CN206212531U - Liquid cooling system - Google Patents

Abstract

A kind of liquid cooling system, comprising a liquid cold head, a fixture, a radiator, a pump, two first water nozzles and an at least fan.Fixture is arranged on liquid cold head.Radiator is installed on liquid cold head by fixture, and radiator is rotated between at least two distinct locations relative to liquid cold head by fixture.Radiator has a liquid reserve tank.Pump is optionally set on liquid cold head or liquid reserve tank.Two first water nozzles are axially set on radiator along one first opposite sides for being axially rotatablely arranged at liquid reserve tank, and fan along one second, wherein first is axially axially different with second.

Description

Liquid cooling system

Technical field

The utility model is related to a kind of liquid cooling system, and more particularly to one kind can make radiator with respect to liquid cold head at least two-phase The liquid cooling system that dystopy is rotated between putting.

Background technology

Heat abstractor is closely bound up with the development of electronic installation.Because electronic installation is in running, the electric current meeting in circuit Unnecessary heat is produced because of the influence of impedance, if these heats can not effectively be excluded and accumulated inside electronic installation Electronic component on, electronic component is just possible to be damaged because of continuous elevated temperature.Therefore, the quality of heat abstractor is direct Influence the running of electronic installation.

At present, the most frequently used heat abstractor of electronic installation is the electronics unit by the way that the end thereof contacts of heat pipe can be produced heat Part, other end connection fin, and fin is radiated with radiator fan.However, radiator fan institute under rotating speed high What is produced disturbs people's noise and power consumption high, and often manufacturer is difficult to the problem for overcoming.Therefore, liquid cooling system just in response to and It is raw.

In general, liquid cooling system is mainly being made up of multiple pipelines connection liquid cold head, radiator and pump.The cold system of liquid Coolant is squeezed into liquid cold head by system when being radiated to electronic component by pump, and coolant absorbs the heat produced by electronic component Amount, then coolant is cooled down by radiator.In liquid cooling system, the relative position of liquid cold head, radiator and pump fix and Can not adjust.Further, since the configuration of the electronic component inside electronic installation is not quite similar, can be used to install inside electronic installation The space of liquid cooling system is also restrained.Therefore, just need for the exclusive liquid cooling system of different electronic device designs so that liquid Cooling system is upper more nonelastic in use, and can increase manufacturing cost.

Utility model content

The utility model provides a kind of cold system of liquid for making radiator be rotated between at least two distinct locations relative to liquid cold head System, to solve the above problems.

Liquid cooling system described in the utility model, it is characterised in that comprising a liquid cold head, a fixture, a radiator, one Pump, two first water nozzles and an at least fan.Fixture is arranged on liquid cold head.It is cold that radiator is installed on liquid by fixture Head, and radiator is rotated between at least two distinct locations relative to liquid cold head by fixture.Radiator has a liquid reserve tank.Pump Optionally set on liquid cold head or liquid reserve tank.Two first water nozzles are axially rotatablely arranged at the relative of liquid reserve tank along one first Both sides, and fan is axially set on radiator along one second, wherein first is axially axial with second different.

Liquid cooling system described in the utility model, it is characterised in that pump is arranged on liquid cold head, liquid cooling system also includes two Second water nozzle and two pipelines, the second water nozzle are axially rotatablely arranged on the pump along second, and two pipelines connect two first water Mouth and two second water nozzles.

Liquid cooling system described in the utility model, it is characterised in that pump is arranged on liquid reserve tank, liquid cooling system also includes two Second water nozzle and two pipelines, the second water nozzle are rotatablely arranged on the liquid cold head along second axial direction, two pipelines connection two First water nozzle and two second water nozzles.

Liquid cooling system described in the utility model, it is characterised in that first is axially axially vertical with second.

Liquid cooling system described in the utility model, it is characterised in that fixture has biside plate, biside plate sets toward each other Put, radiator is arranged between biside plate and is pivotally connected with biside plate, and each side plate has one first elastic cantilever and one second Elastic cantilever, the both sides of radiator have a fixing hole respectively, and the first elastic cantilever and the second elastic cantilever are used to and fixing hole Engaging.

Liquid cooling system described in the utility model, it is characterised in that each side plate also has a limit track, radiator Both sides there is a locating part respectively, locating part is arranged in limit track, and locating part coordinates with limit track, to limit radiating The rotational angle of device.

In sum, because radiator can be rotated relative to liquid cold head between at least two distinct locations, user or manufacturer Position of the radiator with respect to liquid cold head can be adjusted, to avoid the cold system of liquid according to the configuration of the electronic component inside electronic installation Electronic component inside system and electronic installation produces the problem interfered and cannot install.Additionally, the utility model can select pump Property be arranged on the liquid reserve tank of liquid cold head or radiator, with increase manufacture on elasticity.Furthermore, due to water nozzle with fan along phase It is different to be axially set on radiator, and water nozzle is rotatable, therefore, during radiator is rotated relative to liquid cold head, connect water The pipeline of mouth will not produce interference with fan so that radiator can swimmingly be rotated relative to liquid cold head, can also avoid pipeline by wind Fan is pullled and departs from water nozzle.

Can be obtained further by following detailed description and appended accompanying drawing with spirit on advantage of the present utility model Understanding.

Brief description of the drawings

Fig. 1 is the schematic diagram of the liquid cooling system according to the embodiment of the utility model one.

Fig. 2 is the liquid cooling system in Fig. 1 in the schematic diagram at another visual angle.

Fig. 3 is the exploded view of the liquid cooling system in Fig. 1.

Fig. 4 is the schematic diagram after the radiator rotation in Fig. 1.

Fig. 5 is the schematic diagram of the liquid cooling system according to another embodiment of the utility model.

Fig. 6 is the liquid cooling system in Fig. 5 in the schematic diagram at another visual angle.

Fig. 7 is the exploded view of the liquid cooling system in Fig. 5.

Fig. 8 is the schematic diagram after the radiator rotation in Fig. 5.

Wherein, reference

1、1'：Liquid cooling system

10：Liquid cold head

12：Fixture

14：Radiator

16：Pump

18：First water nozzle

20：Fan

22：Second water nozzle

24：Pipeline

120：Side plate

122：First elastic cantilever

124：Second elastic cantilever

126：Limit track

140：Pivot

142：Fixing hole

144：Locating part

146：Liquid reserve tank

A1：First axially

A2：Second axially

Specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

Refering to Fig. 1 to Fig. 4, Fig. 1 is the schematic diagram of the liquid cooling system 1 according to the embodiment of the utility model one, and Fig. 2 is Fig. 1 In liquid cooling system 1 in the schematic diagram at another visual angle, Fig. 3 is the exploded view of the liquid cooling system 1 in Fig. 1, and Fig. 4 is dissipating in Fig. 1 Schematic diagram after the rotation of hot device 14.

As shown in Figures 1 to 4, liquid cooling system 1 comprising a liquid cold head 10, a fixture 12, a radiator 14, a pump 16, Two first water nozzles 18, two fans 20, two second water nozzles 22 and two pipelines 24.Fixture 12 is arranged on liquid cold head 10.At this In embodiment, pump 16 is arranged on liquid cold head 10, and fixture 12 is arranged on pump 16 so that fixture 12 is arranged at liquid cold head On 10.In actual applications, liquid cold head 10 can be integrated into single element with pump 16, but be not limited.

Fixture 12 has biside plate 120, and wherein biside plate 120 is positioned opposite to each other.Radiator 14 is arranged at biside plate It is pivotally connected with biside plate 120 between 120 and by pivot 140.In other words, radiator 14 is installed on liquid cold head 10 by fixture 12 With pump 16.Each side plate 120 have one first elastic cantilever 122 and one second elastic cantilever 124, and radiator 14 two Side has a fixing hole 142 respectively, as shown in Figure 3.It should be noted that, because being limited to visual angle, Fig. 3 only shows the side of radiator 14 Fixing hole 142.In this embodiment, the first elastic cantilever 122 is used to engage with fixing hole 142 with the second elastic cantilever 124. Additionally, each side plate 120 also has a limit track 126, and the both sides of radiator 14 have a locating part 144 respectively, such as Shown in Fig. 1 and Fig. 2.Locating part 144 is arranged in limit track 126 so that locating part 144 can coordinate with limit track 126, with The rotational angle of limiting heatsink 14.

Radiator 14 has a liquid reserve tank 146.In this embodiment, liquid reserve tank 146 may be used to store coolant, and be used to The hydraulic pressure that regulation pump is produced when operating.Two first water nozzles 18 are rotatablely arranged at the phase of liquid reserve tank 146 along one first axial direction A1 To both sides, and two fans 20 are arranged on radiator 14 along one second axial direction A2, wherein the first axial direction A1 and the second axial direction A2 phases It is different, as shown in Figures 1 and 2.In this embodiment, the first axial direction A1 is vertical with the second axial direction A2, but is not limited.Additionally, Two second water nozzles 22 are rotatablely arranged on pump 16 along the second axial direction A2.Two pipelines 24 are used to connect two first water nozzles 18 and two Second water nozzle 22, and then form the peripheral passage of coolant.

When radiator 14 is in the upright position shown in Fig. 1 with respect to liquid cold head 10, the first elastic cantilever of side plate 120 122 are fixed with the fixing hole 142 of radiator 14.If user is intended to radiator 14 with respect to liquid cold head 10 from shown in Fig. 1 Upright position turns to the horizontal level shown in Fig. 4, and user can direct rotation heat sink 14.Now, the first bullet of side plate 120 Property cantilever 122 will depart from the fixing hole 142 of radiator 14.When radiator 14 turns to the horizontal level shown in Fig. 4, side plate 120 the second elastic cantilever 124 can be fixed with the fixing hole 142 of radiator 14.In this embodiment, locating part 144 With limit track 126 can limiting heatsink 14 rotational angle be 90 degree (but being not limited), to avoid the mistake of radiator 14 Degree is rotated.

If user is intended to for radiator 14 to be moved to hanging down shown in Fig. 1 from the horizontal level shown in Fig. 4 with respect to liquid cold head 10 Straight position, as long as reverse operating in the manner described above, will not be repeated here.Thus, you can radiating is made by fixture 12 Device 14 is rotated relative to liquid cold head 10 between at least two distinct locations.Due to the first water nozzle 18 with fan 20 along different axial A1, A2 It is arranged on radiator 14, and the first water nozzle 18 and the second water nozzle 22 are rotatable, therefore, in relative 10 turns of the liquid cold head of radiator 14 In dynamic process, the pipeline 24 of the first water nozzle 18 of connection and the second water nozzle 22 will not produce interference with fan 20 so that radiator 14 can swimmingly rotate relative to liquid cold head 10, can also avoid pipeline 24 from being pullled by fan 20 and depart from the first water nozzle 18 and/or Two water nozzles 22.

Refering to Fig. 5 to Fig. 8, Fig. 5 is the schematic diagram of the liquid cooling system 1' according to another embodiment of the utility model, and Fig. 6 is In the schematic diagram at another visual angle, Fig. 7 is the exploded view of the liquid cooling system 1' in Fig. 5 to liquid cooling system 1' in Fig. 5, and Fig. 8 is in Fig. 5 Radiator 14 rotate after schematic diagram.It is in place of liquid cooling system 1' and the main difference of above-mentioned liquid cooling system 1, the cold system of liquid The pump 16 of system 1' is arranged on radiator 14, as shown in Fig. 5 to Fig. 8.Because pump 16 is arranged on radiator 14, therefore, two Two water nozzles 22 are rotatablely arranged on liquid cold head 10 along the second axial direction A2, then by two pipeline 24 connect two first water nozzles 18 with Two second water nozzles 22, you can form the peripheral passage of coolant.It should be noted that, with the identical mark shown in Fig. 1-4 in Fig. 5-8 Number element, its action principle is roughly the same, will not be repeated here.

Embodiment according to Fig. 1-Fig. 4 and Fig. 5-Fig. 8, it is cold that pump 16 can be selectively arranged at liquid by the utility model First 10 or radiator 14 liquid reserve tank 146 on, depending on practical application.

In sum, because radiator can be rotated relative to liquid cold head between at least two distinct locations, user or manufacturer Position of the radiator with respect to liquid cold head can be adjusted, to avoid the cold system of liquid according to the configuration of the electronic component inside electronic installation Electronic component inside system and electronic installation produces the problem interfered and cannot install.Additionally, the utility model can select pump Property be arranged on the liquid reserve tank of liquid cold head or radiator, with increase manufacture on elasticity.Furthermore, due to water nozzle with fan along phase It is different to be axially set on radiator, and water nozzle is rotatable, therefore, during radiator is rotated relative to liquid cold head, connect water The pipeline of mouth will not produce interference with fan so that radiator can swimmingly be rotated relative to liquid cold head, can also avoid pipeline by wind Fan is pullled and departs from water nozzle.

Preferred embodiment of the present utility model is the foregoing is only, any those familiar with ordinary skill in the art can basis Various changes can be made and modification for design of the present utility model, but these changes and modification should all belong to and fall into protection of the present utility model Scope.

Claims (6)

1. a kind of liquid cooling system, it is characterised in that include：

One liquid cold head；

One fixture, is arranged on the liquid cold head；

One radiator, is installed on the liquid cold head, and make the radiator with respect to the liquid cold head by the fixture by the fixture Rotated between at least two distinct locations, the radiator has a liquid reserve tank；

One pump, is selectively arranged on the liquid cold head or the liquid reserve tank；

Two first water nozzles, along one first opposite sides for being axially rotatablely arranged at the liquid reserve tank；And

An at least fan, is axially set on the radiator along one second, and first axial direction is different with second axial direction.

2. liquid cooling system as claimed in claim 1, it is characterised in that the pump is arranged on the liquid cold head, and the liquid cooling system is also Comprising two second water nozzles and two pipelines, described two second water nozzles are rotatablely arranged on the pump along second axial direction, described Two pipelines connect two first water nozzle and described two second water nozzles.

3. liquid cooling system as claimed in claim 1, it is characterised in that the pump is arranged on the liquid reserve tank, and the liquid cooling system is also Comprising two second water nozzles and two pipelines, described two second water nozzles are rotatablely arranged on the liquid cold head along second axial direction, Two pipeline connects two first water nozzle and described two second water nozzles.

4. liquid cooling system as claimed in claim 1, it is characterised in that this is first axially second axially vertical with this.

5. liquid cooling system as claimed in claim 1, it is characterised in that the fixture has biside plate, and the biside plate is each other It is oppositely arranged, the radiator is arranged between the biside plate and is pivotally connected with the biside plate, and each side plate has one first Elastic cantilever and one second elastic cantilever, the both sides of the radiator have a fixing hole respectively, first elastic cantilever with should Second elastic cantilever is used to engage with the fixing hole.

6. liquid cooling system as claimed in claim 5, it is characterised in that each side plate also has a limit track, the radiating The both sides of device have a locating part respectively, and the locating part is arranged in the limit track, and the locating part coordinates with the limit track, To limit the rotational angle of the radiator.