CN203084639U - Water cooling device - Google Patents

Abstract

The utility model discloses a water cooling device comprising a body provided with a pumping chamber and a heat exchange chamber, wherein the pumping chamber and the heat exchange chamber are isolated by a water chamber clapboard, the water chamber clapboard is provided with a communicating part used for communicating the pumping chamber with the heat exchange chamber, a pumping device is arranged in the pumping chamber, a heat transferring unit is arranged in the heat exchange chamber, and cooling fluid is filled in the pumping chamber and the heat exchange chamber. The water cooling device disclosed by the utility model can be used for greatly improving the radiating efficiency so as to solve the problem of overheat operation of a stator assembly.

Description

Water cooling plant

Technical field

A kind of water cooling plant refers to a kind of water cooling plant that promotes heat dissipation and can solve the too high problem of temperature of internal stator assembly simultaneously especially.

Background technology

The radiating mode of existing water-cooled heat radiation module, in the process of dispelling the heat, main heat energy source is from heater elements such as central processing units, and directly and heater element join for to use as heat conduction with the preferable heat radiator of the thermal conductivity of copper or aluminium, tradition only fits by a side and the heater element of a heat radiator (device), its opposite side then with water-cooled heat radiation module in cooling fluid carry out heat interchange, yet the heat exchanger effectiveness of this kind structure is not good, the area of dissipation that carries out heat interchange because of its heat radiator (device) and this cooling fluid is too small, make cooling fluid fast by also can't taking away by the heat that heat radiator is adsorbed, at this disappearance then the personage of this skill the side that this heat radiator and this cooling fluid carry out heat interchange is provided with a plurality of cylinders or runner, so as to increasing area of dissipation, and its effect is still not good, only can promote a little heat dissipation a little, so can't directly effectively heat energy be discharged, can't fully reach radiating effect.

Other is the person, when the pump arrangement in the known water-cooled module turns round, this stator module can produce heat when running, again because of this stator module it being set isolating with cooling fluid in known skill, so only for to cool off voluntarily in the mode of air cooling, but its cooling effect is not good, and the excessively long-pending heat of this stator module then can cause burns, and the long-pending heat problem of stator module further influences the serviceable life of this water-cooled module.

In the known technology, for the stator module that prevents pumping causes damage because of receiving liquid, so stator module is arranged at the outside of water-cooled module, guiding cooling fluid round-robin rotor assembly in the water-cooled module then is arranged at this water-cooled module internal, and the shell by this water-cooled module is corresponding between the two produces excitatory the running, and because the shell of water-cooled module must be considered the intensity of structure own, so have certain thickness, then between this rotor assembly and this stator module, then the spacing that produces because of the outer casing thickness of this water-cooled module influences the running efficiency of this pumping, and making influences the integral heat sink usefulness of water-cooled module.

The utility model content

For this reason, for solving the shortcoming of above-mentioned known technology, fundamental purpose of the present utility model provides a kind of water cooling plant that promotes heat dissipation.

Secondary objective of the present utility model provides a kind of water cooling plant water cooling plant in serviceable life that increases.

For reaching above-mentioned purpose, the utility model provides a kind of water cooling plant, and described water cooling plant is to comprise: a body;

Described body has a pumping chamber and a heat exchanger chambers, do at interval by a hydroecium dividing plate between the two, and this hydroecium dividing plate has an interconnecting part, make this pumping chamber and heat exchanger chambers be connected, described pumping chamber is provided with a pump arrangement, the aforementioned hot heat exchanger chambers is provided with a hot leaflet unit, the indoor cooling fluid that is full of of described pumping chamber and this heat exchange chamber.

For reaching above-mentioned purpose, the utility model provides a kind of water cooling plant, and described water cooling plant comprises: a body, an inlet, an outlet, a hot leaflet unit;

Described body has an accommodation space, this accommodation space has a closed side and an open sides and a hydroecium dividing plate, this accommodation space and this hydroecium dividing plate define a pumping chamber and a heat exchanger chambers jointly, this hydroecium dividing plate is provided with a portion, an intercommunicating pore, described tube portion connects and establishes a pump arrangement, this accommodation space is filled with a cooling fluid, and this intercommunicating pore is communicated with aforementioned pumping chamber and this heat exchanger chambers.

Described inlet is located at this closed side, is communicated with aforementioned pumping chamber, and corresponding setting with aforementioned pump arrangement.

Described outlet is located at this body to a side that should heat exchanger chambers, and is communicated with this heat exchanger chambers.

Described hot leaflet unit has a heat-absorbent surface and a radiating surface, and this radiating surface correspondence covers aforementioned open sides.

Not only can significantly increase heat dissipation by water cooling plant of the present utility model, more together be located in this first hydroecium because of this stator module, when this water cooling plant start, its inner cooling fluid also can together cool off this stator module simultaneously, make this stator module not produce the phenomenon of long-pending heat, and then prolong the life-span of this water cooling plant.

Moreover rotor assembly and the stator module because of this pump arrangement all is arranged in the same chamber again, the excitatory close together of induction between the two then, and its magnetic loss rate is low, so the pumping running efficiency is higher, the radiating efficiency of this water cooling plant is higher.

Particularly, the utility model provides a kind of water cooling plant, comprise: a body, have a pumping chamber and a heat exchanger chambers, do at interval by a hydroecium dividing plate between the two, and this hydroecium dividing plate has an interconnecting part, make this pumping chamber and heat exchanger chambers be connected, described pumping chamber is provided with a pump arrangement, and the aforementioned hot heat exchanger chambers is provided with a hot leaflet unit, the indoor cooling fluid that is full of of described pumping chamber and this heat exchange chamber.

Preferably, described water cooling plant, described pump arrangement also has a rotor assembly and a stator group spare, this rotor assembly and stator module are corresponding mutually indoor with being arranged at aforementioned pump cavity, described rotor assembly has an axle and a flabellum body, described bearing and this body group are established, this axle one end is articulated in this bearing, the other end and this flabellum body connect to be established, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer.

Preferably, described water cooling plant, described pump arrangement also has a rotor assembly and a stator group spare, this rotor assembly and stator module are corresponding mutually indoor with being arranged at aforementioned pump cavity, described rotor assembly has a flabellum body and at least one bearing, this bearing and this flabellum body group are established, this axle one end is plugged in this body, the other end and this bearing hinge joint, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer.

Preferably, described water cooling plant, described body also have an outlet and an inlet, and described inlet connects aforementioned pumping chamber, and this outlet connects this heat exchanger chambers.

Preferably, described water cooling plant, it is wherein arbitrary that described hot leaflet unit is chosen as copper or aluminium material and heat conduction good conductor, and the radiating surface of this hot leaflet unit is convexly equipped with a radiating part, described radiating part has a plurality of radiating fins, and has at least one runner between described radiating fin.

Preferably, described water cooling plant, described interconnecting part also have one first intercommunicating pore and one second intercommunicating pore and a passage, and this passage connects this second intercommunicating pore and makes aforementioned pumping chamber and this heat exchanger chambers be connected.

Preferably, described water cooling plant, described pump arrangement also has a rotor assembly and a stator group spare, described stator module is located on this rotor assembly outside, and this rotor assembly and stator module are corresponding mutually indoor with being arranged at aforementioned pump cavity, described rotor assembly has an axle and a flabellum body and at least one bearing, described bearing and this flabellum body group are established, this axle one end is articulated in this bearing, the other end and this body connect to be established, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer, and described stator module centre has an aperture, described flabellum body also has a flabellum body body, described flabellum body body correspondence is arranged in this aperture, but both are not in contact with one another, and also has a magnetic element between the described flabellum body body outside and this aperture.

A kind of water cooling plant, comprise: a body, has an accommodation space, this accommodation space has a closed side and an open sides and a hydroecium dividing plate, this accommodation space by this hydroecium baffle region every defining a pumping chamber and a heat exchanger chambers, this hydroecium dividing plate is provided with an intercommunicating pore, and this intercommunicating pore is communicated with aforementioned pumping chamber and this heat exchanger chambers, and the indoor pump arrangement that is equiped with of described body pump cavity; One inlet is located at this closed side, is communicated with aforementioned pumping chamber, and corresponding setting with aforementioned pump arrangement; One outlet is located at this body to a side that should heat exchanger chambers, and is communicated with this heat exchanger chambers; One hot leaflet unit has a heat-absorbent surface and a radiating surface, and this radiating surface correspondence covers aforementioned open sides; One cooling fluid is filled in the body accommodation space.

Preferably, described water cooling plant, described pump arrangement also has a rotor assembly and a stator group spare, described rotor assembly has an axle and a flabellum body and at least one bearing, described bearing and this body group are established, this axle one end is articulated in this bearing, the other end and this flabellum body connect to be established, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer.

Preferably, described water cooling plant, described pump arrangement also has a rotor assembly and a stator group spare, described rotor assembly has an axle and a flabellum body and at least one bearing, this bearing and this flabellum body group are established, this axle one end is plugged in this body, the other end and this bearing hinge joint, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer.

Preferably, described water cooling plant, it is wherein arbitrary that described hot leaflet unit is chosen as copper or aluminium material and heat conduction good conductor, and the radiating surface of this hot leaflet unit is convexly equipped with a radiating part, and have at least one runner between described radiating fin.

Preferably, described water cooling plant, the intercommunicating pore of described hydroecium dividing plate is relative eccentric the setting with this rotor assembly.

Preferably, described water cooling plant also has diffusing unit and one first body and one second body of overflowing, and described diffusing excessive unit is interconnected by the outlet and the inlet of this first body and this second body and aforementioned body.

Preferably, described water cooling plant also has a lid and an opening, and described lid docks aforementioned opening and defines this closed side, described hydroecium dividing plate and this this body by integral forming jointly.

Preferably, described water cooling plant, described pump arrangement also has a rotor assembly and a stator group spare, described stator module is located on this rotor assembly outside, and this rotor assembly and stator module are corresponding mutually indoor with being arranged at aforementioned pump cavity, described rotor assembly has an axle and a flabellum body and at least one bearing, described bearing and this flabellum body group are established, this axle one end is articulated in this bearing, the other end and this body connect to be established, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer, and described stator module centre has an aperture, described flabellum body also has a flabellum body body, described flabellum body body correspondence is arranged in this aperture, but both are not in contact with one another, and also has a magnetic element between the described flabellum body body outside and this aperture.

Description of drawings

Fig. 1 is the first embodiment three-dimensional exploded view of the utility model water cooling plant;

Fig. 2 is the first embodiment three-dimensional cutaway view of the utility model water cooling plant;

Fig. 3 is the second embodiment three-dimensional cutaway view of the utility model water cooling plant;

Fig. 4 is the 3rd an embodiment three-dimensional cutaway view of the utility model water cooling plant;

Fig. 5 is the 4th an embodiment three-dimensional cutaway view of the utility model water cooling plant;

Fig. 6 is the 5th an embodiment three-dimensional cutaway view of the utility model water cooling plant;

Fig. 7 is the 6th an embodiment three-dimensional cutaway view of the utility model water cooling plant;

Fig. 8 is the 7th an embodiment three-dimensional combination figure of the utility model water cooling plant;

Fig. 9 is the 8th an embodiment three-dimensional cutaway view of the utility model water cooling plant;

Figure 10 is another embodiment three-dimensional cutaway view of pump arrangement of water cooling plant.

The main element symbol description

Water cooling plant 1

Body 11

Accommodation space 11a

Closed side 11b

Open sides 11c

Opening 11d

Pumping chamber 111

Heat exchanger chambers 112

First radiating area 1121

Second radiating area 1122

Outlet 113

Inlet 114

Hydroecium dividing plate 12

Interconnecting part 121

First intercommunicating pore 1211

Second intercommunicating pore 1212

Passage 1213

Intercommunicating pore 122

Pump arrangement 13

Rotor assembly 131

Axle 1311

Flabellum body 1312

Flabellum 1312a

Flabellum body body 1312b

Bearing 1313

Stator module 132

Siliconized plate 1321

Substrate 1322

Coil 1323

Waterproof construction layer 1324

Aperture 1325

Magnetic element 133

Hot leaflet unit 14

Heat-absorbent surface 141

Radiating surface 142

Radiating part 143

Radiating fin 1431

Runner 1432

Lid 15

Cooling fluid 2

The unit 3 that overflows looses

Radiating fin 31

Flow channel for liquids 32

First body 4

Second body 5

Embodiment

Characteristic on above-mentioned purpose of the present utility model and structure thereof and the function will be illustrated according to appended graphic preferred embodiment.

See also Fig. 1, Fig. 2, decompose and three-dimensional cutaway view for first embodiment of the utility model water cooling plant is three-dimensional, as shown in the figure, water cooling plant 1 of the present utility model comprises: a body 11;

Described body 11 has a pumping chamber 111 and a heat exchanger chambers 112, do at interval by a hydroecium dividing plate 12 between the two, and this hydroecium dividing plate 12 has an interconnecting part 121, make this pumping chamber 111 and heat exchanger chambers 112 be connected, described pumping chamber 111 is provided with a pump arrangement 13, aforementioned hot heat exchanger chambers 112 is provided with a hot leaflet unit 14, is full of a cooling fluid 2 in described pumping chamber 111 and this heat exchanger chambers 112.

Described interconnecting part 121 also has one first intercommunicating pore 1211 and one second intercommunicating pore 1212 and a passage 1213, and this passage 1213 connects this second intercommunicating pore 1212, and makes aforementioned pumping chamber 111 and this heat exchanger chambers 112 be connected.

Described pump arrangement 13 also has a rotor assembly 131 and stator group spare 132, this rotor assembly 131 and stator module 132 mutual correspondences are arranged in the aforementioned pumping chamber 111, described rotor assembly 131 has an axle 1311 and a flabellum body 1312 and at least one bearing 1313, this bearing 1313 is established for 1312 groups with this flabellum body, these axle 1,311 one ends are plugged in this body 11, the other end and this bearing 1313 articulate, this flabellum body 1312 has a plurality of flabellum 1312a, described stator module 132 has a plurality of siliconized plates 1321 and a substrate 1322, and described siliconized plate 1321 stacks mutually and the outside is arranged with a plurality of coils 1323, and described siliconized plate 1321 and described coil 1323 are covered with a waterproof construction layer 1324 with substrate 1322 external packets.

See also Fig. 3, the second embodiment three-dimensional cutaway view for the utility model water cooling plant, as shown in the figure, the present embodiment part-structure is identical with aforementioned first embodiment, so will repeat no more at this, only not existing together of present embodiment and aforementioned first embodiment established for 11 groups with this body for described bearing 1313, and these axle 1,311 one ends are articulated in this bearing 1313, and the other end and this flabellum body 1312 connect to be established.

See also Fig. 4, the 3rd embodiment three-dimensional cutaway view for the utility model water cooling plant, as shown in the figure, the present embodiment part-structure is identical with aforementioned first embodiment, so will repeat no more at this, only not existing together of present embodiment and aforementioned first embodiment enters the mouth 114 for described body 11 also has an outlet 113 and, and described inlet 114 connects aforementioned pumping chamber 111, and this outlet 113 connects this heat exchanger chambers 112.

See also Fig. 5, be the 4th embodiment three-dimensional cutaway view of the utility model water cooling plant, as shown in the figure, described water cooling plant 1 comprises: a body 11, the hot leaflet of an inlet 114, one outlet 113, a unit 14;

Described body 11 has an accommodation space 11a, this accommodation space 11a has a closed side 11b and an open sides 11c and a hydroecium dividing plate 12, this accommodation space 11a is separated by this hydroecium dividing plate 12 and is defined as a pumping chamber 111 and a heat exchanger chambers 112, this hydroecium dividing plate 12 is provided with an intercommunicating pore 122, described body 11 connects establishes a pump arrangement 13, this accommodation space 11a is filled with a cooling fluid 2, and this intercommunicating pore 122 must be communicated with aforementioned pumping chamber 111 and this heat exchanger chambers 112.

Described inlet 114 is located at this closed side 11b, be communicated with aforementioned pumping chamber 111, and with aforementioned pump arrangement 13 corresponding settings.

The side that 11 pairs of this bodies should heat exchanger chambers 112 is located in described outlet 113, and is communicated with this heat exchanger chambers 112.

Described hot leaflet unit 14 has a heat-absorbent surface 141 and a radiating surface 142, and these radiating surface 142 correspondences cover aforementioned open sides 11c.The intercommunicating pore 122 of described hydroecium dividing plate 12 is relative eccentric the setting with this rotor assembly 131.

Described pump arrangement 13 also has a rotor assembly 131 and stator group spare 132, this rotor assembly 131 and stator module 132 mutual correspondences are arranged in the aforementioned pumping chamber 111, described rotor assembly 131 has an axle 1311 and a flabellum body 1312 and at least one bearing 1313, this bearing 1313 is established for 1312 groups with this flabellum body, these axle 1,311 one ends are plugged in this body 11, the other end and this bearing 1313 articulate, this flabellum body 1312 has a plurality of flabellum 1312a, described stator module 132 has a plurality of siliconized plates 1321 and a substrate 1322, and described siliconized plate 1321 stacks mutually and the outside is arranged with a plurality of coils 1323, and described siliconized plate 1321 and described coil 1323 are covered with a waterproof construction layer 1324 with substrate 1322 external packets.

See also Fig. 6, the 5th embodiment three-dimensional cutaway view for the utility model water cooling plant, as shown in the figure, the present embodiment part-structure is identical with aforementioned the 4th embodiment, so will repeat no more at this, only not existing together of present embodiment and aforementioned the 4th embodiment established for this bearing 1313 and body 11 connect, and these axle 1,311 one ends are articulated in this bearing 1313, and the other end and this flabellum body 1312 connect to be established.

See also Fig. 7, the 6th embodiment three-dimensional cutaway view for the utility model water cooling plant, as shown in the figure, the present embodiment part-structure is identical with aforementioned the 4th embodiment, so will repeat no more at this, thought present embodiment and aforementioned the 4th embodiment do not exist together for described water cooling plant 1 also has a lid 15 and an opening 11d, and the described lid 15 aforementioned opening 11d of butt joint also define this closed side 11b jointly, and described hydroecium dividing plate 12 is one-body molded with this body 11.

Among aforementioned the three～six embodiment, described cooling fluid 2 by this inlet 114 through entering this pumping chamber 111, and the flabellum 1312a by pump arrangement 13 rotor assembly 131 with cooling fluid 2 these intercommunicating pores 122 of guiding to enter this heat exchanger chambers 114, the radiating part 143 that is arranged in the heat exchanger chambers 112 by 2 pairs of cooling fluids carries out heat interchange again, and last cooling fluid 2 can be discharged this body 11 by the outlet 113 of being located at these body 11 sides and being communicated with this heat exchanger chambers 112.

See also Fig. 8, the 7th embodiment three-dimensional combination figure for the utility model water cooling plant, as shown in the figure, the present embodiment part-structure is identical with aforementioned the 4th embodiment, so will repeat no more at this, only not existing together of present embodiment and aforementioned the 4th embodiment also has loose excessive unit 3 and one first body 4 and one second body 5 for described water cooling plant 1, the outlet 113 and enter the mouth of the described unit 3 that loose to overflow by this first body 4 and this second body 5 and aforementioned body 11 114 is interconnected, the described excessive unit 3 that looses has a plurality of radiating fins 31, and have a plurality of flow channel for liquids 32 in the excessive unit 3 that should loose, but cooling but fluid 2 is filled in it (seeing also aforementioned the 2nd figure), the described unit 3 that loose to overflow by this first body 4 and this second body 5 and aforementioned body 11 inlet 114 and export 113 and be interconnected, after being discharged by this body 11, described cooling fluid 2 further dispels the heat, so as to promoting heat dissipation by flowing to this excessive unit 3 that looses.

Among aforementioned first to seven embodiment, it is wherein arbitrary that described hot leaflet unit 14 may be selected to be copper or aluminium material and heat conduction good conductor, and the radiating surface 142 of this hot leaflet unit 14 is convexly equipped with a radiating part 143, described radiating part 143 has a plurality of radiating fins 1431, and 1431 of described radiating fins have at least one runner 1432

See also Fig. 9, the 8th embodiment three-dimensional cutaway view for the utility model water cooling plant, as shown in the figure, the present embodiment part-structure is identical with aforementioned the 4th embodiment, so will repeat no more at this, only intercommunicating pore 122 places that do not exist together for hydroecium dividing plate 12 of present embodiment and aforementioned the 4th embodiment also have an extension 124, this extension 124 connects with this radiating part 143 and establishes, and define one first radiating area 1121 and one second radiating area 1122 jointly with this heat exchanger chambers 112, described first radiating area 1121 is positioned at this radiating part 143 upsides, and this second radiating area 1122 is positioned at this radiating part 143 both sides.

And pass through present embodiment, when described cooling fluid 2 enters this heat exchanger chambers 112 by this intercommunicating pore 122, be introduced into this first radiating area 1121 and carry out the heat radiation first time, enter this second radiating area 1122 and this runner 1432 and carry out the heat radiation second time thereafter, at last, discharge this body 11 by this outlet 113, this radiating mode has the effect of secondary heat radiation, can significantly promote whole heat dissipation.

Water cooling plant 1 of the present utility model; mainly be with in the rotor assembly 131 of the pump arrangement 13 of direct internal cooling fluid 2 and the pumping chamber 111 that stator module 132 is arranged at water-cooled module 1 in the lump; promptly these pump arrangement 13 integral body are dipped in this cooling fluid 2; and has the siliconized plate 1321 that one deck waterproof construction layer 1324 is protected this stator module 132 because of stator module 132 outsides of this pump arrangement 13; substrate 1322 and coil 1323; and because of this waterproof construction layer 1324 quite thin; so can reduce the distance of 131 of this stator module 132 and rotor assembly, reduce the rotational efficienty of both mutual further lift pump pump apparatus 13 of magnetic loss that produces when excitatory.

Consult Figure 10, another embodiment three-dimensional cutaway view of pump arrangement for water cooling plant, and can consult earlier figures 1～Fig. 9 in the lump, as shown in the figure, the described pump arrangement 13 of present embodiment also has a rotor assembly 131 and stator group spare 132, described stator module 132 is located on this rotor assembly 131 outsides, the pump arrangement 13 of present embodiment is identical applicable among aforementioned each embodiment of water-cooled module, and this rotor assembly 131 and corresponding mutually same being arranged in the aforementioned pumping chamber 111 of stator module 132, described rotor assembly 131 has an axle 1311 and a flabellum body 1312 and at least one bearing 1313, described bearing 1313 is established for 1312 groups with this flabellum body, these axle 1,311 one ends are articulated in this bearing 1313, the other end and this body 11 connect establishes (seeing also aforementioned the 1st～9 figure), this flabellum body 1312 has a plurality of flabellum 1312a, described stator module 132 has a plurality of siliconized plates 1321 and a substrate 1322, and described siliconized plate 1321 stacks mutually and the outside is arranged with a plurality of coils 1323, described siliconized plate 1321 and described coil 1323 are covered with a waterproof construction layer 1324 with substrate 1322 external packets, described stator module 132 centre have an aperture 1325, described flabellum body 1312 also has a flabellum body body 1312b, described flabellum body body 1312b correspondence is arranged in this aperture 1325, but both are not in contact with one another, and also have a magnetic element 133 between the described flabellum body body 1312b outside and this aperture 1325.

By water cooling plant 1 of the present utility model, not only good because of radiating efficiency simple in structure, and, then together be subjected to cooling fluid 2 coolings because of stator module 14 identical being soaked in the cooling fluid 2, can improve the overheated problem of known stator module running, further promote the serviceable life of water cooling plant 1 integral body.

Claims (15)

1. a water cooling plant is characterized in that, comprises:

One body, have a pumping chamber and a heat exchanger chambers, do at interval by a hydroecium dividing plate between the two, and this hydroecium dividing plate has an interconnecting part, make this pumping chamber and heat exchanger chambers be connected, described pumping chamber is provided with a pump arrangement, and the aforementioned hot heat exchanger chambers is provided with a hot leaflet unit, the indoor cooling fluid that is full of of described pumping chamber and this heat exchange chamber.

2. water cooling plant as claimed in claim 1, it is characterized in that, described pump arrangement also has a rotor assembly and a stator group spare, this rotor assembly and stator module are corresponding mutually indoor with being arranged at aforementioned pump cavity, described rotor assembly has an axle and a flabellum body, described bearing and this body group are established, this axle one end is articulated in this bearing, the other end and this flabellum body connect to be established, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer.

3. water cooling plant as claimed in claim 1, it is characterized in that, described pump arrangement also has a rotor assembly and a stator group spare, this rotor assembly and stator module are corresponding mutually indoor with being arranged at aforementioned pump cavity, described rotor assembly has a flabellum body and at least one bearing, this bearing and this flabellum body group are established, this axle one end is plugged in this body, the other end and this bearing hinge joint, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer.

4. water cooling plant as claimed in claim 1 is characterized in that, described body also has an outlet and an inlet, and described inlet connects aforementioned pumping chamber, and this outlet connects this heat exchanger chambers.

5. water cooling plant as claimed in claim 1, it is characterized in that, it is wherein arbitrary that described hot leaflet unit is chosen as copper or aluminium material and heat conduction good conductor, and the radiating surface of this hot leaflet unit is convexly equipped with a radiating part, described radiating part has a plurality of radiating fins, and has at least one runner between described radiating fin.

6. water cooling plant as claimed in claim 1 is characterized in that, described interconnecting part also has one first intercommunicating pore and one second intercommunicating pore and a passage, and this passage connects this second intercommunicating pore and makes aforementioned pumping chamber and this heat exchanger chambers be connected.

7. water cooling plant as claimed in claim 1, it is characterized in that, described pump arrangement also has a rotor assembly and a stator group spare, described stator module is located on this rotor assembly outside, and this rotor assembly and stator module are corresponding mutually indoor with being arranged at aforementioned pump cavity, described rotor assembly has an axle and a flabellum body and at least one bearing, described bearing and this flabellum body group are established, this axle one end is articulated in this bearing, the other end and this body connect to be established, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer, and described stator module centre has an aperture, described flabellum body also has a flabellum body body, described flabellum body body correspondence is arranged in this aperture, but both are not in contact with one another, and also has a magnetic element between the described flabellum body body outside and this aperture.

8. a water cooling plant is characterized in that, comprises:

One body, has an accommodation space, this accommodation space has a closed side and an open sides and a hydroecium dividing plate, this accommodation space by this hydroecium baffle region every defining a pumping chamber and a heat exchanger chambers, this hydroecium dividing plate is provided with an intercommunicating pore, this intercommunicating pore is communicated with aforementioned pumping chamber and this heat exchanger chambers, and the indoor pump arrangement that is equiped with of described body pump cavity;

One inlet is located at this closed side, is communicated with aforementioned pumping chamber, and corresponding setting with aforementioned pump arrangement;

One outlet is located at this body to a side that should heat exchanger chambers, and is communicated with this heat exchanger chambers;

One hot leaflet unit has a heat-absorbent surface and a radiating surface, and this radiating surface correspondence covers aforementioned open sides;

One cooling fluid is filled in the body accommodation space.

9. water cooling plant as claimed in claim 8, it is characterized in that, described pump arrangement also has a rotor assembly and a stator group spare, described rotor assembly has an axle and a flabellum body and at least one bearing, described bearing and this body group are established, this axle one end is articulated in this bearing, the other end and this flabellum body connect to be established, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer.

10. water cooling plant as claimed in claim 8, it is characterized in that, described pump arrangement also has a rotor assembly and a stator group spare, described rotor assembly has an axle and a flabellum body and at least one bearing, this bearing and this flabellum body group are established, this axle one end is plugged in this body, the other end and this bearing hinge joint, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer.

11. water cooling plant as claimed in claim 8 is characterized in that, it is wherein arbitrary that described hot leaflet unit is chosen as copper or aluminium material and heat conduction good conductor, and the radiating surface of this hot leaflet unit is convexly equipped with a radiating part, and have at least one runner between described radiating fin.

12. water cooling plant as claimed in claim 8 is characterized in that, the intercommunicating pore of described hydroecium dividing plate is relative eccentric the setting with this rotor assembly.

13. water cooling plant as claimed in claim 8 is characterized in that, also has diffusing unit and one first body and one second body of overflowing, described diffusing excessive unit is interconnected by the outlet and the inlet of this first body and this second body and aforementioned body.

14. water cooling plant as claimed in claim 8 is characterized in that, also has a lid and an opening, described lid docks aforementioned opening and defines this closed side, described hydroecium dividing plate and this this body by integral forming jointly.

15. water cooling plant as claimed in claim 8, it is characterized in that, described pump arrangement also has a rotor assembly and a stator group spare, described stator module is located on this rotor assembly outside, and this rotor assembly and stator module are corresponding mutually indoor with being arranged at aforementioned pump cavity, described rotor assembly has an axle and a flabellum body and at least one bearing, described bearing and this flabellum body group are established, this axle one end is articulated in this bearing, the other end and this body connect to be established, this flabellum body has a plurality of flabellums, described stator module has a plurality of siliconized plates and a substrate, and described siliconized plate stacks mutually and the outside is arranged with a plurality of coils, and described siliconized plate and described coil and substrate external packets are covered with a waterproof construction layer, and described stator module centre has an aperture, described flabellum body also has a flabellum body body, described flabellum body body correspondence is arranged in this aperture, but both are not in contact with one another, and also has a magnetic element between the described flabellum body body outside and this aperture.

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