelope space, the air of flowing forms ventilation type heat radiation, and the cooling of flowing is situated between Matter forms water cooled heat radiating, thus uses the radiator in the embodiment of the present invention can collect ventilation type and dissipates Heat and water cooled heat radiating are in one.

Accompanying drawing explanation

For the technical scheme being illustrated more clearly that in the embodiment of the present invention, embodiment will be described below The accompanying drawing used required in is briefly described, it should be apparent that, the accompanying drawing in describing below is only It is only some embodiments of the present invention, for those of ordinary skill in the art, is not paying wound On the premise of the property made is laborious, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

The structural representation of the radiator that Fig. 1 is provided by the embodiment of the present invention；

The perspective view of the radiator that Fig. 2 is provided by the embodiment of the present invention；

The sectional structure schematic diagram of the radiator that Fig. 3 is provided by the embodiment of the present invention；

The detonation configuration schematic diagram of the radiator that Fig. 4 is provided by the embodiment of the present invention.

Wherein, 1 it is fixing device, 11 is fixing cooling fins, 111 is radiating fin, 12 is fixing Heat dissipation base, 2 for driving means, 21 for motor firm banking, 211 be the first connector, 212 Be the second connector, 22 be motor, 221 for protruding, 23 be the first sealing bearing, 3 for rotating Device, 31 for rotate fin, 311 be supporting disk, 312 be the first blade, 313 scattered for blade Hot cavity, 32 for rotate heat dissipation base, 321 for rotate heat dissipating housing, 322 be the second blade, 33 Be the second sealing bearing, 4 for guiding device, 41 for axially spaced portion, 42 for radial separations portion, 5 For seal space,

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, to the technical scheme in the embodiment of the present invention It is clearly and completely described, it is clear that described embodiment is only that a part of the present invention is real Execute example rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill The every other embodiment that personnel are obtained under not making creative work premise, broadly falls into this The scope of invention protection.

A kind of radiator, as shown in Figures 1 to 4, this radiator includes:

Fixing device 1；

The described driving means 2 being fixed in fixing device 1；

The described rotary apparatus 3 being fixed in driving means 2；

Described fixing device 1, described driving means 2 and described rotary apparatus 3 be fixed together after shape Becoming a sealing space 5, described sealing space 5 is used for holding cooling medium, and described rotary apparatus 3 exists Air and cooling medium flowing is driven under the dynamic action of driving means 2.

When above-mentioned radiator uses, when driving means 2 is run, drive rotary apparatus 3 high speed rotating, and Air (hollow arrow as shown in Figure 3) around rotary apparatus 3 disturbance of high speed rotating and position Cooling medium flowing (filled arrows as shown in Figure 3) in sealing space 5, the air shape of flowing Becoming ventilation type heat radiation, the cooling medium of flowing forms water cooled heat radiating, thus uses the present invention to implement Radiator in example can be with gas collection cooling radiation and water cooled heat radiating in one.

In one of them embodiment of the present invention, described radiator also includes guiding device 4, described in lead Stream device 4 is arranged in sealing space 5, and described sealing space 5 is separated into the interconnection of multiple phase Logical circulation cooling road.By arranging guiding device 4, so that the cooling sealed in space 5 is situated between Matter circulates along circulation cooling road, such that it is able to the stream of cooling medium in extending sealing space 5 The dynamic time, improve the heat exchange efficiency of radiator.

Wherein, it is possible to the structure of the guiding device 4 realizing parting seal space 5 has a variety of, in order to Assembly and disassembly is convenient, and the described guiding device 4 in the embodiment of the present invention includes axially spaced portion 41 He Radial separations portion 42, wherein, the one end in axially spaced portion 41 is fixed on described fixing heat dissipation base On 12, the other end is axially extended axially spaced portion 41 along described sealing space 5；And radial separations Portion 42 is from described axially spaced portion 41 radially extending to described sealing space 5.Axially spaced portion The radial separations in sealing space 5 is become some circulation cooling roads axially extended by 41, and radially divides The some circulation cooling roads radially extended of axially spaced one-tenth in space 5 will be sealed every portion 42.

The most axially spaced portion 41 is the cylindrical-shaped structure of hollow, axially spaced portion The inner side of 41 and other devices form circulation cooling road, the outside in axially spaced portion 41 and other devices Form circulation cooling road, and the middle part that radial separations portion 42 is arranged in axially spaced portion 41 is annulus Shape structure, is separated into upper and lower two-part structure by sealing space 5.

It should be noted that described axially spaced portion 41 is fixed on the realization on fixing heat dissipation base 12 Form has multiple, and wherein, fixing heat dissipation base 12 can be tied for integral type with axially spaced portion 41 Structure, it is also possible to for dismountable structure, and integral structure can be by injection or casting or forging Make as integral type structure, or by being welded into integral structure；And dismountable structure is permissible It is screwed in and becomes Demountable together.

The most axially spaced portion 41 is arranged on one end of fixing heat dissipation base 12 Multiple screwed hole, the plurality of screwed hole is had to be used for screw being installed with by solid for described guiding device 4 It is scheduled on described fixing heat dissipation base 12.

In still another embodiment of the process, the concrete knot of fixing device 1 in radiator is specifically described Structure, wherein, fixing device 1 includes: fixing heat dissipation base 12 and fixing cooling fins 11, Qi Zhongsuo State fixing cooling fins 11 to be fixed on described fixing heat dissipation base 12.

Wherein, fixing cooling fins 11 is hollow structure, and fixing heat dissipation base 12 is arranged on fixing heat radiation The bottom of sheet 11, assembles radiator for convenience, fixing heat dissipation base 12 and fixing cooling fins 11 For split-type structural, after other parts being positioned in fixing device 1 install, fix and dissipate Hot base 12 and described fixing cooling fins 11 are sticked together or by buckle by adhesive glue Form is fixed together.

In order to improve the radiating efficiency of radiator, fixing cooling fins 11 is provided with multiple circumferentially cloth Putting the radiating fin 111 in fixing cooling fins 11, multiple radiating fins 111 axially extend, The setting of radiating fin 111 can increase fixing cooling fins 11 and outside air contact area thus Improve radiating efficiency.

In still another embodiment of the process, the concrete knot of driving means 2 in radiator is specifically described Structure: this described driving means 2 includes: motor fixing base 21 and motor 22；Wherein said motor is solid First connector 211 of reservation 21 is vertically fixed on described fixing heat dissipation base 12, and described Motor 22 is fixed on the second connector 212 of described motor fixing base 21, and described second connects Part 212 is vertically fixed on described first connector 211.

In order to reduce the frictional force between these driving means 2 and other parts, the first connector 211 Periphery be additionally provided with described first seal bearing 23, first seal bearing 23 inner ring be fixed on institute State the periphery of the first connector 211.

When motor 22 runs, motor fixing base 21 does not rotates, motor 22 relative to own rotation, And the rotary apparatus 3 being fixed on motor 22 rotates around motor 22.

Described rotary apparatus 3 includes rotating heat dissipation base 32 and rotating fin 31, wherein,

Described rotation fin 31 includes supporting disk 311 and is arranged on described supporting disk 311 many Individual first blade 312, described supporting disk 311 is fixed on described motor 22；

Described rotation heat dissipation base 32 includes the rotation heat dissipating housing 321 of hollow and is arranged on described rotation Multiple second blades 322 of the outer surface of heat dissipating housing 321, the first end of described rotation heat dissipating housing 321 It is fixedly linked with the described first outer ring sealing bearing 23, the second end of described rotation heat dissipating housing 321 It is fixed on described supporting disk 311；

Described supporting disk 311, described rotation heat dissipating housing 321, described fixing heat dissipation base 12 and described Fixing cooling fins 11 surrounds described sealing space 5.

Supporting disk 311 surrounds the space of installation driving means 2 with rotating heat dissipating housing 321, wherein supports Between dish 311 and rotation heat dissipating housing 321, seal washer can also be set, it is ensured that rotate heat dissipating housing 321 And the sealing property between supporting disk 311, prevents cooling medium from entering the sky installing driving means 2 In between, extend the service life of motor 22.

Further in order to increase the service life, also can be by rotary apparatus 3 with drive in the embodiment of the present invention Dynamic device 2 is integrated into a module.

When motor 22 runs, motor 22 drives supporting disk 311 and is fixed on supporting disk 311 Rotate heat dissipating housing 321 high speed rotating, and the first blade 312 arranged on supporting disk 311 stirs week The air flowing enclosed, is arranged on the second blade 322 agitation rotated on heat dissipating housing 321 and seals space 5 Interior cooling medium flowing.

Fixed form between supporting disk 311 and motor 22 has multiple, and supporting disk 311 is by bonding Gluing it is connected on motor 22, it is also possible to be fixed by screws on motor 22, it is also possible to use it His fixed form is fixed in motor 22, and such as, described motor 22 has a projection 221, described There is on supporting disk 311 opening that the outer surface with described swivel bearing matches, described rotary shaft The projection 221 held is partially embedded in described opening, so that described rotation fin 31 is fixed on institute State on motor 22.

First blade 312 can highlight the side face of fixing cooling fins 11 and can also protrude from described fixing On fin 11, the embodiment of the present invention preferably employs the latter, can reduce the body of whole radiator Long-pending.

In order to improve heat exchange efficiency further, described first blade 312 is provided with and seals sky with described Between the 5 vane heat dissipating cavitys 313 being connected.Thus cooling medium can seal space 5 and blade Circulate between heat-dissipating cavity 313, rotate fin 31 all right while carrying out ventilation type heat radiation Heat exchange is carried out further with cooling medium.

Described rotation heat dissipation base 32 is conical structure, and the first end of described rotation heat dissipation base 32 Sectional area less than the sectional area of the second end of described rotation heat dissipation base 32.Adopt the structure Heat dissipation base can reduce the installing space of fixing device 1, increases the volume sealing space 5, phase The volume holding cooling medium should be added.

In order to reduce the frictional force between rotary apparatus 3 and fixing cooling fins 11, described supporting disk 311 Edge and described fixing cooling fins 11 between be provided with described second seal bearing 33.

It should be noted that each embodiment in this specification all uses the mode gone forward one by one to describe, What each embodiment stressed is the difference with other embodiments, between each embodiment Identical similar part sees mutually.

Finally, in addition it is also necessary to explanation, in this article, the relation of such as first and second or the like Term is used merely to separate an entity or operation with another entity or operating space, and not Necessarily require or imply and there is the relation of any this reality or suitable between these entities or operation Sequence.And, term " includes ", " comprising " or its any other variant are intended to non-exclusive Comprising of property, so that equipment not only includes those key elements, but also include being not expressly set out Other key elements.In the case of there is no more restriction, statement " including ... " limit Key element, it is not excluded that equipment there is also other identical element.

Above a kind of radiator provided by the present invention is described in detail, tool used herein Principle and the equipment of the present invention are set forth by body example, and the explanation of above example is only intended to Help to understand the core concept of the present invention；Simultaneously for one of ordinary skill in the art, foundation The thought of the present invention, the most all will change, to sum up institute Stating, this specification content should not be construed as limitation of the present invention.

Claims (10)

1. a radiator, it is characterised in that including: fixing device, driving means and rotation dress Put；Wherein said driving means is fixed in described fixing device, and described rotary apparatus is fixed on institute State in driving means；

It is close that described fixing device, described driving means and described rotary apparatus form one after being fixed together Envelope space, described sealing space is used for holding cooling medium, and described rotary apparatus is in driving means Air and cooling medium flowing is driven under dynamic action.

Radiator the most according to claim 1, it is characterised in that described radiator also includes Guiding device, described guiding device is arranged in sealing space, and is separated in described sealing space Multiple circulation cooling roads being interconnected.

Radiator the most according to claim 2, it is characterised in that described fixing device includes: Fixing heat dissipation base and fixing cooling fins, wherein said fixing cooling fins is fixed on described fixing heat radiation On base.

Radiator the most according to claim 3, it is characterised in that described driving means includes: First seals bearing, motor fixing base and motor；First connector of wherein said motor fixing base It is vertically fixed on described fixing heat dissipation base, and described motor is fixed on described motor fixing base On second connector, described second connector is vertically fixed on described first connector；

Described first inner ring sealing bearing is fixed on the periphery of described first connector.

Radiator the most according to claim 4, it is characterised in that described rotary apparatus includes: Rotate heat dissipation base, rotate fin and the second sealing bearing；

Wherein

Described rotation fin includes supporting disk and multiple first blades being arranged on described supporting disk, Described supporting disk is fixed on described motor, and the plurality of first blade protrudes from described fixing scattered On backing, between edge and the described fixing cooling fins of described supporting disk, it is provided with described Two seal bearing；

Described rotation heat dissipation base includes the rotation heat dissipating housing of hollow and is arranged on described rotation heat dissipating housing Multiple second blades of outer surface, the first end of described rotation heat dissipating housing and described first seal shaft The outer ring held is fixedly linked, and the second end of described rotation heat dissipating housing is fixed on described supporting disk；

Described supporting disk, described rotation heat dissipating housing, described fixing heat dissipation base and described fixing cooling fins Surround described sealing space.

Radiator the most according to claim 5, it is characterised in that set on described first blade It is equipped with the vane heat dissipating cavity being connected with described sealing space.

Radiator the most according to claim 6, it is characterised in that described rotation heat dissipation base For conical structure, and the sectional area of the first end of described rotation heat dissipation base rotates heat radiation less than described The sectional area of the second end of base.

Radiator the most according to claim 7, it is characterised in that it is convex that described motor has one Rise, described supporting disk has the opening that the outer surface with described swivel bearing matches, described rotation The bossing that rotating shaft is held is embedded in described opening, described to be fixed on by described rotation fin On motor.

Radiator the most according to claim 7, it is characterised in that described guiding device includes: One end is fixed on described fixing heat dissipation base, and the other end is along the axially extended axle in described sealing space To separating part；With the radial separations radially extended to described sealing space from described axially spaced portion Portion.

Radiator the most according to claim 9, it is characterised in that in described axially spaced portion Being provided with multiple screwed hole, the plurality of screwed hole is used for installing screw with by described guiding device It is fixed on described fixing heat dissipation base.