CN106332512A - Liquid-cooling apparatus and system - Google Patents

Abstract

The invention provides a liquid-cooling apparatus and system. A pusher and a plurality of heat dissipation fins which are matched with the pusher are arranged in a heat exchange cavity that is used for allowing a cooling liquid to pass through, so that the cooling liquid circulated by the pusher flows to the equivalent heat dissipation fins so as to carry out heat dissipation on a heating element effectively.

Description

Liquid cooling apparatus and system

[technical field]

The present invention is related to liquid cooling apparatus.

[background technology]

In electronic installation runs, the heat produced in CPU or other processor operation must rapidly and effectively dissipate.And the cooling way of be widely used at present CPU or other processors is based on air-cooling apparatus, mainly using scattered device and fan as the means of heat radiation.Another utilizes coolant to cool down CPU or other processors, such Water Cooling Technology such as U.S. Publication patent No. 8245764(US 8245764) disclose the cooling system of a kind of heater element, including: a two-sided pedestal, it is used for housing a pumping and makes a cooling cooling liquid circulation, this pumping includes a stator and a pusher, this pusher is located at this pedestal bottom side, and this stator is located at the top side of this pedestal isolates with this cooling cooling liquid；One fluid reservoir, for this cooling cooling liquid by it, this fluid reservoir includes: a pumping chamber, including this pusher the lower section that is formed at this pedestal, at least one pusher lid defines this pumping chamber, and has one or several runner for the circulation of this cooling cooling liquid；One heat exchanger chambers, is formed at the lower section of this pumping chamber and vertical with this pump cavity interventricular septum, and this pumping chamber and this heat exchanger chambers are separate chamber connecting through this one or several channel flow ground；One heat exchange interface, this heat exchange interface forms one of this heat exchanger chambers side, and contacts with a heater element；And a radiator, fluidly connect this fluid reservoir to make this cooling cooling liquid dispel the heat.And for example the open 20050069432A1 of United States Patent (USP) discloses a kind of electronic installation with pumping, this electronic installation includes that a liquid storage housing has a heater element, a radiating part in order to dispel the heat this heater element, one pump unit has a pusher and this heater element of endothermic section thermally coupled, wherein this pump unit supplies cooling liquid to this radiating part by the rotation of this pusher, and the circulating path circulation that this cooling liquid is between this endothermic section and this radiating part, with the heat transfer that this heater element produced through this cooling liquid to radiating part.The central authorities of the pusher of this pump unit are separately positioned with the central authorities of heater element.But known part is many, it is easily damaged at the structure between part, causes and easily leak.

[summary of the invention]

The main purpose of the present invention is installed with the liquid cooling structure of pumping and plurality of radiating fins in providing a kind of single heat exchanger chambers, less than the volume of current liquid cooling apparatus, and cooling effectiveness is higher, and production cost can be reduced, improve liquid cooling apparatus and the system of yield.

Another object of the present invention is positioned away from a middle section of a heat exchanger chambers at a kind of pusher of offer, and plural number fin coordinates the position of this pusher to arrange, so that cycled through rapidly liquid cooling apparatus and the system of this plurality of radiating fins by the cooling liquid of this pushers.

For reaching above-mentioned purpose, the present invention provides a kind of liquid cooling apparatus, including: a liquid storage housing, there is a heat exchanger chambers and an entrance and an outlet, this entrance and this heat exchanger chambers of this outlet, this heat exchanger chambers is passed through in it for a cooling liquid；One pumping element, in order to circulate this cooling liquid, including a stator and a rotor, this rotor connects a pusher, and this rotor and this pusher are positioned away from a middle position of this heat exchanger chambers, wherein this pusher is to should entrance and be exposed to the cooling liquid of this heat exchanger chambers；One heat exchange elements, connect this liquid storage housing, form a base of this heat exchanger chambers, there is a thermal interface and a heat-exchange surface, this heat-exchange surface contacts with the cooling liquid of these heat exchange chamber indoor, and define on this heat-exchange surface one enter aqua region to should pusher, and remaining region on this heat-exchange surface is provided with plurality of radiating fins.

This liquid storage housing has a top board and forms the top margin of this heat exchanger chambers relative to this heat exchange elements, and this heat exchanger chambers is between this top board and this heat exchange elements.

This radiating fin is radial to be spaced, and this radiating fin each have one first end to should pusher, and one second end extends outwardly away from this radially and enters aqua region.

This radiating fin each extends to the second end from the first end is wavy.

This radiating fin each is respectively provided with an identical or different height.

This heat-exchange surface is provided with plural number guiding gutter, and this guiding gutter each is between two radiating fins.

It is outdoor that this stator is arranged on this heat exchange chamber, and this top board stops that the cooling liquid of these heat exchange chamber indoor of isolation contacts this stator.

It is indoor that this stator is arranged on this heat exchange chamber, and is positioned on the heat-exchange surface of this heat exchange elements.

The present invention additionally provides a kind of liquid cooling system, including: a liquid storage housing, there is a heat exchanger chambers and an entrance and an outlet, this entrance and this heat exchanger chambers of this outlet, this heat exchanger chambers is passed through in it for a cooling liquid；One pumping element, in order to circulate this cooling liquid, including a stator and a rotor, this rotor connects a pusher, and this rotor and this pusher are positioned away from a middle section of this heat exchanger chambers, wherein this pusher is to should entrance and be exposed to the cooling liquid of this heat exchanger chambers；One heat exchange elements, connect this liquid storage housing, form the top margin of this heat exchanger chambers, there is a thermal interface and a heat-exchange surface, this heat-exchange surface contacts with the cooling liquid of these heat exchange chamber indoor, and define on this heat-exchange surface one enter aqua region to should pusher, and remaining region on this heat-exchange surface is provided with plurality of radiating fins；One radiator, connects this liquid storage housing to make this cooling liquid dispel the heat.

This radiator utilizes one first can connect the entrance and one second of this liquid storage housing around pipe can connect the outlet of this liquid storage housing around pipe, and this radiator is away from this liquid storage housing.

[accompanying drawing explanation]

Following graphic purpose is to enable the invention to be more easily understood, and can encyclopaedize that those are graphic in this article, and makes it constitute the some of specific embodiment.Through specific embodiment herein and with reference to corresponding graphic, in order to explain orally the specific embodiment of the present invention in detail, and in order to illustrate the action principle of invention.

Figure 1A is the perspective exploded view of the present invention the first enforcement；

Figure 1B is the three-dimensional combination schematic diagram of the present invention the first enforcement；

Fig. 1 C is the cross-sectional schematic of the present invention the first enforcement；

Fig. 2 A～2D is the schematic diagram of other aspects of heat exchange elements；

Fig. 3 is the schematic diagram that the present invention is connected with radiator；

Fig. 4 A is the perspective exploded view of the present invention the second enforcement；

Fig. 4 B is the three-dimensional combination schematic diagram of the present invention the second enforcement；

Fig. 4 C is framework and the schematic top plan view of heat exchange elements combination of the present invention the second enforcement；

Fig. 4 D is the combination cross-sectional schematic of the present invention the second enforcement；

Fig. 5 A is the first schematic diagram that the present invention second implements to be connected with radiator；

Fig. 5 B is the second schematic diagram that the present invention second implements to be connected with radiator.

In accompanying drawing, the assembly representated by each sequence number is:

10 liquid cooling apparatus

11 liquid storage housings

111 heat exchanger chambers

112 entrances

113 outlets

12,42 pumping element

121,421 stator

122,422 rotor

123,423 pusher

13,43 heat exchange elements

131,431 thermal interface

1311,4311 enter aqua region

132,432 heat-exchange surface

133,433 radiating fin

1331,4,331 first end

1332,4,332 second end

134 guiding gutters

1334 grooves

15 top boards

151 grooves

152 hollow convex cylinders

16 first packing rings

17 second packing rings

18,28 circuit board

20 radiators

201 radiator inlet

202 radiator outlets

21 first can be around pipe

22 second can be around pipe

30 fans

424 isolation shells

45 top boards

[detailed description of the invention]

The above-mentioned purpose of the present invention and structure thereof and characteristic functionally, will be explained according to the embodiment of institute's accompanying drawings.

Please join the three-dimensional combination schematic diagram that the perspective exploded view that Figure 1A is the present invention the first enforcement: Figure 1B is the present invention the first enforcement: Fig. 1 C is the cross-sectional schematic of the present invention the first enforcement.Liquid cooling apparatus 10 includes a liquid storage housing 11 as shown in the figure, one pumping element 12 and a heat exchange elements 13, this liquid storage housing 11 has a heat exchanger chambers 111, one entrance 112 and an outlet 113, this heat exchanger chambers 111 is passed through for a cooling liquid in being formed at this liquid storage housing 1, this entrance 112 and this outlet 113 run through this liquid storage housing 11 from the side of liquid storage housing 11, and connect this heat exchanger chambers 111, such as but to be not intended to this entrance 112 and the most clinodiagonal orientation of this outlet 113 corresponding, so arrange and this entrance 112 can be made to have the longest air line distance with this outlet 113, cooling liquid enters this heat exchanger chambers 111 from this entrance 112, then heat exchanger chambers 111 is flowed out from this outlet 113.Liquid storage housing 11 has a top board 15 and forms a top margin of this heat exchanger chambers 111, this top board 15 represents with liquid storage housing 11 is the element separated in this enforcement, constitute the some of this liquid storage housing 11 after combined with this liquid storage housing 11, in conjunction with mode can such as screw lock, gluing or welding or other can be easy to think and combination etc..There is between top board 15 and this liquid storage housing 11 one first packing ring 16.In the enforcement that other are possible, the integrated some becoming liquid storage housing 11 of this top board 15, so can omit the setting of packing ring.Liquid storage housing 11 can be metal with this top board 15 or plastics are made.

This pumping element 12 includes stator 121 and rotor 122 and a pusher 123, this rotor 122 connects this pusher 123, and rotor 122 and pusher 123 are positioned away from a middle section position of this heat exchanger chambers, this pusher 123 is to should entrance 112 and be exposed to the cooling liquid of this heat exchanger chambers 111, this stator 121 is arranged on outside this heat exchanger chambers 111, and stops that the cooling liquid isolated in this heat exchanger chambers 111 contacts this stator 121 by this top board 15.Implement this top board 15 at this to be provided with a groove 151 and accommodate this stator 121, and in this groove 151, it is provided with the rotor 122 that a hollow convex cylinder 152 is contained in this heat exchanger chambers 111, thereby this stator 121 across this top board 15 to should rotor 122, to drive this rotor 122 to drive this pusher 123 to rotate.Furthermore this stator 121 connects a circuit board 18, with obtain produce magnetic field electric energy, this circuit board 18 such as but be not intended to be arranged on this top board 15 with this stator 121 the same side.

This heat exchange elements 13 can connect this liquid storage housing 11 to constitute the some of this liquid storage housing 11 in the way of such as screw lock or welding or gluing, and then form a base of this heat exchanger chambers 111, this heat exchanger chambers 111 is then between this top board 15 and this heat exchange elements 13, and one second packing ring 17 be arranged between this liquid storage housing 11 and this heat exchange elements 13, in order to increase the combination density between liquid storage housing 11 and heat exchange elements 13, prevent the cooling liquid seepage in heat exchanger chambers 11.This heat exchange elements 13 is made by high-thermal conductive metal such as aluminum, copper are golden or silver-colored etc., and there is a thermal interface 131 contact with a heater element, and one heat-exchange surface 132 contact with the cooling liquid in this heat exchanger chambers 11, thereby the heat penetration of heater element is crossed this heat exchange elements 13 and conducts the cooling liquid to heat exchanger chambers 111.

Furthermore, define one on this heat-exchange surface 132 and enter aqua region 1311 to should pusher 123, and remaining region on this heat-exchange surface 132 is provided with plurality of radiating fins 133, it is spaced Deng radiating fin 133 is radial, and each radiating fin 133 have one first end 1331 to should pusher 123, and one second end 1332 extends outwardly away from this radially and enters aqua region 1311.By the setting of aforementioned such radiating fin 1333, when pusher 123 rotates and then cooling liquid in this heat exchanger chambers 111 of disturbance, and this cooling liquid is driven by pusher 123 and then flows out from this outlet 113 through such radiating fin 133.

To be illustrated, at Figure 1A, aforementioned such radiating fin 133 represents that each radiating fin 133 is respectively provided with identical height.But implement the most each radiating fin 133 at another and be respectively provided with different height.Implementing to be provided with on such as the heat-exchange surface 132 of this heat exchange elements 13 of Fig. 2 B plural number guiding gutter 134 at another, each guiding gutter 134 is between two radiating fins 133, to help to guide cooling liquid.Implement to offer groove 1334 such as this each radiating fin 133 of Fig. 2 C at another.Implement such as this each radiating fin 133 of Fig. 2 D at another and extend to the second end 1332 from the first end 1331 is wavy.

Please join Fig. 3 is the schematic diagram that the liquid cooling apparatus implemented of the present invention first and radiator connect and compose liquid cooling system.A radiator 20 is away from the liquid storage housing 11 of this liquid cooling apparatus 10 as shown in the figure.This radiator 20 has radiator inlet 201 and a radiator outlet 202, and one first can connect between this radiator 20 and liquid cooling apparatus 10 around pipe 22 around pipe 21 and one second.Wherein this first can connect this radiator outlet 202 around one end of pipe 21, and the other end connects the entrance 112 of this liquid storage housing 11.This second can connect this radiator inlet 201 around one end of pipe 22, and the other end connects the outlet 113 of this liquid storage housing 11.Furthermore, radiator 20 can connect a fan 30 and help this radiator 20 to dispel the heat.Cooling liquid in heat exchanger chambers 111 be heated after after outlet 113 discharge through this radiator 20 can be flow to around pipe 22 by second, then after being dispelled the heat by radiator 20, first around pipe 21, then can flow into from entrance 112 in the heat exchanger chambers 111 of liquid storage housing 11 through this from radiator outlet 202.Heater element is dispelled the heat by the such circulation of cooling liquid.

Perspective exploded view please continue to refer to Fig. 4 A is the present invention the second enforcement: Fig. 4 B is the three-dimensional combination schematic diagram of the present invention the second enforcement: Fig. 4 C is framework and the schematic top plan view of heat exchange elements combination of the present invention the second enforcement: Fig. 4 D is the cross-sectional schematic of the present invention the second enforcement.This enforcement is implemented to be substantially the same with aforementioned first, and identical element represents with identical symbol.As shown in the figure, with the difference of aforementioned enforcement, this enforcement is that the stator 421 of this pumping element 42, rotor 422 and pusher 423 are all arranged in this heat exchanger chambers 111, this stator 421 prevents heat exchanger chambers 111 in being covered by an isolation shell 424 in, cooling liquid contacts this stator 421.This pumping 42 is arranged on the heat-exchange surface 132 of this heat exchange elements 13 as shown in the figure.Circuit board 28 can be alternatively provided in this isolation shell 424, and as shown in Figure 4 D, the electric wire of circuit board 28 is connected to external power supply (not shown) through this isolation shell 424 and liquid storage housing 11.May be provided at this top board 45 at this circuit board 28 of other feasible enforcements to be exposed on the one side of environment, then pass through the electric wire of circuit board 28 run through this liquid storage housing 11 and this isolation shell 422 to connect this stator 421(not shown).Isolation shell 422 and liquid storage housing 11 can be sealed by through part, to prevent cooled liquid stream from entering to isolate shell 422 and preventing seepage.

This heat exchange elements 43 has a thermal interface 431 and contacts with a heater element, and one heat-exchange surface 432 contact with the cooling liquid in this heat exchanger chambers 11, thereby the heat penetration of heater element is crossed this heat exchange elements 43 and conducts the cooling liquid to heat exchanger chambers 111.Furthermore, define one on this heat-exchange surface 432 and enter aqua region 4311 near this entrance 112, this stator 421 is arranged on this and enters aqua region 4311, and remaining region on this heat-exchange surface 432 is provided with plurality of radiating fins 433, it is spaced Deng radiating fin 433 is radial, and each radiating fin 433 have one first end 4331 to should pusher 423, and one second end 4332 extends outwardly away from this radially and enters aqua region 4311.By the setting of aforementioned such radiating fin 4333, when pusher 423 rotates and then cooling liquid in this heat exchanger chambers 111 of disturbance, and this cooling liquid is driven by pusher 423 and then flows out from this outlet 113 through such radiating fin 4333.

It is the first schematic diagram that the present invention second implements to be connected with radiator please continue to refer to Fig. 5 A: Fig. 5 B is the second schematic diagram that the present invention second implements to be connected with radiator.As shown in Figure 5A, radiator 20 is identical with the 3rd figure that aforesaid first implements with the connected mode of liquid cooling apparatus 10.Additionally, as shown in Figure 5 B, entrance 112 at the second liquid storage housing 11 implemented is arranged on this top board 45, and to should pumping element 42, by so arranging, the lower section of this pumping element 42 lower inlet 112, therefore the cooling liquid flowed into from top promotion umber of reciprocation radiating fin 433 can be flowed by the pusher 423 of pumping element 42.

By said structure, the present invention is installed with the liquid cooling structure of pumping and plurality of radiating fins in single heat exchanger chambers, less than the volume of current liquid cooling apparatus, and cooling effectiveness is higher, and can reduce production cost, improves liquid cooling apparatus and the system of yield.Furthermore the pusher of pumping element is positioned away from a middle section of a heat exchanger chambers, and plural number fin coordinates the position of this pusher to arrange, so that cycled through rapidly liquid cooling apparatus and the system of this plurality of radiating fins by the cooling liquid of pushers.

Only the above, the only the most feasible embodiment of the present invention, such as utilize the above-mentioned method of the present invention, shape, structure, device to change for it, all should be contained in the interest field of this case.

Claims (10)

1. a liquid cooling apparatus, it is characterised in that including:

One liquid storage housing, has a heat exchanger chambers and an entrance and an outlet, this entrance and this heat exchanger chambers of this outlet, and this heat exchanger chambers is passed through in it for a cooling liquid；

One pumping element, in order to circulate this cooling liquid, including a stator and a rotor, this rotor connects a pusher, and this rotor and this pusher are positioned away from a middle position of this heat exchanger chambers, wherein this pusher is to should entrance and be exposed to the cooling liquid of this heat exchanger chambers；

One heat exchange elements, connect this liquid storage housing, form a base of this heat exchanger chambers, there is a thermal interface and a heat-exchange surface, this heat-exchange surface contacts with the cooling liquid of these heat exchange chamber indoor, and define on this heat-exchange surface one enter aqua region to should pusher, and remaining region on this heat-exchange surface is provided with plurality of radiating fins.

Liquid cooling apparatus the most according to claim 1, it is characterised in that described liquid storage housing has a top board and forms the top margin of this heat exchanger chambers relative to this heat exchange elements, and this heat exchanger chambers is between this top board and this heat exchange elements.

Liquid cooling apparatus the most according to claim 1, it is characterised in that described radiating fin is radial to be spaced, and this radiating fin each have one first end to should pusher, and one second end extends outwardly away from this radially and enters aqua region.

Liquid cooling apparatus the most according to claim 3, it is characterised in that described this radiating fin each extends to the second end from the first end is wavy.

Liquid cooling apparatus the most according to claim 3, it is characterised in that described this radiating fin each is respectively provided with an identical or different height.

Liquid cooling apparatus the most according to claim 3, it is characterised in that described heat-exchange surface is provided with plural number guiding gutter, and this guiding gutter each is between two radiating fins.

Liquid cooling apparatus the most according to claim 1, it is characterised in that described stator is arranged on this heat exchange chamber outdoor, and this top board stops that the cooling liquid of these heat exchange chamber indoor of isolation contacts this stator.

Liquid cooling apparatus the most according to claim 1, it is characterised in that it is indoor that described stator is arranged on this heat exchange chamber, and is positioned on the heat-exchange surface of this heat exchange elements.

9. a liquid cooling system, it is characterised in that including:

One liquid storage housing, has a heat exchanger chambers and an entrance and an outlet, this entrance and this heat exchanger chambers of this outlet, and this heat exchanger chambers is passed through in it for a cooling liquid；

One pumping element, in order to circulate this cooling liquid, including a stator and a rotor, this rotor connects a pusher, and this rotor and this pusher are positioned away from a middle section of this heat exchanger chambers, it is characterized in that, described pusher is to should entrance and be exposed to the cooling liquid of this heat exchanger chambers；

One heat exchange elements, connect this liquid storage housing, form the top margin of this heat exchanger chambers, there is a thermal interface and a heat-exchange surface, this heat-exchange surface contacts with the cooling liquid of these heat exchange chamber indoor, and define on this heat-exchange surface one enter aqua region to should pusher, and remaining region on this heat-exchange surface is provided with plurality of radiating fins；

One radiator, connects this liquid storage housing to make this cooling liquid dispel the heat.

Liquid cooling system the most according to claim 9, it is characterised in that described radiator utilizes one first can connect the entrance and one second of this liquid storage housing around pipe can connect the outlet of this liquid storage housing around pipe, and this radiator is away from this liquid storage housing.