CN206024364U - Water cooling plant - Google Patents
Water cooling plant Download PDFInfo
- Publication number
- CN206024364U CN206024364U CN201620501473.4U CN201620501473U CN206024364U CN 206024364 U CN206024364 U CN 206024364U CN 201620501473 U CN201620501473 U CN 201620501473U CN 206024364 U CN206024364 U CN 206024364U
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- liquid
- circuit board
- blade
- coil group
- liquid storage
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Abstract
This utility model provides a kind of water cooling plant includes a liquid storage housing with a fluid reservoir and a pumping with a stator and a rotor, there is the stator coil to be mounted on a circuit board and be electrically connected to each other, the circuit board is located on an at least inwall of the liquid chamber with the coil group selection thereon or one bag is penetrated and is molded in the liquid storage housing, the rotor is located in the liquid room and is exposed in the cooling liquid with a pusher of relative connection, and the pusher is provided with the blade that plural metal material is constituted, each blade has magnetized on a position of at least pole region from the blade with respect to coil group formation, and opposed coil group, use the effect for reaching slimming.
Description
【Technical field】
This utility model is related to a kind of water cooling plant, espespecially a kind of with the water cooling plant for reaching slimming.
【Background technology】
Press, day by day strengthen as electronic equipment calculates efficiency, its internal set electronic component can be produced when running
Amount of heat, generally need to arrange radiator on electronic component or radiating fin uses increase area of dissipation and then heat radiation effect
Can, but as the radiator radiating effect reached with radiating fin is limited, therefore existing known technology just adopts water cooling plant
As the settling mode for strengthening heat dissipation.
And known water cooling plant is can to fill the heat for absorbing heater element (processor or graphic process unit) with water-cooled
A cooling liquid heat exchange of inside is put, the pumping inside water cooling plant is then passed through and is come circulating cooling liquid, and the water-cooled
Device connects a radiator through plural body, makes cooling liquid carry out heat exchange between the two in radiator and water cooling plant and follows
Ring radiates, and uses to heater element quick heat radiating.
In by upper known known technology, in order to prevent the stator module of pumping from causing to damage because receiving liquid, therefore will
Stator module is arranged at the outside of water cooling plant, and guides cooling fluid rotor assembly of circulation in water cooling plant to be then arranged at
The chamber interior of the water cooling plant, the shell of the rwo transmission water cooling plant are correspondingly produced excitatory and are operated, and due to water
The shell of device for cooling need to be considered when the intensity of structure itself, therefore there is certain thickness, therefore the rotor assembly and the stator pack
Between part, then the running efficiency of the pumping is affected because of the spacing of the outer casing thickness generation of the water-cooled module so that affect water cooled mo(u)ld
The excessive problem of the integral heat sink efficiency of group and integral water-cooled device volume.
【Utility model content】
Hence this, is the above-mentioned problem of effectively solving, and one of this utility model purpose is providing a kind of effect for reaching slimming
The water cooling plant of fruit.
The another object of this utility model providing a kind of thickness gap reduced between stator and respective rotor,
And reduce the water cooling plant of overall volume.
The another object of this utility model provide a kind of pass through one first inclined plane that a water stream channel has, and adjacent
The one second inclined plane connection having in one heat exchange chamber chamber interior walls, and first and second inclined plane is in difference of height, thereby can reach
The effect of unhurried current, and avoid being vortexed the water cooling plant that (or wadding stream) is produced.
It is that this utility model provides a kind of water cooling plant, including a liquid storage housing and a pumping, the liquid storage up to above-mentioned purpose
Housing has a liquid chamber, an entrance and an outlet, and the liquid chamber connects the entrance and outlet, with for a cooling liquid logical
Cross in which, in order to circulate the cooling liquid, which includes a stator and a rotor for the pumping, and there is the stator coil to be mounted on one
On circuit board and be electrically connected to each other, the circuit board be located on an at least inwall of the liquid chamber with the coil group selection thereon or
One bag is penetrated and is molded in the liquid storage housing, and the circuit board is isolated with the cooling liquid with the coil group thereon, the rotor
It is located in the liquid room and is exposed in the cooling liquid with a pusher of relative connection, and the pusher is provided with plural gold
There is an at least pole region to be filled from a position of the relative coil group of the blade for the blade that category material is constituted, each blade
Magnetic is formed, and the pole region of each blade is excitatory with the relative coil group sensing.
In an embodiment, a rising wood of each blade or a lower edge axial charging form the pole region, a protection
Film coats the outside of the circuit board and the coil group, and is coated with the circuit board of the protecting film or plated film together with the coil group
On an inwall top side or an inwall bottom side in the liquid room, and to should blade pole region.
In an embodiment, an exterior region radial magnetizing of each blade forms the pole region, and is coated with the protecting film
An inwall the week side of boss of the circuit board together with the coil group in the liquid room on, and to should blade pole region.
In an embodiment, the circuit board is penetrated with the coil group one bag and is molded at the top of the one of the liquid storage housing or a bottom
Interior, and to should blade pole region, and the circuit board and the stator be located at outside the liquid room, and the liquid storage housing stops isolation
The cooling liquid contacts the stator and the circuit board.
In an embodiment, the circuit board penetrates the side week for being molded over the liquid storage housing in portion with coil group one bag, and
To should blade exterior region pole region, and the circuit board and the stator be located at outside the liquid room, and the liquid storage housing stops
Isolate the cooling liquid and contact the stator and the circuit board.
In an embodiment, there is the rotor axle center, the one end in the axle center to connect the pusher, and then axle is located at its other end
On the inwall of the liquid chamber, and the entrance is separately positioned on two sides of the liquid storage housing with outlet.
In an embodiment, the water cooling plant further includes heat exchange elements, the relative liquid storage shell of heat exchange elements connection
Body, and the heat exchange elements have the cooling liquid in a thermal interface and a heat-exchange surface, the heat-exchange surface and the liquid room
Contact.
In an embodiment, the water cooling plant further includes heat exchange elements, the relative liquid storage shell of heat exchange elements connection
Body, the liquid storage housing have more a spacer portion, at least a perforation and a water stream channel, and the spacer portion is formed in the liquid storage housing
Centre, and aforementioned liquids room and a heat exchange chamber for connecting the outlet is defined jointly with the liquid storage housing and the heat exchange elements
Room, the perforation open up in the spacer portion and connect the entrance and the liquid chamber, and the liquid chamber is located above the heat exchanger chambers,
The water stream channel is located between the liquid chamber and the liquid chamber interior walls the week side of boss, and the insertion spacer portion, to connect the heat exchange chamber
Room.
In an embodiment, the water stream channel has one first inclined plane, and first inclined plane is from the liquid room
Water stream channel bottom side is constituted towards inclination is extended downwardly at the spacer portion, and the heat exchanger chambers are interior with respect to the water stream channel
There is on wall one second inclined plane, relative first inclined plane of the adjacent connection of second inclined plane.
【Description of the drawings】
Three-dimensional exploded views of the Fig. 1 for the first embodiment of this utility model;
Three-dimensional combination figures of the Fig. 2 for the first embodiment of this utility model;
Profiles of the Fig. 2A for the first embodiment of this utility model;
Enlarged cross-sectional views of Fig. 2 B for the first embodiment of this utility model;
Fig. 3 A are that one of first embodiment of this utility model implements profile;
Another enforcement profiles of Fig. 3 B for the first embodiment of this utility model;
Another enforcement profiles of Fig. 4 A for the first embodiment of this utility model;
Another enforcement profiles of Fig. 4 B for the first embodiment of this utility model;
Another enforcement profiles of Fig. 4 C for the first embodiment of this utility model;
Three-dimensional exploded views of Fig. 5 A for the second embodiment of this utility model;
Profiles of Fig. 5 B for the second embodiment of this utility model;
Enforcement aspect figures of the Fig. 6 for the second embodiment of this utility model;
Three-dimensional exploded views of the Fig. 7 for the 3rd embodiment of this utility model;
Three-dimensional combination figures of Fig. 8 A for the 3rd embodiment of this utility model;
Profiles of Fig. 8 B for the 3rd embodiment of this utility model;
Another enforcement profiles of Fig. 8 C for the 3rd embodiment of this utility model.
Symbol description:
Water cooling plant ... 1
Liquid storage housing ... 10
Liquid chamber ... 101
Entrance ... 102
Outlet ... 103
Spacer portion ... 104
Perforation ... 1041
Guiding channel ... 1042
Top cover ... 105
Bottom ... 106
Water stream channel ... 107
First inclined plane ... 1071
Packing ring ... 109
Pumping ... 20
Stator ... 201
Coil group ... 2011
Rotor ... 202
Axle center ... 2021
Pusher ... 203
Blade ... 2031
Rising wood ... 2032
Lower edge ... 2033
Exterior region ... 2034
Pole region ... 204
Circuit board ... 30
Protecting film ... 31
Heat exchange elements ... 40
Thermal interface ... 401
Heat-exchange surface ... 402
Heat exchanger chambers ... 403
Radiating fin ... 404
Second inclined plane ... 405
Radiator ... 5
Can be around pipe ... 51
Fan ... 6
Heater element ... 7
【Specific embodiment】
The above-mentioned purpose and its structure of this utility model and characteristic functionally, will give according to the embodiment of institute's accompanying drawings
Explanation.
This utility model provides a kind of water cooling plant, refers to Fig. 1, Fig. 2, Fig. 2A, shows that the first of this utility model is real
Apply the stereo decomposing of example and combine and generalized section.Aforementioned water cooling plant 1 includes a liquid storage housing 10 and a pumping 20, the storage
Liquid housing 10 is constituted with plastic cement material, and the liquid storage housing 10 have a liquid chamber 101, an entrance 102, an outlet 103 and
One bottom 106, the bottom of the liquid storage housing 10 dock the end face of the bottom 106, to seal the liquid chamber 101, the liquid chamber
101 connect the entrances 102 and outlet 103, the liquid chamber 101 with so that a cooling liquid is by which, the entrance 102 and outlet
103 are separately positioned on two sides of the liquid storage housing 10.There is a packing ring 109 between the bottom 106 and liquid storage housing 10, should
Packing ring 109 prevents the cooling liquid in liquid chamber 101 from oozing in order to increase the combination density between liquid storage housing 10 and bottom 106
Leakage.Wherein aforementioned bottom 106 is the part of of liquid storage housing 10 itself, and both are connected combination and are said in the mode of rabbeting
Bright, but be not limited thereto, when being embodied as, it is alternatively chosn to the combination of gluing or screw lock.
And the pumping 20 is in order to circulate the cooling liquid, the pumping 20 includes a stator 201 and a rotor 202 and a promotion
Device 203, the stator 201 have a coil group 2011, the coil group 2011 the present embodiment represent setting wiring or etching or
Printing is formed on the side of a circuit board 30, and the coil group 2011 connects on the side of the circuit board 30 and electrically each other
Connect.When being embodied as, the coil group 2011 may be selected to be formed on the side of the circuit board 30 in a stacked, or should
Coil group 2011 is laid on the side of the circuit board 30.
And the circuit board 30 is represented in the present embodiment with the coil group 2011 thereon and is located at least the one of the liquid chamber 101
On wall surface, and the circuit board 30 is isolated with the cooling liquid with the coil group 2011 thereon.And the circuit board 30 and the line
The outside of circle group 2011 is coated with a protecting film 31 or plated film, stops that by the protecting film 31 or plated film isolating the cooling liquid connects
Touch the stator 201 and the circuit board 30.In the present embodiment Fig. 2A, Fig. 2 B, it is coated with the circuit board 30 of the protecting film 31 and is somebody's turn to do
Coil group 2011 is close on the inwall top side in the liquid chamber 101 together.In alternate embodiment, such as Fig. 3 A, it is coated with
The circuit board 30 of the protecting film 31 is close on the inwall bottom side in the liquid chamber 101 together with the coil group 2011.?
Alternate embodiment, such as Fig. 3 B, the circuit board 30 for being coated with the protecting film 31 are close to located at the liquid together with the coil group 2011
In an inwall the week side of boss in body room 101.Wherein aforementioned circuit plate 30 is 30 (Flexible printed of flexible printed wiring board
Circuit board, FPCB) or printed circuit board (PCB) 30 (PCB), and the circuit board 30 is electrically connected with a connecting line group (in figure not
Show), one end of the connecting line group is electrically connected on the circuit board 30, and its other end is then interior through the storage by the fluid reservoir 101
Liquid housing 10 extends out to outside, makes the other end of the connecting line group be connected with a corresponding motherboard (or a power supply unit)
Connect, it is to seal through the liquid storage housing 10 that wherein the other end of the connecting line group is interior by the fluid reservoir 101, to prevent liquid chamber
Cooling liquid seepage in 101.In alternate embodiment, one end of the connecting line group is electrically connected on circuit board 30, its remaining part
Divide (part i.e. between one end of connecting line group and the other end) then to be penetrated by bag to be integrally formed in the liquid storage housing 10, and stay this
The other end of connecting line group exposed liquid storage housing 10 outer with to should motherboard (or power supply supply;Do not show in figure) it is connected.
And the connecting line group is expressed as power line and control signal line in the present embodiment, the power line is in order to providing power to the circuit board
Electronic component and pumping thereon, the control signal line in order to control the pumping running speed (or can at the same control pumping open or
Close).
Separately, foregoing rotor 202 connects the pusher 203, and the rotor 202 is located in the liquid chamber 101 with pusher 203
And be exposed in the cooling liquid, thereby the rotor 202 pairs should stator 201, with drive rotor 202 drive the pusher 203
Rotate, and then make the pusher 203 disturb the cooling liquid in the liquid chamber 101, and the cooling liquid flowed into by the entrance 102
Driven towards corresponding outlet 103 by the pusher 203 and flowed out.And the rotor 202 have an axle center 2021, the one of the axle center 2021
End connects the pusher 203, and then axle is located on the inwall top side of the liquid chamber 101 its other end.And aforesaid pusher 203 is provided with
Plural blade 2031, the blade 2031 are constituted with metal material, and each blade 2031 has an at least pole region 204, should
Pole region 204 is magnetized from a position of the 2031 relative coil group 2011 of blade to be formed, that is, the present embodiment is in the leaf
One rising wood, 2032 axial charging of piece 2031 forms the pole region 204, and the rising wood 2032 of each adjacent blade 2031
Respectively there is different pole region 204 (N poles or S poles), and the pole region 204 of the rising wood 2032 of the blade 2031 and the relative liquid
Coil group 2011 on the inwall top side of body room 101 mutually senses excitatory, thus orders about the rotor 202 and rotates.
In alternate embodiment, such as Fig. 3 A, 2033 axial charging of a lower edge of the aforementioned blade 2031 forms the pole region
204, and the lower edge 2033 of each adjacent blade 2031 respectively has different pole region 204 (N poles or S poles), and the blade
The pole region 204 of 2031 lower edge 2033 is mutually sensed with the coil group 2011 on the inwall bottom side of the relative liquid chamber 101 and is swashed
Magnetic.In alternate embodiment, such as Fig. 3 B, 2034 radial magnetizing of an exterior region of the aforementioned blade 2031 forms the pole region 204,
And the exterior region 2034 of each adjacent blade 2031 respectively has different pole region 204 (N poles or S poles), and the blade 2031
Exterior region 2034 pole region 204 mutually sense with the coil group 2011 in the inwall the week side of boss of the relative liquid chamber 101 excitatory.
In an embodiment, the aforementioned circuit board 30 can be designed integrally to wrap to penetrate with the coil group 2011 thereon and be molded over the liquid storage
In housing 10, and the circuit board 30 is located at outside the liquid chamber 101 with stator 201, is stopped by liquid storage housing 10 and is isolated the cooling
Liquid contacts the stator 201 and circuit board 30.That is, such as Fig. 4 A, the circuit board 30 is wrapped to penetrate with 2011 one of coil group and is molded over
At the top of the one of the liquid storage housing 10 in (nearly inner wall surface), and the pole region 204 of the rising wood 2032 of the blade 2031 with corresponding
The coil group 2011 being covered by the top of the liquid storage housing 10 mutually senses excitatory.In an embodiment, such as Fig. 4 B, the circuit board
30 are penetrated with 2011 one bag of the coil group and are molded in a bottom of the liquid storage housing 10, and the lower edge 2033 of the blade 2031
Pole region 204 mutually sense with the coil group 2011 in the corresponding bottom for being covered by the liquid storage housing 10 excitatory.Implement one
Example, such as Fig. 4 C, the circuit board 30 penetrate the side week for being molded over the liquid storage housing 10 in portion with the 2011 one bag of coil group, and are somebody's turn to do
Coil group of the pole region 204 of the exterior region 2034 of blade 2031 with the corresponding side week for being covered by the liquid storage housing 10 in portion
2011 mutually sense excitatory.So thereby circuit board 30 wraps the knot for penetrating molding with its upper set of coils 2011 with 10 one of liquid storage housing
Structure so that can reach outside stator 201 and 30 waterproof of circuit board and protection stator 201 and circuit board 30, moreover it is possible to effectively reduce (or contract
Short) thickness gap between stator 201 and rotor 202, to reach the effect of slimming.
Due to passing through this utility model in a position of the blade 2031 (such as rising wood 2032 or lower edge 2033 or leading edge
Portion 2034) on carry out magnetizing to form pole region 204, with to should circuit board 30 its upper set of coils 2011 structure design so that
One bulky magneticss (such as Magnet) in known rotor 202 is may replace, and then just can omit placement known magnetic element
Space, use 10 overall volume of minimizing liquid storage housing, and the effect for reaching slimming.
Fig. 5 A, Fig. 5 B is referred to, shows stereo decomposing and the generalized section of the second embodiment of this utility model.This
The structure of embodiment and link are closed and its effect is substantially identical with aforementioned first embodiment, therefore here is not repeated again.This reality
Apply example and the design of bottom 106 of the liquid storage housing 10 of aforementioned first embodiment is replaced with heat exchange elements 40 and liquid storage mainly
Housing 10 connects, that is, the water cooling plant 1 further includes aforementioned heat exchange elements 40, and the end face connection of the heat exchange elements 40 should
The bottom of liquid storage housing 10, pass through aforementioned pad to seal between the liquid chamber 101, and the liquid storage housing 10 and heat exchange elements 40
Circle 109 increases the combination adaptation between liquid storage housing 10 and heat exchange elements 40, prevents the cooling liquid in liquid chamber 101 from oozing
Leakage.And the heat exchange elements 40 are made by high-thermal conductive metal such as aluminum, copper are golden or silver-colored etc., and there is a thermal interface 401 and
Heat-exchange surface 402, the thermal interface 401 are close to be located at a relative heater element 7 (such as central processing unit or graphic process unit)
On, the thermal interface 401 is conducted to heat-exchange surface 402 in order to will receive the heat that the heater element 7 produces, the heat exchange
Face 402 is that and heat-exchange surface 402 is contacted with the cooling liquid in liquid chamber 101 in the liquid chamber 101.
And aforementioned heat exchange elements 40 have more plurality of radiating fins 404, the radiating fin 404 is radial interval row
Row are on heat-exchange surface 402, but are not limited thereto.Thereby it is arranged on the heat-exchange surface 402 through the radiating fin 404
The effect of the product of heat-exchange surface 402 can be effectively significantly increased.In addition, as shown in fig. 6, one radiator 5 of connection of water cooling plant 1 is constituted
One liquid cooling system, the radiator 5 connect through plural flezxible coupling 51 respectively and connect entrance 102 with respect to the water cooling plant 1 with
Outlet 103, so that the pusher 203 in the liquid chamber 101 drives the cooling liquid in liquid chamber 101 and 5 interior circulation of radiator
Flowing radiating.And can connect on the radiator 5 fan 6 help 5 quick heat radiating of radiator.
So when the thermal interface 401 of the heat exchange elements 40 conducts the heat for absorbing heater element 7 to heat friendship
Change on face 402, make the heat-exchange surface 402 carry out, after heat exchange, making the cooling liquid just with the cooling liquid in liquid chamber 101
The heat-exchange surface 402 is taken away and flowed out from the outlet 103 of the liquid storage housing 10 with the heat on the radiating fin 404, is used
Reach the effect of radiating.Therefore by the design of water cooling plant of the present utility model 1 so that can reach slimming and reduce liquid storage
The effect of 10 overall volume of housing, and then also effectively reach 201 waterproof of stator and reduce (or shortening) stator 201 and rotor 202
Thickness gap each other.
And the circuit board 30 for being coated with the protecting film 31 of the present embodiment is close to located at the liquid together with the coil group 2011
On inwall top side in body room 101, and the pole region 204 of the exterior region 2034 of the blade 2031 and the relative liquid chamber 101
Its upper set of coils 2011 of inwall top side mutually senses excitatory.In alternate embodiment, it is coated with the circuit board 30 of the protecting film 31 and is somebody's turn to do
Coil group 2011 is close on the heat-exchange surface (the inwall bottom side i.e. in aforementioned liquids room 101) together, and the blade 2031
Lower edge 2033 pole region 204 and the relative liquid chamber 101 inwall bottom side (i.e. heat-exchange surface) its upper set of coils 2011
Mutually sense excitatory.In alternate embodiment, the circuit board 30 for being coated with the protecting film 31 together with the coil group 2011 is close to be located at
In inwall the week side of boss in the liquid chamber 101, and the pole region 204 of the exterior region 2034 of the blade 2031 and the relative liquid chamber
101 inwall the week side of boss its upper set of coils 2011 mutually senses excitatory.
In an embodiment, the circuit board 30 penetrates the top for being molded over the liquid storage housing 10 with the 2011 one bag of coil group
Interior, and the pole region 204 of the rising wood 2032 of the blade 2031 and the line in the corresponding top for being covered by the liquid storage housing 10
Circle group 2011 mutually senses excitatory.In an embodiment, the circuit board 30 is penetrated with the 2011 one bag of coil group and is molded over the liquid storage shell
The side week of body 10 is in portion, and the pole region 204 of the exterior region 2034 of the blade 2031 is covered by the liquid storage housing 10 with corresponding
Coil group 2011 of the side week in portion mutually sense excitatory.
Fig. 7, Fig. 8 A is referred to, is shown stereo decomposing and the combination diagram of the 3rd embodiment of this utility model, and is taken
Figure 8B.The structure and connection relationship of the present embodiment and its effect are substantially identical with aforementioned first embodiment, therefore here is not
Again repeat.The water cooling plant 1 that aforementioned second implements mainly is changed and has been designed as upper and lower chamber (i.e. liquid by the present embodiment
Room 101, heat exchanger chambers is 403) and entrance 102 and the outlet 103 of liquid storage housing 10 changes design on a top cover 105.That is, it is front
Liquid storage housing 10 is stated with a top cover 105, at least a spacer portion 104, a perforation 1041 and a water stream channel 107, the liquid storage shell
The end face of the top cover 105 is docked on the top of body 10, to seal between the liquid chamber 101, and the liquid storage housing 10 and top cover 105
Increase the combination adaptation between liquid storage housing 10 and top cover 105 through another packing ring 109, prevent the cooling in liquid chamber 101
Fluid seepage.
And the spacer portion 104 is formed in centre in the liquid storage housing 10, the spacer portion 104 and the liquid storage housing 10 and should
Heat exchange elements 40 define heat exchanger chambers 403 jointly and aforementioned liquids room 101 is located above heat exchanger chambers 403, between being somebody's turn to do
It is liquid chamber 101 every the top in portion 104, is the heat exchanger chambers 403 below.Aforementioned perforation 1041 is expressed as in the present embodiment
1 perforation 1041 is opened in the centre of the spacer portion 104, and connects the entrance 102 and liquid chamber 101 of the liquid storage housing 10.
And there is aforementioned spacer portion 104 guiding channel 1042, the guiding channel 1042 to be formed in the inside of the spacer portion 104, and position
Between the liquid chamber 101 and heat exchanger chambers 403, the guiding channel 1042 connects the entrance 102 and liquid of the liquid storage housing 10
Body room 101, in order to the cooling liquid entered by entrance 102 guiding to be entered into the liquid chamber 101 of top by the perforation 1041
Interior.The wherein part of the spacer portion 104 and top cover 105 for the liquid storage housing 10.
Between aforementioned water stream channel 107 is located between the liquid chamber 101 and the inwall the week side of boss of the liquid chamber 101, and insertion is somebody's turn to do
Every portion 104, to connect the heat exchanger chambers 403, that is, such as Fig. 8 B, the water stream channel 107 is along the liquid chamber 101 and relative liquid
A curved water stream channel 107 is formed between the inwall the week side of boss of body room 101, and the water stream channel 107 is in order to will be by pusher 23
The cooling liquid in liquid room is driven to be inducted in the heat exchanger chambers 403, then the coolant in the heat exchanger chambers 403
Body is flowed out towards corresponding outlet 103 again.And the water stream channel 107 has one first inclined plane 1071, first inclined plane
1071 extend downwardly inclination institute structure at the spacer portion 104 from 107 bottom side of the water stream channel court being located in the liquid chamber 101
Into with one second inclined plane 405, second inclined plane on the inwall of the 403 relative water stream channel 107 of heat exchanger chambers
405 adjacent connections, first inclined plane 1071 relatively, the height of first inclined plane 1071 is higher than the second inclined plane 405, and makes
A difference of height is formed between first and second inclined plane 1071,405.And the first inclined plane 1071 in the present embodiment is inclined with second
Inclined-plane 405 is substantially perpendicular, but is not limited thereto.
So the cooling liquid guiding in the water stream channel 107 can be slowed down by aforementioned first and second inclined plane 1071,405
Enter the flowing velocity (effect of unhurried current is reached through first and second inclined plane 1071,405) in the heat exchanger chambers 403, and go back
Promote the flowing of the cooling liquid smooth, and then be also avoided that the cooling liquid having just enter in the heat exchanger chambers 403 is produced
Vortex (or wadding stream), and the bubble produced by the cooling liquid shock having just enter in the heat exchanger chambers 403 can be reduced.
And the circuit board 30 for being coated with the protecting film 31 of the present embodiment is close to located at the storage together with the coil group 2011
On the inside of the top cover 105 of liquid housing 10 on (the inwall top side i.e. in liquid chamber 101), and the magnetic of the rising wood 2032 of the blade 2031
Inwall top side (i.e. on the inside of the top cover 105 of the liquid storage housing 10) its upper set of coils 2011 of polar region 204 and the relative liquid chamber 101
Mutually sense excitatory.In alternate embodiment, the circuit board 30 for being coated with the protecting film 31 together with the coil group 2011 is close to be located at
On the side (the inwall bottom side i.e. in aforementioned liquids room 101) of the 104 relative top cover 105 of spacer portion, and the blade 2031
The pole region 204 of lower edge 2033 mutually senses excitatory with its upper set of coils 2011 of inwall bottom side of the relative liquid chamber 101.Replacing
For embodiment, the circuit board 30 for being coated with the protecting film 31 is close in the liquid chamber 101 together with the coil group 2011
In inwall the week side of boss, and the inwall the week side of boss of the pole region 204 of the exterior region 2034 of the blade 2031 and the relative liquid chamber 101 is thereon
Coil group 2011 mutually senses excitatory.
In an embodiment, such as Fig. 8 C, the circuit board 30 is penetrated with the 2011 one bag of coil group and is molded over the liquid storage housing 10
Top (i.e. the top cover 105 of liquid storage housing 10) in, and the pole region 204 of the rising wood 2032 of the blade 2031 wrapped with corresponding
Overlay on the coil group 2011 in the top cover 105 of the liquid storage housing 10 mutually sense excitatory.In an embodiment, the circuit board 30 and the line
2011 one bag of circle group is penetrated and is molded in the spacer portion 104 of the liquid storage housing 10, and the magnetic of the lower edge 2033 of the blade 2031
Polar region 204 mutually senses excitatory with the coil group 2011 in the corresponding spacer portion 104 for being covered by the liquid storage housing 10.
Therefore by the design of water cooling plant of the present utility model 1 so that can reach slimming and reduce liquid storage housing 10
The effect of overall volume, so also effectively reach 201 waterproof of stator and reduce (or shorten) stator 201 and rotor 202 each other it
Between thickness gap.
Only the above, the only preferably feasible embodiment of this utility model is such as above-mentioned using this utility model
Method, shape, construction, device change for it, should all be contained in the interest field of this case.
Claims (14)
1. a kind of water cooling plant, it is characterised in that include:
One liquid storage housing, with a liquid chamber, an entrance and an outlet, the liquid chamber connects the entrance and outlet, with for one
Cooling liquid is by which;And
One pumping, in order to circulate the cooling liquid, which includes a stator and a rotor, and there is the stator coil to be mounted on an electricity
On the plate of road and it is electrically connected to each other, the circuit board is located on an at least inwall of the liquid chamber with the coil group selection thereon or one
Body bag is penetrated and is molded in the liquid storage housing, and the circuit board is isolated with the cooling liquid with the coil group thereon, the rotor with
One pusher of relative connection is located in the liquid room and is exposed in the cooling liquid, and the pusher is provided with plural metal
There is an at least pole region to be magnetized from a position of the relative coil group of the blade for the blade that material is constituted, each blade
Formed, and the pole region of each blade is excitatory with the relative coil group sensing.
2. water cooling plant according to claim 1 a, it is characterised in that rising wood of each blade or a lower edge
Axial charging forms the pole region, and a protecting film coats the outside of the circuit board and the coil group, and is coated with the protecting film
On an inwall top side or an inwall bottom side of the circuit board together with the coil group in the liquid room, and to should blade
Pole region.
3. water cooling plant according to claim 1, it is characterised in that an exterior region radial magnetizing shape of each blade
Into the pole region, a protecting film coats the outside of the circuit board and the coil group, and be coated with the circuit board of the protecting film with
In a coil group inwall the week side of boss together in the liquid room, and to should blade pole region.
4. water cooling plant according to claim 1 a, it is characterised in that rising wood of each blade or a lower edge
Axial charging forms the pole region, and the circuit board is penetrated with the coil group one bag and is molded at the top of the one of the liquid storage housing or a bottom
In portion, and to should blade pole region, and the circuit board and the stator be located at outside the liquid room, and the liquid storage housing stop every
The stator and the circuit board are contacted from the cooling liquid.
5. water cooling plant according to claim 1, it is characterised in that an exterior region radial magnetizing shape of each blade
Into the pole region, the circuit board penetrates the side week for being molded over the liquid storage housing in portion with coil group one bag, and to should leaf
The pole region of the exterior region of piece, and the circuit board and the stator be located at outside the liquid room, and the liquid storage housing stops isolation this is cold
But liquid contacts the stator and the circuit board.
6. water cooling plant according to claim 1, it is characterised in that the rotor has an axle center, the one end in the axle center
Connect the pusher, then axle is located on the inwall of the liquid chamber its other end, and the entrance is separately positioned on the liquid storage with outlet
Two sides of housing.
7. water cooling plant according to claim 1, it is characterised in that the water cooling plant further includes heat exchange elements,
The relative liquid storage housing of heat exchange elements connection, and the heat exchange elements have a thermal interface and a heat-exchange surface, the heat
Exchange face is contacted with the cooling liquid in the liquid room.
8. water cooling plant according to claim 1, it is characterised in that the water cooling plant further includes heat exchange elements,
The relative liquid storage housing of heat exchange elements connection, the liquid storage housing are logical with more a spacer portion, at least a perforation and current
Road, the spacer portion are formed in centre in the liquid storage housing, and are defined with the liquid storage housing and the heat exchange elements jointly aforementioned
Liquid chamber and the heat exchanger chambers for connecting the outlet, the perforation opens up in the spacer portion and connects the entrance and the liquid chamber,
The liquid chamber is located above the heat exchanger chambers, and the water stream channel is located between the liquid chamber and the liquid chamber interior walls the week side of boss, and
The insertion spacer portion, to connect the heat exchanger chambers.
9. water cooling plant according to claim 8, it is characterised in that the heat exchange elements have a thermal interface and
Heat-exchange surface, the heat-exchange surface are contacted with the cooling liquid in the heat exchange chamber room.
10. water cooling plant according to claim 8, it is characterised in that the water stream channel has one first inclined plane, should
First inclined plane is constituted from the water stream channel bottom side being located in the liquid room towards inclination is extended downwardly at the spacer portion, should
Heat exchanger chambers with respect to having one second inclined plane on the inwall of the water stream channel, the adjacent connection of second inclined plane relative this
One inclined plane.
11. water cooling plants according to claim 10, it is characterised in that the height of first inclined plane higher than this second
Inclined plane, makes to form a difference of height between first and second inclined plane, and first inclined plane is substantially in hang down with the second inclined plane
Directly.
12. water cooling plants according to claim 8 a, it is characterised in that rising wood or a lower edge of each blade
Portion's axial charging forms the pole region, and a protecting film coats the outside of the circuit board and the coil group, and is coated with the protecting film
An inwall top side or an inwall bottom side of the circuit board together with the coil group in the liquid room on, and to should blade
Pole region.
13. water cooling plants according to claim 8 a, it is characterised in that rising wood or a lower edge of each blade
Portion's axial charging forms the pole region, and the circuit board is penetrated with the coil group one bag and is molded at the top of the one of the liquid storage housing or is somebody's turn to do
In spacer portion, and to should blade pole region, and the circuit board and the stator be located at outside the liquid room, and liquid storage housing resistance
Block contacts the stator and the circuit board from the cooling liquid.
14. water cooling plants according to claim 1, it is characterised in that the coil group selection is with a mode of printing or one
Stack manner or etching or wire laying mode are formed on the circuit board.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620501473.4U CN206024364U (en) | 2016-05-27 | 2016-05-27 | Water cooling plant |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620501473.4U CN206024364U (en) | 2016-05-27 | 2016-05-27 | Water cooling plant |
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CN206024364U true CN206024364U (en) | 2017-03-15 |
Family
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Family Applications (1)
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107438348A (en) * | 2016-05-27 | 2017-12-05 | 奇鋐科技股份有限公司 | Water cooling plant |
TWI632299B (en) * | 2017-09-22 | 2018-08-11 | 深圳興奇宏科技有限公司 | Slim pump structure |
CN109819626A (en) * | 2017-11-22 | 2019-05-28 | 微星科技股份有限公司 | Radiator and cooling system |
-
2016
- 2016-05-27 CN CN201620501473.4U patent/CN206024364U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107438348A (en) * | 2016-05-27 | 2017-12-05 | 奇鋐科技股份有限公司 | Water cooling plant |
CN107438348B (en) * | 2016-05-27 | 2023-12-15 | 奇鋐科技股份有限公司 | Water cooling device |
TWI632299B (en) * | 2017-09-22 | 2018-08-11 | 深圳興奇宏科技有限公司 | Slim pump structure |
CN109819626A (en) * | 2017-11-22 | 2019-05-28 | 微星科技股份有限公司 | Radiator and cooling system |
CN109819626B (en) * | 2017-11-22 | 2023-03-28 | 微星科技股份有限公司 | Radiator and cooling system |
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