CN101153607A

CN101153607A - Water pump device of radiating system

Info

Publication number: CN101153607A
Application number: CNA2006101401368A
Authority: CN
Inventors: 黄国忠
Original assignee: BAONING TECHNOLOGY Co Ltd
Current assignee: BAONING TECHNOLOGY Co Ltd
Priority date: 2006-09-30
Filing date: 2006-09-30
Publication date: 2008-04-02
Anticipated expiration: 2026-09-30
Also published as: CN101153607B

Abstract

The invention provides a water pump device of heat radiating system, which can be folded on one side of a heat radiator, the other side of the heat radiator is directly contacted with a heat source. The water pump device is provided with a liquid inlet and a liquid outlet, wherein, the liquid inlet is for a liquid to enter the spoil current of the heat radiator to absorb the heat source which is transferred to the water pump device by the heat radiator, the liquid absorbing the heat is centrifugally thrown off to form a liquid flow and discharged to outside for heat radiation treatment by the liquid outlet, the entire set is thin-shaped, the applicable scope can be widened, the invention is specially applicable to the heat radiating of super-thin laptop.

Description

The pumping plant of radiation system

Technical field

The present invention relates to a kind of pumping plant of radiation system, particularly reference and a kind of being stacked and placed on the radiator, touch in a thermal source surface by direct subsides of this radiator, utilize the blade in the pumping plant, water current driven after the radiator heat absorption is formed the discharge of liquid stream remake heat radiation, the pumping plant of the radiation system of whole slimming.

Background technique

The pumping plant of radiation system, as its name suggests, be directly with the thermal source in the electronic article, utilize a pump to force drive water to flow thermal source is done water cooling, with the computer that applies to water-cooled heat radiation is example, the pumping plant of existing radiation system, as shown in Figure 1, be that group is provided with a motor 6 on a water pump 5, be provided with in the water pump 5 and hold liquid space 50 and be provided with a liquid inlet channel 51 and a tapping channel 52, also group is provided with an axial blade 53 in this appearance liquid space 50, it is to be mounted on motor 6 to penetrate water pump 5 and be positioned in the rotating shaft 60 of holding liquid space 50 centers that this axial blade 53 is equivalent to a pump, when the outside by liquid storage barrel 7, provide a liquid to typically refer to " water ", through a thermal source 71 CPU for example, with thermal absorption, the water 70 of band heat, send into appearance liquid space 50 through a conduit 72 by liquid inlet channel 51, by holding liquid space 50 and being sent to axial blade 53 via central inlet pipeline and doing centrifugal rotation drive, form flow of fluid (abbreviating liquid stream as), via tapping channel 52 discharge make follow-up radiating treatment after, be recycled to liquid storage barrel 7 by another pipeline 73 again and make circular treatment, the pumping plant of this radiation system is because of possessing the two big factors that noise is low and the life-span is long, so mostly adopt above-mentioned centrifugal pump, because of no any parts phase mutual friction except that bearing, but 61 coilings 62 of stator poles of Yin Mada 6 inner stators structure are will have certain length just can send enough power to make rotating shaft 60 rotations reach predetermined moment of torsion, and the stator poles structure is normally short and small, therefore institute's winding around 62 will have certain length thereon, the long more representative of length around the number of turns many more, the number of turns more the Thomas to reach 6 height high more, central inlet pipeline is located at radiator central authorities in addition, its central authorities top must be provided with the intake pipe of certain altitude, therefore cause the pumping plant height I of integral heat sink system or claim that thickness can't reduce, more can't directly be attached at a thermal source 71 surfaces and do directly heat absorption, so send into the water 70 that holds in the liquid space 50, just need do in addition to absorb to remake to compile transmission through thermal source 71 with water 70 with a liquid storage barrel 7, so definitely can't be applicable to the heat radiation of making ultra-thin mobile computer, therefore, how to conceive and produce a kind of directly the subsides and touch in a thermal source surface by radiator, utilize thin motor to drive the interior blade of a slim pump, thermal source that radiator absorbs is made water-cooled discharges, the pumping plant of the radiation system of whole slimming is an improvable problem.

Summary of the invention

The object of the present invention is to provide a kind of being stacked and placed on the radiator, touch in a thermal source surface by direct subsides of this radiator, utilize the blade in this pumping plant, radiator is absorbed the discharge of thermal source water current driven formation liquid stream remake heat radiation, the pumping plant of the radiation system of whole slimming.

The pumping plant of radiation system of the present invention, be at a slim seat that sets up, by end face downwards and be concaved with one and be installed with the space, this is installed with the space is a groove, make this slim seat that sets up around this groove, be formed with a thin framework, be formed with a diapire in this bottom that is installed with the space, run through at the central position of this diapire and to be provided with liquid-through hole, at this diapire is central point and apart from liquid-through hole one suitable distance with the liquid-through hole, convex with a vane rotor and set up the ring edge, to be installed with the space, the stator that separates out a periphery sets up the space, in the vane rotor that encloses set up the space, this diapire convexes with a water inlet flange in the both sides that this vane rotor sets up the ring edge, one water outlet flange, connect this water outlet flange and be provided with a liquid outlet channel, and run through this vane rotor to set up the ring edge and be communicated to vane rotor and set up the space one fluid-through port is arranged, protrude the frame wall one liquid outlet is arranged, and this water inlet flange protrusion frame wall has a liquid entering hole, by liquid entering hole, the local water inlet flange that connects has a horizontal liquid inlet channel again and connect diapire one vertical liquid inlet channel is arranged downwards, be parallel to into water flange, the a pair of corresponding frame wall of water outlet flange and vane rotor set up the intermarginal stator of ring and set up the place, space, setting each other off symmetrically, the location is provided with a pair of stator poles, each stator poles has prolate coiling section, on prolate coiling section and be wound with coil, in vane rotor sets up the space and install into rotor and blade, rotor center is provided with rotating shaft, blade then is mounted on the rotor, blade is towards the central position liquid-through hole of diapire and can rotates freely in vane rotor sets up the space, vane rotor sets up ring edge main header casing group one closing cap, to set up the certain isolation in space with this stator.

The pumping plant of radiation system of the present invention, this coil, blade, water inlet flange and water outlet flange all are to be located on the same horizontal plane of diapire, to reduce the pumping plant integral thickness.

The pumping plant of radiation system of the present invention, this slim seat bottom of setting up, more be provided with a radiator, this radiator is the slim shell block that has fluid passage and open-top for, this slim shell block be for the high thermal conductivity material made, it is to have a bottom surface, this fluid passage is the eddy current shape and has an outer peripheral end passway and central passage mouth, this central passage mouth also is connected with the slim central position liquid-through hole that sets up a diapire, and this outer peripheral end passway also is connected with the slim vertical liquid inlet channel of seat that sets up.

The pumping plant of radiation system of the present invention, the high thermal conductivity material of this slim shell block is to be metallic material.

The pumping plant of radiation system of the present invention, liquid is through horizontal liquid inlet channel, vertical liquid inlet channel by a slim liquid entering hole that sets up, via radiator outer peripheral end passway, through fluid passage by central passage mouth, a slim diapire liquid-through hole that sets up, send into and fill this vane rotor and set up the space, by the effect of blade rotating centrifugal with its do disturbance force to form flow of fluid and fast toward vane rotor set up ring edge fluid-through port, liquid outlet channel is sent by liquid outlet.

The pumping plant of radiation system of the present invention, this liquid can adopt the aqueous solution.

The pumping plant of radiation system of the present invention, this aqueous solution can be pure water.

Effect of the present invention is the pumping plant that makes a radiation system, and whole slimming increases its Applicable scope, is particularly useful for the heat radiation of ultra-thin mobile computer.

Description of drawings

Fig. 1 is the simple and easy schematic representation of side-looking of the pumping plant of existing radiation system;

Fig. 2 is that the pumping plant of radiation system of the present invention is stacked and placed on the broken section perspective exploded view of using on the radiator;

Fig. 3 is the schematic top plan view of Fig. 2;

Fig. 4 is the IV-IV cross-sectional schematic of Fig. 3;

Fig. 5 is the V-V cross-sectional schematic of Fig. 3.

Embodiment

Be elaborated below in conjunction with the pumping plant of drawings and Examples to radiation system of the present invention.

Fig. 2 is that the most preferred embodiment and the cooperation of the pumping plant 2 of radiation system of the present invention is stacked and placed on the schematic representation that uses on the radiator 1, wherein:

This radiator 1 is the slim shell block 10 that has fluid passage 11 and open-top for, and this fluid passage 11 is the eddy current shape, has a central passage mouth 110 and an outer peripheral end passway 111, and this slim shell block 10 also has a bottom surface 12.

And the pumping plant 2 of this radiation system, it is the slim seat of making at the metal material of a high heat transfer property 20 that sets up, by end face 200 downwards and be concaved with one and be installed with space 21, present embodiment is a square groove, make this slim set up seat 20 this be installed with space 21 around be formed with a square thin framework 22, be formed with a diapire 23 in this bottom that is installed with space 21, aim at the central passage mouth 110 of the fluid passage 11 of radiator 1 at the central position of this diapire, run through and be provided with liquid-through hole 24, is central point and apart from liquid-through hole 24 1 suitable distances at this diapire 23 with liquid-through hole 24, convex with a vane rotor and set up ring edge 25, to be installed with space 21, the stator that separates out a periphery sets up space 210, in the vane rotor that encloses set up space 211, this diapire 23 sets up the both sides of ring edge 25 at this vane rotor, towards a wall 220 of square thin framework 22 and protrude out frame wall 220, the protruding in addition water inlet flange 26 that is provided with, one water outlet flange 27, the meaning flange 26 of promptly intaking, water outlet flange 27 be located at stator be inserted between 210 places, connect water outlet flange 27 and be provided with a liquid outlet channel 270, open and run through the blade rotor rack and establish ring edge 25 and be communicated with vane rotors and set up space 211 fluid-through port 271 is arranged, protrude frame wall 220 liquid outlet 272 is arranged, water inlet flange 26 protrudes frame wall 220 liquid entering hole 260, by liquid entering hole 260, the local water inlet flange 26 that connects has a horizontal liquid inlet channel 261 again and connect the outer peripheral end passway 111 that diapire 23 has a vertical liquid inlet channel 262 and is communicated with radiator 1 fluid passage 11 downwards, be parallel to into water flange 26, the stator that a pair of corresponding frame wall 221 of water outlet flange 27 and vane rotor set up 25 at ring edge sets up 210 places, space, the location is provided with a pair of stator poles 28 symmetrically, each stator poles 28 has prolate coiling section 280, on prolate coiling section 280 and be wound with coil 281, in vane rotor sets up space 211 and install into rotor 290 and blade 291, rotor 290 centers are provided with rotating shaft 292,291 in blade is mounted on the rotor 290, blade 291 is towards the central position liquid-through hole 24 of diapire 23 and can rotates freely in vane rotor sets up space 211, vane rotor sets up ring edge 25 main header casing groups one closing cap 29, sealing cover cap 29 is to prevent that vane rotor from setting up space 211 pre-portions and setting up space 210 with stator and be connected, and for example waterproof is set up space 211 by vane rotor and infiltered stator and set up space 210.

The present invention is direct bottom surface 12 with radiator 1, subsides are touched in the upper surface of a thermal source 4 and are absorbed heat, this thermal source 4 can be the part that can generate heat in a CPU or the mobile computer, and it is similar existing still by outside liquid storage barrel 7, provide a liquid 70 to send into by liquid entering hole 260, this liquid 70 typically refers to " aqueous solution " or pure water, when power initiation, hot-wire coil 281 produces magnetic field and drives blade 291 rotations to drive rotor 290, form a suction, with liquid 70 by liquid entering hole 260, through horizontal liquid inlet channel 261, vertical liquid inlet channel 262, send into the outer peripheral end passway 111 of the fluid passage 11 of radiator 1, form powerful current at fluid passage 11, and really the heat that is absorbed of thermal source 4 is all taken to central passage mouth 110, be full of vane rotor through liquid-through hole 24 and set up space 211, by blade 291 rotating centrifugal effects it is done disturbance and force to form flow of fluid and fast past fluid-through port 271, liquid outlet channel 270 by liquid outlet 272 send make follow-up radiating treatment after, the same be recycled to liquid storage barrel 7 by another pipeline 73 again and make circular treatment.

What one of value was carried is, above-mentioned stator poles 28, prolate coiling section 280, the coil 281 that twines, rotor 290 and rotating shaft 292, be common formation one thin motor in fact, and set up space 211 and blade 291 at the vane rotor that is sealed by diapire 23 and closing cap 29, be common formation one pump in fact, therefore cooperate Fig. 2, Fig. 4 and Fig. 5, can be described as this slim set up seat 20 be installed with space 21, the stator of the periphery that diapire 23 same horizontal planes separate out set up space 210 and in the vane rotor that encloses set up space 211, meaning is about to motor coil 281, pump blade 291 and water inlet flange 26, the inlet pipeline of one water outlet flange 27 and rising pipe, be erected at entirely on the same horizontal plane of diapire 23, and be the configuration of staggering mutually, reduced the height that takies separately as much as possible, and thoroughly reduce the height of pumping plant integral body, add each stator poles 28 of thin motor, having one is configured in and slightly leaves the prolate coiling section 280 that vane rotor sets up 211 zones, space, make the coiling section to maximize, and increase the coiling amount as much as possible, and then effectively improve the moment of torsion of motor, and the coil 281 that on prolate coiling section 280, is twined, can existing motor come to such an extent that grow and be flat-shaped, can significantly reduce its height, directly to be located at water pump be blade 291 belows to radiator 1 again, water changes the water inlet flange 26 by sidepiece, 27 water inlet and the water outlets of one water outlet flange, central authorities need not pipeline is set again and serve as flow channel by the fluid passage 11 in the slim shell block 10, except that can absorbing heat and reduce the height of single unit system, therefore be slimming, so can directly be attached on the thermal source 4, and can not increase too many height, therefore can increase its applicable scope, be particularly useful for the heat radiation of ultra-thin mobile computer.

Claims

1. the pumping plant of a radiation system is characterized in that,

The pumping plant of described radiation system is at a slim seat that sets up, by end face downwards and be concaved with one and be installed with the space, this is installed with the space is a groove, make this slim seat that sets up around this groove, be formed with a thin framework, be formed with a diapire in this bottom that is installed with the space, run through at the central position of this diapire and to be provided with liquid-through hole, at this diapire is central point and apart from liquid-through hole one suitable distance with the liquid-through hole, convex with a vane rotor and set up the ring edge, to be installed with the space, the stator that separates out a periphery sets up the space, in the vane rotor that encloses set up the space, this diapire convexes with a water inlet flange in the both sides that this vane rotor sets up the ring edge, one water outlet flange, connect this water outlet flange and be provided with a liquid outlet channel, and run through this vane rotor to set up the ring edge and be communicated to vane rotor and set up the space one fluid-through port is arranged, protrude the frame wall one liquid outlet is arranged, and this water inlet flange protrusion frame wall has a liquid entering hole, by liquid entering hole, the local water inlet flange that connects has a horizontal liquid inlet channel again and connect diapire one vertical liquid inlet channel is arranged downwards, be parallel to into water flange, the a pair of corresponding frame wall of water outlet flange and vane rotor set up the intermarginal stator of ring and set up the place, space, the location is provided with a pair of stator poles symmetrically, each stator poles has prolate coiling section, on prolate coiling section and be wound with coil, in vane rotor sets up the space and install into rotor and blade, rotor center is provided with rotating shaft, blade then is mounted on the rotor, blade is towards the central position liquid-through hole of diapire and can rotates freely in vane rotor sets up the space, vane rotor sets up ring edge main header casing group one closing cap, to set up the certain isolation in space with this stator.

2. the pumping plant of radiation system according to claim 1 is characterized in that,

This coil, blade, water inlet flange and water outlet flange all are to be located on the same horizontal plane of diapire, to reduce the pumping plant integral thickness.

3. the pumping plant of radiation system according to claim 1 and 2 is characterized in that,

This slim seat bottom of setting up, more be provided with a radiator, this radiator is the slim shell block that has fluid passage and open-top for, this slim shell block be for the high thermal conductivity material made, it is to have a bottom surface, this fluid passage is the eddy current shape and has an outer peripheral end passway and central passage mouth, and this central passage mouth also is connected with the slim central position liquid-through hole that sets up a diapire, and this outer peripheral end passway also is connected with the slim vertical liquid inlet channel of seat that sets up.

4. the pumping plant of radiation system according to claim 3 is characterized in that,

The high thermal conductivity material of this slim shell block is to be metallic material.

5. the pumping plant of radiation system according to claim 4 is characterized in that,

Liquid is through horizontal liquid inlet channel, vertical liquid inlet channel by a slim liquid entering hole that sets up, via radiator outer peripheral end passway, through fluid passage by central passage mouth, a slim diapire liquid-through hole that sets up, send into and fill this vane rotor and set up the space, by the effect of blade rotating centrifugal with its do disturbance force to form flow of fluid and fast toward vane rotor set up ring edge fluid-through port, liquid outlet channel is sent by liquid outlet.

6. the pumping plant of radiation system according to claim 5 is characterized in that,

This liquid can adopt the aqueous solution.

7. the pumping plant of radiation system according to claim 6 is characterized in that,

This aqueous solution can be pure water.