CN204948617U - Water cooling plant - Google Patents

Abstract

The utility model provides a kind of water cooling plant, comprise a liquid storage body, and there is a stator is connected described liquid storage body heat exchanger assembly with the pumping and of a rotor, a heat exchanger chambers is included in a described liquid storage body, described heat exchanger chambers is passed through in it for a cooling liquid, described rotor connects a pusher and is exposed in the cooling liquid of heat exchanger chambers, described stator one bag is penetrated and is molded in liquid storage body, and described stator and described heat exchanger chambers isolated; By design of the present utility model, have and effectively increase the structural strength of liquid storage body and reach the effect of stator waterproof.

Description

Water cooling plant

Technical field

The utility model relates to a kind of water cooling plant, and more particularly, the utility model relates to a kind of water cooling plant with the effect increasing liquid storage body construction intensity and reach stator waterproof.

Background technology

Day by day strengthen along with electronic equipment calculates usefulness, electronic building brick set by its inside can produce amount of heat in time operating, usually radiator need be set on electronic building brick or radiating fin increases area of dissipation and then heat radiation usefulness with this, but the radiating effect reached due to radiator and radiating fin is limited, therefore prior art adopts water cooling plant as this settling mode of enhancing heat dissipation.

And existing water cooling plant is by a cooling liquid heat exchange of the heat and water cooling plant inside absorbing heat generating component (processor or graphic process unit), then the pumping through water cooling plant inside carrys out circulating cooling liquid, and described water cooling plant connects a radiator through plural body, make cooling liquid can carry out heat exchange circulation heat radiation between the two in radiator and water cooling plant, so as to heat generating component quick heat radiating.

When pumping in right existing water cooling plant operates, described stator module is identical can produce heat, again because described stator module is isolated with cooling fluid in prior art, therefore be only and cool voluntarily in the mode of air cooling, but its cooling effect is not good, the excessive accumulated heat of described stator module then can cause burns, and the accumulated heat problem of stator module affects the useful life of described water cooling plant further.

By above-mentioned background technology, damage is caused because receiving liquid in order to prevent the stator module of pumping, stator module is arranged at the outside of water cooling plant, and the rotor assembly that guiding cooling fluid circulates in water cooling plant is then arranged at the chamber interior of described water cooling plant, produce excitatory by the shell correspondence of described water cooling plant between the two and operate, and the intensity of structure own must be considered due to the shell of water cooling plant, so it has certain thickness, therefore between described rotor assembly and described stator module, the running efficiency of described pumping is affected because of the spacing of the outer casing thickness generation of described water-cooled module, make to affect the integral heat sink usefulness of water-cooled module and the excessive Resolving probiems of integral water-cooled device volume.

Utility model content

Therefore, for effectively solving the above problems, main purpose of the present utility model be to provide a kind of through described stator and liquid storage body integrally wrap penetrate shaping, effectively to increase the water cooling plant of the structural strength of liquid storage body.

Another object of the present utility model provides one can reach stator and circuit board waterproof, and then more can reach the water cooling plant of protection stator and minimizing overall volume.

Another object of the present utility model is to provide one can reduce (shortening) stator and respective rotor thickness gap each other, effectively significantly to promote the water cooling plant of the running efficiency of pumping.

Another object of the present utility model provides a kind of and can pass through cooling liquid reaches the effect of cooling heat dissipation indirectly water cooling plant to the stator of pumping running.

For reaching above-mentioned purpose, the utility model provides a kind of water cooling plant, comprise: a liquid storage body, there is an entrance, an outlet, is installed with space and a heat exchanger chambers, space and described entrance and described outlet is installed with described in described heat exchanger chambers is communicated with, describedly be installed with that space is recessed to be formed on the described liquid storage body side of described heat exchange chamber indoor, and described heat exchanger chambers provides a cooling liquid by it; One pumping, in order to the described cooling liquid that circulates, it comprises a stator and a rotor, described stator one bag is penetrated and is molded in described liquid storage body, and described stator and be describedly installed with space and described heat exchanger chambers is isolated, described rotor connects a pusher, is installed with space and described heat exchange chamber indoor, and is exposed in described cooling liquid described in described rotor and described pusher are located at respectively; And a heat exchanger assembly, connect described liquid storage body, and described heat exchanger assembly has a thermal interface and a heat-exchange surface, described heat-exchange surface contacts with the cooling liquid of described heat exchange chamber indoor.

Preferably, described liquid storage body has a solid clad structure, and described stator is whole to be covered by described solid clad structure.

Preferably, described stator pack is wound in the coil groups in described silicon steel sheet group containing a silicon steel sheet group and, one circuit board and described silicon steel sheet group and on described coil groups together be covered by the described solid clad structure of described liquid storage body, it is outdoor that described stator and described circuit board are positioned at described heat exchange chamber, and the described solid clad structure of described liquid storage body stops that the cooling liquid of the described heat exchange chamber indoor of isolation contacts described stator, and described entrance and the described dual-side going out to be separately positioned on described liquid storage body.

Preferably, described rotor has an axle center and a magnetic part, and one end, described axle center connects described pusher, its other end then axle be located at described in be installed with the bottom in space, and described magnetic part is sheathed on the other end in described axle center, and described magnetic part is across the corresponding described stator of described liquid storage body.

Preferably, described liquid storage body has a sidewall, and described sidewall formed from described liquid storage body itself to downward-extension, and connects relatively described heat exchanger assembly, to seal described heat exchanger chambers, and described heat exchanger chambers is between described heat exchanger assembly and described liquid storage body.

Preferably, described heat exchanger assembly more comprises plurality of radiating fins, described radiating fin of Denging is located on described heat-exchange surface, and each radiating fin described has the corresponding described pusher of a first end, and one second end extends radially away from described pusher.

Preferably, described thermal interface is close on a relative heat generating component, and described thermal interface is in order to receiving the heat conduction of described heat generating component generation to described heat-exchange surface.

Preferably, described liquid storage body connects a radiator, and described radiator can connect the outlet of described liquid storage body by the entrance and one second that one first can connect described liquid storage body around pipe around pipe, and described radiator is away from described liquid storage body.Through this design of the utility model, obtain the structural strength effectively reaching and increase liquid storage body, and the effect of stator and circuit board waterproof can also be reached, and reach the effect person of the running efficiency protecting stator and circuit board and lifting pumping.

The utility model separately provides a kind of water cooling plant, comprise: a liquid storage body, there is an entrance, one outlet, one is installed with space, one perforation and a solid clad structure, described solid clad structure is integrally formed in centre in described liquid storage body, and the heat exchanger chambers jointly defining the described outlet of a connection with relative described liquid storage body is communicated with the pump chamber of described entrance with one, described perforation runs through described solid clad structure, described pump chamber is positioned at above described heat exchanger chambers to be located, and be communicated with described heat exchanger chambers via described perforation, describedly be installed with on the recessed described liquid storage body side be formed in described pump chamber, space, and described pump chamber provides a cooling liquid by it, one pumping, in order to the described cooling liquid that circulates, it comprises a stator and a rotor, described stator one bag is penetrated and is molded in described solid clad structure, and between described pump chamber and described heat exchanger chambers, and described stator and described to be installed with space, described heat exchanger chambers and described pump chamber isolated, described rotor connects a pusher, be installed with described in described rotor and described pusher are located at respectively in space and described pump chamber, and be exposed in described cooling liquid, and a heat exchanger assembly, connect described liquid storage body, and described heat exchanger assembly has a thermal interface and a heat-exchange surface, described heat-exchange surface contacts with the cooling liquid of described heat exchange chamber indoor.

Preferably, described stator pack is wound in the coil groups in described silicon steel sheet group containing a silicon steel sheet group and, one circuit board and described silicon steel sheet group and on described coil groups together be covered by the described solid clad structure of described liquid storage body, described stator and described circuit board are between described heat exchanger chambers and described pump chamber, and described solid clad structure stops that the described heat exchanger chambers of isolation contacts described stator with the cooling liquid in described pump chamber, and described entrance and described outlet are separately positioned on a side of the described liquid storage body of corresponding described pump chamber and heat exchanger chambers.

Preferably, described liquid storage body has a upper and lower sidewall, described upper and lower sidewall from described liquid storage body itself respectively on formed with to downward-extension, and described upper side wall is connected with a corresponding top board, to seal described pump chamber, described lower wall connects relatively described heat exchanger assembly, and to seal described heat exchanger chambers, and described heat exchanger chambers is between described heat exchanger assembly and described solid clad structure.

Preferably, described heat exchanger assembly more comprises plurality of radiating fins, described radiating fin of Denging is located on described heat-exchange surface.

Preferably, described thermal interface is close on a relative heat generating component, and described thermal interface is in order to receiving the heat conduction of described heat generating component generation to described heat-exchange surface.Through this design of the utility model, obtain the structural strength effectively reaching and increase liquid storage body, and the effect that can also reach stator and heat dissipation for circuit board and waterproof is so as to reaching the effect person protecting stator and circuit board.

Part is embodied by explanation below by other advantage of the present utility model, target and feature, part also will by research and practice of the present utility model by those skilled in the art is understood.

Accompanying drawing explanation

Fig. 1 is the exploded perspective schematic diagram of the utility model one embodiment.

Fig. 2 is the combination schematic perspective view of the utility model one embodiment.

Fig. 3 is the generalized section of the utility model one embodiment.

Fig. 4 is the liquid cooling system exploded perspective schematic diagram of another embodiment of the utility model.

Fig. 5 is the exploded perspective schematic diagram of the another embodiment of the utility model.

Fig. 6 is the combination partial cutaway schematic of the another embodiment of the utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail, can implements according to this with reference to specification word to make those skilled in the art.

Embodiment one

As Figure 1-3, the utility model provides a kind of water cooling plant with the effect increasing liquid storage body construction intensity and reach stator waterproof, comprising:

Described water cooling plant 1 is applied on a heat generating component 2 (as central processing unit or graphic process unit), and described water cooling plant 1 comprises a liquid storage body 11, one pumping 13 and a heat exchanger assembly 14, described liquid storage body 11 formed with plastic material, and described liquid storage body 11 has an entrance 111, one outlet 112, one is installed with space 113, one sidewall 115, one heat exchanger chambers 114 and a solid clad structure 116, described sidewall 115 itself formed to downward-extension from described liquid storage body 11, and aforementioned liquid storage body 11 defines described heat exchanger chambers 114 jointly with sidewall 115, be installed with space 113 and entrance 111 described in described heat exchanger chambers 114 is communicated with and export 112, and pass through in it for a cooling liquid in aforementioned hot heat exchanger chambers 114.And described solid clad structure 116 is positioned at above described heat exchanger chambers 114, on the described side being installed with the recessed liquid storage body 11 be formed in described heat exchanger chambers 114 in space 113, described in be installed with space 113 and be positioned at above described heat exchanger chambers 114 and the solid clad structure 116 of adjacent correspondence.

Described entrance 111 is separately positioned on the dual-side of described liquid storage body 11 with outlet 112, described heat exchanger assembly 14 connects the sidewall 115 of corresponding liquid storage body 11, that is the bottom of the sidewall 115 of described liquid storage body 11 connects an end face of relative heat exchanger assembly 14, to seal described heat exchanger chambers 114, and described heat exchanger chambers 114 is between described heat exchanger assembly 14 and liquid storage body 11.There is between described sidewall 115 and heat exchanger assembly 14 packing ring 143, described packing ring 143 in order to increase between liquid storage body 11 and heat exchanger assembly 14 in conjunction with density, prevent the cooling liquid seepage in heat exchanger chambers 114.Wherein aforementioned heat exchanger assembly 14 explains in interlocking mode with the connection combination of liquid storage body 11, but is not limited thereto, and in time specifically implementing, also may be selected to be the combination of welding, gluing or screw lock.

In addition, aforementioned heat exchanger assembly 14 is made by high-thermal conductive metal is as golden or silver-colored in aluminium, copper etc., and there is aforementioned hot contact-making surface 141, heat-exchange surface 142 and plurality of radiating fins 144, described thermal interface 141 is close to and is combined on relative heat generating component 2 (as central processing unit or graphic process unit), described thermal interface 141 is in order to receiving heat conduction that described heat generating component 2 produces to described heat-exchange surface 142, described heat-exchange surface 142 is positioned at described heat exchanger chambers 114, and heat-exchange surface 142 contacts with the cooling liquid in heat exchanger chambers 114.And described radiating fin 144 is located on described heat-exchange surface 142, and explain in radial being spaced of described radiating fin 144 of the present embodiment, but be not limited thereto.Each radiating fin 144 described has first end 1441 and one second end 1442, the corresponding pusher 134 of first end 1441 of each radiating fin 144, described second end 1442 extends away from described pusher 134 radially, is arranged on the effect that described heat-exchange surface 142 effectively significantly can increase heat exchange area whereby by the described radiating fin 144 that waits.So when the thermal interface 141 of described heat exchanger assembly 14 will absorb the heat conduction of aforementioned heat generating component 2 on heat-exchange surface 142, after making the upper plurality of radiating fins 144 of described heat-exchange surface 142 and its understand carrying out heat exchange with cooling liquid, make described cooling liquid just by described heat-exchange surface 142 and the carry heat on described radiating fin 144 from and flow out from the mouth 112 of described liquid storage body 11, to reach the effect of heat radiation.

Moreover, aforementioned pumping 13 is for the described cooling liquid that circulates, described pumping 13 comprises a stator 131, one rotor 133 and a pusher 134, described stator 131 one bag is penetrated and is molded in described liquid storage body 11, namely stator 131 is together with liquid storage body 11 while ejection formation, the whole meeting of described stator 131 is covered by the solid clad structure 116 of described liquid storage body 11, described liquid storage body 11 and stator 131 coated in it is made to be integrally constituted, shaping design is penetrated so wrapped by liquid storage body 11 of the present utility model and stator 131 one, effectively can increase the structural strength of liquid storage body 11, and more can reach the effect of stator 131 waterproof and protection stator 131.And be need be covered by a thin enclosing cover compared to the stator of the water cooling plant of prior art, and because the thin overall construction intensity that makes of the structural thickness of thin enclosing cover of the prior art own is not good, described thin enclosing cover cover on water cooling plant to cover tightness not good yet, so that easily cause thin enclosing cover to come off, and easily water infiltrates the problem causing stator short circuit in stator.

In addition, comparatively thinning can be designed by the thickness of the coated described stator 131 of solid clad structure 116, make effectively to reduce overall volume, and (shortening) stator and respective rotor thickness gap each other can be reduced, effectively significantly to promote the running efficiency of pumping.And because of pumping operate time, the heat that stator produces can conduct to described solid clad structure 116, the heat making described solid clad structure 116 absorb can pass through the cooling liquid of heat exchanger chambers in it and does heat exchange heat radiation, stator accumulated heat can be avoided with this, relatively also effectively can promote the effect in the useful life of water cooling plant.

As shown in Figure 1,3, stator former 131 be installed with space 113 and heat exchanger chambers 114 is isolated, and described stator 131 comprises a silicon steel sheet group 1311 and is wound in coil groups 1312 in described silicon steel sheet group 1311, described silicon steel sheet group 1311 in this better be embodied as plural silicon steel sheet each other storehouse formed, but be not limited thereto, when executing when concrete, aforementioned silicon steel sheet group 1311 can change design and become a single silicon steel bar and roughly in U-shaped, or other any shapes.One circuit board 135 is electrically connected described coil groups 1312, described circuit board 135, described silicon steel sheet group 1311 and on described coil groups 1312 be covered by the solid clad structure 116 of described liquid storage body 11 together, and described silicon steel sheet group 1311 and the coil groups 1312 (i.e. stator 131) on it and circuit board 135 are positioned at described heat exchanger chambers 114 and are installed with outside space 113, and stop that the cooling liquid in the described heat exchanger chambers 114 of isolation contacts described stator 131 through the solid clad structure 116 of described liquid storage body 11, in brief, be exactly that stator 131 does not contact cooling liquid.In addition, aforementioned circuit plate 135 does not limit to the below place being arranged on described stator 131 in fact in concrete enforcement, can select the position, one side being arranged on adjacent described stator 131 yet.

Foregoing rotor 133 connects described pusher 134, space 113 is installed with in heat exchanger chambers 114 described in described rotor 133 is located at respectively with pusher 134, described rotor 133 is exposed to described cooling liquid with pusher 134, described rotor 133 is across the corresponding described stator 131 of described liquid storage body 11, described pusher 134 is driven to rotate to drive rotor 133, and then the cooling liquid making in heat exchanger chambers 114 described in the disturbance of described pusher 134, and the cooling liquid flowed into by described entrance 111 is pushed device 134 drives and flow out towards the described outlet 112 of correspondence.And described rotor 133 has axle center 1331 and a magnetic part 1332, the one end in described axle center 1331 connects relatively described pusher 134, its other end then axle be located at described in be installed with the bottom in space 113, and described magnetic part 1332 (as magnet) be sheathed on as described in axle center 1331 the other end on, described magnetic part 1332 is across the corresponding described stator 131 of solid clad structure 116 of described liquid storage body 11.

Therefore by the design of the utility model water cooling plant 1; make in the whole solid clad structure 116 being covered by described liquid storage body 11 of described stator 131; the structural strength of effective enhancing liquid storage body 11 own; relatively just can reach the effect of protection stator 131; and then because of liquid storage body 11 be that the sealing of solid clad structure 116 is good, make effectively to avoid water or foreign matter (as salt fog or dust or other liquid) to infiltrate and corrode stator 131.

Embodiment two

Also can not need complex cooling fin in aforementioned heat exchanger assembly 14, and directly by heat-exchange surface 142, the heat of reception and cooling liquid be done heat exchange and dispel the heat.

Consult Fig. 4, it is the Decomposition and composition schematic perspective view of another embodiment of the present utility model, and is aided with and consults Fig. 1,3.And the water cooling plant 1 of previous embodiment one is mainly connected a radiator 3 by described embodiment connects and composes a liquid cooling system.The structure of the water cooling plant 1 in the present embodiment and linking relationship and effect roughly identical with the water cooling plant 1 of previous embodiment one, therefore again not repeat at this.And as shown in the figure, aforementioned heat sink 3 is away from described liquid storage body 11, and described liquid storage body 11 connects corresponding described radiator 3.

Aforementioned heat sink 3 has a radiator entrance 31, one radiator outlet 32, one first can around pipe 35 around pipe 34 and one second, described first entrance 111 that can connect relative liquid storage body 11 around one end of pipe 34, its other end then connects described radiator outlet 32, described second can around the outlet 112 of the relatively described liquid storage body 11 of one end of pipe 35 connection, its other end then connects described radiator entrance 31, described whereby radiator 3 is through described first, two can around pipe 34, 35 connect the entrance 111 of described liquid storage body 11 and outlet 112 respectively, described cooling liquid is driven to dispel the heat at heat exchanger chambers 114 and radiator 3 internal circulation flow to make the pusher 134 in described heat exchanger chambers 114.

In addition, described radiator 3 can connect a fan 4 and helps described radiator 3 quick heat radiating.As shown in the figure, when the thermal interface 141 of described heat exchanger assembly 14 is by the heat-exchange surface 142 of the heat conduction to heat exchanger chambers 114 that absorb corresponding described heat generating component 2, after carrying out heat exchange by the cooling liquid in described heat exchanger chambers 114 and heat-exchange surface 142, through described radiator entrance 31 can be flowed into around pipe 35 by described second after making cooling liquid be discharged by the outlet 112 of described liquid storage body 11, and after being dispelled the heat by described radiator 3, can around pipe 34 through described first from radiator outlet 32, then flow in described heat exchanger chambers 114 from described entrance 111.The circulation such by cooling liquid is dispelled the heat to heat generating component 2.

Therefore connect by water cooling plant 1 of the present utility model the design that radiator 3 forms liquid cooling system, make effectively to reach preferably radiating effect.In addition, penetrate shaping design because the stator 131 of described water cooling plant 1 wrap with liquid storage body 11 one, make the structural strength effectively increasing liquid storage body 11, and then also effectively reach stator 131 waterproof and protect the effect of stator 131.

Embodiment three

Consult Fig. 5-6, it is the Decomposition and composition schematic perspective view of the another embodiment of the utility model.Water cooling plant 1 in previous embodiment one mainly changes and is designed to upper and lower chamber (i.e. pump chamber 118, heat exchanger chambers 114), rotor 133 and pusher 134 and is located in upper chamber's (i.e. pump chamber 118) and is located at by the stator 131 that solid clad structure 16 is coated between upper and lower chamber in liquid storage housing 11 by the water cooling plant 1 of the present embodiment.

The water cooling plant 1 of the present embodiment comprises aforementioned liquid storage body 11, pumping 13 and heat exchanger assembly 14, described liquid storage body 11 has an entrance 111, one outlet 112, one is installed with space 113, on one, lower wall 1151, 1152, one perforation 117, the pump chamber 118 of the described entrance 111 of one connection, the heat exchanger chambers 114 of the described outlet 112 of one connection and a solid clad structure 116, on wherein said, lower wall 1151, 1152 from described liquid storage body 11 itself respectively on formed with to downward-extension, and described solid clad structure 116 is integrally formed in centre in described liquid storage body 11, and upper respectively with liquid storage housing 11 of described solid clad structure 116, lower wall 1151, 1152 define described pump chamber 118 and heat exchanger chambers 114 jointly.Described perforation 117 runs through described solid clad structure 116, described pump chamber 118 is positioned at the top place of corresponding described heat exchanger chambers 114, and pump chamber 118 is communicated with described heat exchanger chambers 114 via described perforation 117, the cooling liquid in described pump chamber 118 is made to flow in described heat exchanger chambers 114 via described perforation 117.Wherein aforementioned described stator 131 is with to be installed with space 113, heat exchanger chambers 114, perforation 117 and pump chamber 118 isolated.

Aforementioned pump chamber 118 passes through in it for described cooling liquid, describedly be installed with on recessed described liquid storage body 1 side be formed in described pump chamber 118, space 113, and being positioned at the bottom surface of described pump chamber 118 and the described solid clad structure 116 of adjacent correspondence, said inlet 111 and outlet 112 are separately positioned on corresponding described pump chamber 118 with on a side of the liquid storage body 11 of heat exchanger chambers 114.So comparatively thinning can be designed through the thickness of the coated described stator 131 of solid clad structure 116; protection stator can not only be provided, avoid cooling liquid to contact stator and reduce outside the effect of overall volume; and (shortening) stator and respective rotor thickness gap each other can also be reduced, effectively significantly to promote the running efficiency of pumping.In addition, because of pumping operate time, the heat that stator produces can conduct to described solid clad structure 116, the cooling liquid of heat exchanger chambers in it of pump chamber and/or below that the heat that described solid clad structure 116 is absorbed can pass through top does heat exchange heat radiation, can reach thus and indirectly stator be dispelled the heat, to avoid the effect of stator accumulated heat, and then effectively can also promote the effect in the useful life of water cooling plant.

(be roughly comprised thermal interface 141 with the heat exchanger assembly 14 of previous embodiment one in the structure of the heat exchanger assembly 14 of the present embodiment and linking relationship and its effect, heat-exchange surface 142 and plurality of radiating fins 144) identical, therefore again do not repeat at this and exist together mutually, the a little difference of heat exchanger assembly 14 of two embodiments be in: the aforementioned heat exchanger assembly 14 originally executing example connects the lower wall 115 of corresponding liquid storage body 11, that is the bottom of the lower wall of described liquid storage body 11 connects an end face of relative heat exchanger assembly 14, to seal described heat exchanger chambers 114, and described heat-exchange surface 142 can contact with the cooling liquid in heat exchanger chambers 114, the thermal interface 141 of described heat exchanger assembly 14 is close to and is combined in relative heat generating component 2 (as central processing unit or graphic process unit, as the 4th figure) on, and described heat exchanger chambers 114 is between described heat exchanger assembly 14 and the solid clad structure 116 of liquid storage body 11.There is between described lower wall 115 and heat exchanger assembly 14 packing ring 143, described packing ring 143 in order to increase between liquid storage body 11 and heat exchanger assembly 14 in conjunction with density, prevent the cooling liquid seepage in heat exchanger chambers 114.Wherein aforementioned heat exchanger assembly 14 explains in interlocking mode with the connection combination of liquid storage body 11, but is not limited thereto.

In addition, upper side wall 1151 is connected with a top board 119, to seal described pump chamber 118, and in this enforcement, described top board 119 represents that with liquid storage body 1 be separation assembly, with the part of described liquid storage body 1 in conjunction with rear formation liquid storage body 1, in conjunction with connected mode can such as screw lock, gluing or welding or other can easily full of beard and combination etc.There is between described top board 119 and upper side wall 1151 another packing ring 143, another packing ring 143 described in order to increase between liquid storage body 11 and top board 119 in conjunction with density, prevent the cooling liquid seepage in pump chamber 118.And the structure of the pumping 13 of the present embodiment and linking relationship and effect roughly identical with the pumping 13 of previous embodiment one, therefore again do not repeat at this and exist together mutually, the a little difference of pumping 13 of two embodiments be in: the stator 131 one bag of the pumping 13 of the present embodiment penetrate be molded over described liquid storage body 1 solid clad structure 116 in, and between described pump chamber 118 and corresponding heat exchanger chambers 114, that is stator 131 is together with liquid storage body 11 while ejection formation, the whole meeting of described stator 131 is covered by the solid clad structure 116 in the middle of described liquid storage body 11, described liquid storage body 11 and stator 131 coated in it is made to be integrally constituted, so rely on liquid storage body 11 of the present utility model to wrap with stator 131 one penetrate shaping design, effectively can increase the structural strength of liquid storage body 11, and more can reach the effect of stator 131 waterproof and protection stator 131.

Moreover, the circuit board 135 of described stator 131 and described silicon steel sheet group 1311 and on described coil groups 1312 together be covered by the solid clad structure 116 of described liquid storage body 11, and described silicon steel sheet group 1311 and the coil groups on it 1312 (i.e. stator 131) and circuit board 135 are between described heat exchanger chambers 114 and pump chamber 118, and stop that the described heat exchanger chambers 114 of isolation contacts described stator 131 with the cooling liquid in pump chamber 118 through the solid clad structure 116 of described liquid storage body 11, in brief, be exactly that stator 131 does not contact cooling liquid.In addition, be installed with space 113 described in the rotor 133 of described pumping 13 and pusher 134 are located at respectively with in described pump chamber 118, and described rotor 133 and pusher 134 are exposed in described cooling liquid.

Therefore by the design of the utility model water cooling plant 1; make in the whole solid clad structure 116 being covered by described liquid storage body 11 of described stator 131; effectively the structural strength of liquid storage body 11 own is strengthened with this; relatively just can reach the effect of protection stator 131; and then because of liquid storage body 11 be that the sealing of solid clad structure 116 is good, make effectively to avoid water or foreign matter (as salt fog or dust or other liquid) to infiltrate and corrode stator 131.

In alternative embodiments, in aforementioned heat exchanger assembly 14, also can not need complex cooling fin, and directly by heat-exchange surface 142, the heat of reception and cooling liquid be done heat exchange and dispel the heat.

In alternative embodiments, the utility model water cooling plant 1 can connect a radiator and connects and composes a liquid cooling system.Aforementioned heat sink is away from described liquid storage body 11, described radiator can pass through plural number can connect the entrance 111 of the described liquid storage body 11 of corresponding connection and the outlet 112 of liquid storage body 11 respectively around pipe, drives described cooling liquid to dispel the heat at heat exchanger chambers 114 and radiator internal circulation flow to make the pusher 134 in pump chamber 118.In addition, described radiator also can connect a fan and helps described radiator quick heat radiating.

In sum, the utility model has following advantage compared to prior art:

1) by the whole solid clad structure 116 being covered by described liquid storage body 11 of stator 131, the effect of the structural strength of liquid storage body 11 own is effectively strengthened with this.

2) there is protection stator 131 and avoid water or foreign matter (as salt fog or dust or other liquid) to infiltrate the effect corroding stator 131.

3) minimizing overall volume can be reached, and reduce (shortening) stator and respective rotor thickness gap each other, effectively significantly to promote the running efficiency of pumping.

Although embodiment of the present utility model is open as above, but it is not restricted to listed in specification and execution mode utilization, it can be applied to various applicable field of the present utility model completely, for those skilled in the art, can easily realize other amendment, therefore do not deviating under the universal that claim and equivalency range limit, the utility model is not limited to specific details and illustrates here and the legend described.

Claims (13)

1. a water cooling plant, comprising:

One liquid storage body, there is an entrance, an outlet, is installed with space and a heat exchanger chambers, space and described entrance and described outlet is installed with described in described heat exchanger chambers is communicated with, describedly be installed with that space is recessed to be formed on the described liquid storage body side of described heat exchange chamber indoor, and described heat exchanger chambers provides a cooling liquid by it;

One pumping, in order to the described cooling liquid that circulates, it comprises a stator and a rotor, described stator one bag is penetrated and is molded in described liquid storage body, and described stator and be describedly installed with space and described heat exchanger chambers is isolated, described rotor connects a pusher, is installed with space and described heat exchange chamber indoor, and is exposed in described cooling liquid described in described rotor and described pusher are located at respectively; And

One heat exchanger assembly, connects described liquid storage body, and described heat exchanger assembly has a thermal interface and a heat-exchange surface, and described heat-exchange surface contacts with the cooling liquid of described heat exchange chamber indoor.

2. water cooling plant as claimed in claim 1, wherein said liquid storage body has a solid clad structure, and described stator is whole to be covered by described solid clad structure.

3. water cooling plant as claimed in claim 2, wherein said stator pack is wound in the coil groups in described silicon steel sheet group containing a silicon steel sheet group and, one circuit board and described silicon steel sheet group and on described coil groups together be covered by the described solid clad structure of described liquid storage body, it is outdoor that described stator and described circuit board are positioned at described heat exchange chamber, and the described solid clad structure of described liquid storage body stops that the cooling liquid of the described heat exchange chamber indoor of isolation contacts described stator, and described entrance and described outlet are separately positioned on the dual-side of described liquid storage body.

4. water cooling plant as claimed in claim 1, wherein said rotor has an axle center and a magnetic part, one end, described axle center connects described pusher, its other end then axle be located at described in be installed with the bottom in space, and described magnetic part is sheathed on the other end in described axle center, and described magnetic part is across the corresponding described stator of described liquid storage body.

5. water cooling plant as claimed in claim 1, wherein said liquid storage body has a sidewall, described sidewall formed from described liquid storage body itself to downward-extension, and connect relatively described heat exchanger assembly, to seal described heat exchanger chambers, and described heat exchanger chambers is between described heat exchanger assembly and described liquid storage body.

6. water cooling plant as claimed in claim 1, wherein said heat exchanger assembly more comprises plurality of radiating fins, the described radiating fin that waits is located on described heat-exchange surface, and each radiating fin described has the corresponding described pusher of a first end, and one second end extends radially away from described pusher.

7. water cooling plant as claimed in claim 1, wherein said thermal interface is close on a relative heat generating component, and described thermal interface is in order to receiving the heat conduction of described heat generating component generation to described heat-exchange surface.

8. water cooling plant as claimed in claim 6, wherein said liquid storage body connects a radiator, described radiator can connect the outlet of described liquid storage body by the entrance and one second that one first can connect described liquid storage body around pipe around pipe, and described radiator is away from described liquid storage body.

9. a water cooling plant, comprising:

One liquid storage body, there is an entrance, one outlet, one is installed with space, one perforation and a solid clad structure, described solid clad structure is integrally formed in centre in described liquid storage body, and the heat exchanger chambers jointly defining the described outlet of a connection with relative described liquid storage body is communicated with the pump chamber of described entrance with one, described perforation runs through described solid clad structure, described pump chamber is positioned at above described heat exchanger chambers to be located, and be communicated with described heat exchanger chambers via described perforation, describedly be installed with on the recessed described liquid storage body side be formed in described pump chamber, space, and described pump chamber passes through in it for a cooling liquid,

One pumping, in order to the described cooling liquid that circulates, it comprises a stator and a rotor, described stator one bag is penetrated and is molded in described solid clad structure, and between described pump chamber and described heat exchanger chambers, and described stator and described to be installed with space, described heat exchanger chambers and described pump chamber isolated, described rotor connects a pusher, be installed with described in described rotor and described pusher are located at respectively in space and described pump chamber, and be exposed in described cooling liquid; And

One heat exchanger assembly, connects described liquid storage body, and described heat exchanger assembly has a thermal interface and a heat-exchange surface, and described heat-exchange surface contacts with the cooling liquid of described heat exchange chamber indoor.

10. the water cooling plant as described in claim 9, wherein said stator pack is wound in the coil groups in described silicon steel sheet group containing a silicon steel sheet group and, one circuit board and described silicon steel sheet group and on described coil groups together be covered by the described solid clad structure of described liquid storage body, described stator and described circuit board are between described heat exchanger chambers and described pump chamber, and described solid clad structure stops that the described heat exchanger chambers of isolation contacts described stator with the cooling liquid in described pump chamber, and described entrance and described outlet are separately positioned on a side of the described liquid storage body of corresponding described pump chamber and heat exchanger chambers.

11. water cooling plants as claimed in claim 9, wherein said liquid storage body has a upper and lower sidewall, described upper and lower sidewall from described liquid storage body itself respectively on formed with to downward-extension, and described upper side wall is connected with a corresponding top board, to seal described pump chamber, described lower wall connects relatively described heat exchanger assembly, and to seal described heat exchanger chambers, and described heat exchanger chambers is between described heat exchanger assembly and described solid clad structure.

12. water cooling plants as claimed in claim 9, wherein said heat exchanger assembly more comprises plurality of radiating fins, described radiating fin of Denging is located on described heat-exchange surface.

13. water cooling plants as claimed in claim 9, wherein said thermal interface is close on a relative heat generating component, and described thermal interface is in order to receiving the heat conduction of described heat generating component generation to described heat-exchange surface.