CN206136545U - Log raft unit and device thereof - Google Patents

Abstract

The utility model provides a log raft unit and device thereof, including a body and a working fluid and a first plate body and a second plate body and a pumping, this body piles up the combination by the lamellar first lamellar body of plural number and second lamellar body and third lamellar body and constitutes runner group and a conversion groove and a first recess and a second recess, a this conversion groove and a blocking part define a first region and a second area with this body, it constitutes a first water conservancy diversion way and a second water conservancy diversion way to pile up the combination in this annular form transition zone outside, the wall of the wall of this first water conservancy diversion way and the conversion cell wall face of this second area and this second water conservancy diversion way is seted up plural first perforation and second perforation and third respectively and is perforated, this working fluid packs in this internally, first, two plate bodys paste the both sides of establishing this body respectively, and this pumping inserts that locate on this first plate body and the inslot is changed in this to the holding.

Description

Water arranges unit and its device

【Technical field】

This utility model relates to a kind of water row's unit and its device, espespecially a kind of to reduce thermal impedance and be substantially improved Water row's unit of heat exchanger effectiveness and its device.

【Background technology】

Heat abstractor is very universal in modernization sci-tech product application, especially in the industry application such as computer, information and communication More extensive, due to having many precision electronic elements in sci-tech product, therefore its running stability is extremely important, particularly dissipates Thermal effect is even more important.

It is at present common to be mountable on various electronic components it and have the heat abstractor of radiating effect, and on the heat abstractor Side is provided with fan assembly, and the heat of heat sink interior is dispelled, the effect of radiating.In general, the electronics of higher-order Device would generally adopt water-cooled arranging device, and using working fluid, the forced circulation under the drive of pumping takes away water-cooled row's dress to its principle The heat put, has the advantages that quiet, cooling is stable, little to condition depended compared with air-cooled.

In details of the words, Fig. 8 is referred to, the water-cooled arranging device 1 is comprising plural number in the radiating fin 10 for turning around shape, plural current Flat tube 11 is spaced and two side water tanks 12 are constituted, and the grade radiating fin 10 is located between the grade flat tube 11, and this etc. Radiating fin 10 in turn around shape and with inflection point outside with correspondence it is adjacent this etc. flat tube 11 outside between be through scolding tin welding Form, the two contact (contact of non-face) only a little, aforementioned two side water tank 12 with mutually weld after the grade radiating fin 10 with The both sides of the grade flat tube 11 are also to be welded through scolding tin, make the two sides water tank 12 and the grade radiating fin 10 and this etc. flat tube 11 connect and compose the water-cooled arranging device 1, and wherein there is the water-cooled arranging device 1 water inlet 13 and an outlet 14 to connect respectively Two water conduit (not shown), aforementioned radiating fin 10 and current flat tube 11 and water tank 12 must be transmitted through soldering by each portion Part seals against each other engagement, welding be it is a kind of with the manufacturing process of mode of heating jointing metal or other thermoplastics such as plastics and Technology, but when the molten filler that the process welded is added is in heating, the molten filler for often having fusing flows out and blockage Shunting body gateway seals unreal segment fluid flow when causing fluid to run and has a phenomenon of spilling, or fusing melts filler in hard Residue biscuit causes the not good phenomenon of the outward appearance of water-cooled arranging device 1 during change.

Furthermore, it is known that thereon heat can conduct to the grade radiating hydraulic fluid in the grade flat tube 11 of water-cooled arranging device 1 Radiate on fin 10, but extend another problem, be exactly that the heat of hydraulic fluid is conducted to the heat of the grade radiating fin 11 Transfer efficiency is not good, because the grade radiating fin 10 and the grade flat tube 11 are that two stand-alone assemblies are welded through scolding tin, so should It is not the grade flat tube 11 part of itself Deng radiating fin 10 so that the grade flat tube 11 conducts heat to the grade heat radiating fin Thermal chocking is had between piece 10, to cause the grade flat tube 11 heat for absorbing water-cooled liquid to be conducted to the both sides grade heat radiating fin Heat conduction efficiency on piece 10 is not good, and then causes the solution thermal efficiency of whole water-cooled row 1 to reduce (or heat exchanger effectiveness reduction) Problem.Further, since the grade radiating fin 10 is mutually welded with the outside of flat tube 11 of both sides through the outside of inflection point, this etc. is made The middle part structural strength of radiating fin 10 is more weak, the problem easily collided by external force and damage (such as deform), And wait flat tube 11 and this etc. thermal conduction effect between radiating fin 10 it is also very preferable not to the utmost.

The manufacture method of water-cooled arranging device 1 known in addition also must overspending man-hour and production cost, and manufacture step It is rapid very complicated, and because the water-cooled arranging device 1 needs soldering so that numerous and diverse on processing procedure is assembled and when also quite spending Between and manpower problem, the doubt of leak is tended to have in addition.

【Utility model content】

So far, it is the above-mentioned problem of effectively solving, the main purpose of this utility model is to provide one kind to improve known Water row's unit of thermal impedance problem.

The secondary objective of this utility model, is to provide a kind of row of the water with polynary flexible design unit.

The secondary objective of this utility model, is to provide water row's unit that one kind can be substantially improved heat exchanger effectiveness.

It is that up to above-mentioned purpose, this utility model provides a kind of water and arranges unit, including a body and a working fluid and one the One plate body and one second plate body and a pumping, the body by plural flake the first lamellar body and the second lamellar body and the 3rd lamellar body heap Folded to be constituted, first, second and third lamellar body has respectively plural first strip guiding region and plural second strip guiding region and one Lead with respect to the ring-shaped switch region longitudinal extension arrangement, the strip of grade second ring-shaped switch region, grade the first strip guiding region Stream area extends laterally setting located at the ring-shaped switch region both sides, and the first, second and third lamellar body two ends are recessed with one first respectively Hole and one second shrinkage pool, the aforementioned structure correspondence stacked combination of first, second and third lamellar body constitutes an each runner group and a conversion groove And one first groove and one second groove, each runner group has spaced plural first flow and plural second flow channel, often Define a fin portion between one first and second runner jointly, the second strip guiding region define jointly a spacer portion and with it is described Conversion groove defines a first area and a second area jointly, and one first bending shape guiding region is formed at first and second lamellar body Ring-shaped switch region outside and correspondence stacked combination composition one first honeycomb duct, and with this etc. first flow and first groove It is arranged at the first area and is interconnected, one second bending shape guiding region is formed at the ring-shaped of first, second and third lamellar body Switch region outside and correspondence stacked combination one second honeycomb duct of composition, and with this etc. second flow channel and second groove be arranged at this Second area and it is interconnected, second lamellar body is formed with one of through hole toroidal membrane at the ring-shaped switch region, And a water containing chamber room is defined jointly between the 3rd lamellar body, the wall of first honeycomb duct opens up the perforation connection of plural number first institute First flow is stated, the conversion trough wall surface of the second area opens up the perforation connection of plural number second second honeycomb duct, this second is led The wall of runner opens up the perforation connection second flow channel of plural number the 3rd, and the working fluid is filled in this in vivo, and described the One plate body and the second plate body are attached at respectively the both sides of the body, and the pumping is inserted on first plate body and is placed in described turning Change in groove, and the pumping has plural flabellum, the pumping drives the working fluid to be circulated in the body interior.

It is that, up to above-mentioned purpose, this utility model provides a kind of water arranging device, including water row's unit and a water-cooling head and one First body and one second body, the body stacks institute's group by first lamellar body and the second lamellar body and the 3rd lamellar body of plural flake Into first, second and third lamellar body has respectively plural first strip guiding region and plural second strip guiding region and a ring-shaped Switch region, with respect to the ring-shaped switch region longitudinal extension arrangement, the second strip of grade guiding region sets for grade the first strip guiding region Setting is extended laterally in the ring-shaped switch region both sides, the first, second and third lamellar body two ends have one first shrinkage pool and one second Shrinkage pool, the aforementioned structure correspondence stacked combination of first, second and third lamellar body constitutes an each runner group and a conversion groove and one first recessed Groove and one second groove, each runner group has spaced plural first flow and plural second flow channel, per one first and second stream Define a fin portion between road jointly, the second strip guiding region defines a spacer portion and changes the common boundary of groove with described jointly A fixed first area and a second area, one first bending shape guiding region is formed at the ring-shaped conversion of first and second lamellar body Area outside and correspondence stacked combination one first honeycomb duct of composition, and with this etc. first flow and first groove be arranged at this first Region and it is interconnected, one second bending shape guiding region is formed at the ring-shaped switch region outside of first, second and third lamellar body simultaneously Correspondence stacked combination constitutes one second honeycomb duct, and with this etc. second flow channel and second groove be arranged at the second area and phase Intercommunicated, second lamellar body is formed with one of through hole toroidal membrane at the ring-shaped switch region, and with the described 3rd Define a water containing chamber room between lamellar body jointly, the wall of first honeycomb duct opens up the perforation connection of plural number first first flow, The conversion trough wall surface of the second area opens up the perforation connection of plural number second second honeycomb duct, and the wall of second honeycomb duct is opened If the perforation connection of plural number the 3rd second flow channel, the working fluid is filled in this in vivo, first plate body and second Plate body is attached at respectively the both sides of the body, and the pumping is inserted on first plate body and is placed in the conversion groove, should Pumping has plural flabellum, and the pumping drives the working fluid to be circulated in the body interior, and the water-cooling head has a shell Body, the housing has at least one to hold water portion and a heat exchange interface and a water inlet and an outlet, and the heat exchange interface is arranged In the side of the housing, the entery and delivery port is connected with the appearance water portion, and the two ends of first and second body connect respectively the water Row's unit and the water-cooling head.

Through structure design of the present utility model, by first, second and third lamellar body of plural flake the sheet of composition is stacked Body, and aforementioned each portion's structure is formed in lamination process, improve the known associated components such as radiating fin and water stream channel necessary Being bonded into heat abstractor through welding manner causes the problem of thermal impedance, and heat exchanger effectiveness is substantially improved, and reduces known Time and the shortcoming of production cost that heat abstractor is spent when manufacturing, also there is in addition the characteristic of many flexible design.

【Description of the drawings】

Fig. 1 is the axonometric chart of the first embodiment that this utility model water arranges unit；

Fig. 2A is the three-dimensional exploded view of the first embodiment that this utility model water arranges unit；

Fig. 2 B are the enlarged drawing of the first embodiment that this utility model water arranges unit；

Fig. 3 is the three-dimensional combination figure of the first embodiment that this utility model water arranges unit；

Fig. 4 A are the three-dimensional cutaway view of the first embodiment that this utility model water arranges unit；

Fig. 4 B are the sectional view of the first embodiment that this utility model water arranges unit；

Fig. 5 is the three-dimensional exploded view of the second embodiment that this utility model water arranges unit；

Fig. 6 is the three-dimensional combination figure of the first embodiment of this utility model water arranging device；

Fig. 7 is the top view of the first embodiment of this utility model water arranging device；

Fig. 8 is the axonometric chart of water-cooled arranging device known to this utility model.

【Symbol description】

Water-cooled arranging device 1

Radiating fin 10

Current flat tube 11

Water tank 12

Water inlet 13

Outlet 14

Water arranges unit 2

First lamellar body 21

Second lamellar body 22

Through hole 221

Toroidal membrane 222

Nozzle 223

3rd lamellar body 23

First strip guiding region 241

Second strip guiding region 242

Ring-shaped switch region 25

First bending shape guiding region 251

Second bending shape guiding region 252

First shrinkage pool 261

Second shrinkage pool 262

Connecting portion 27

Body 3

Each runner group 30

First flow 301

Second flow channel 302

Conversion groove 31

First groove 32

Second groove 33

Fin portion 34

Spacer portion 35

First area 351

Second area 352

First honeycomb duct 361

Second honeycomb duct 362

Water containing chamber room 363

First perforation 371

The perforation 373 of second perforation 372 the 3rd

Junction surface 38

Working fluid 4

First plate body 51

First side 511

Second side 512

Second plate body 52

3rd side 521

4th side 522

Enclosed area 523

Open zone 524

Blasthole 525

Apopore 526

Perforation 527

Molectron 53

Pumping 54

Flabellum 541

Water-cooling head 6

Housing 61

Hold water portion 611

Heat exchange interface 612

Water inlet 613

Outlet 614

First body 71

First end 711

Second end 712

Second body 72

3rd end 721

4th end 722

Water arranging device 8

Fan 9

Axle center 91

Impeller 92.

【Specific embodiment】

The above-mentioned purpose and its structure of this utility model and characteristic functionally, will be according to the preferred embodiment of institute's accompanying drawings It is explained.

Refer to Fig. 1,2A, 2B, 3,4A, 4B, be the axonometric chart of the first embodiment of this utility model water row's unit and vertical Body exploded view and enlarged drawing and three-dimensional combination figure and three-dimensional cutaway view, as illustrated, a kind of water row unit 2, including a body 3 and One working fluid 4 and one first plate body 51 and one second plate body 52 and a pumping 54, the body 3 by plural flake first piece The lamellar body 22 of body 21 and second and the stacked combination of the 3rd lamellar body 23 are formed, in other words, first, second and third lamellar body 21,22,23 For the out of the ordinary stacking of laminar lamellar body more than two panels, and again by the stacked combination out of the ordinary into first, second and third lamellar body 21st, 22,23 again row combination to form the body 3, first, second and third lamellar body 21,22,23 may be selected aluminum or copper or ferrum or Titanium or rustless steel or other metal material any of which are made, and have plural number the respectively per one first, second and third lamellar body 21,22,23 One strip guiding region 241 and the ring-shaped switch region 25 of plural second strip guiding region 242 and, the first strip of grade guiding region 241 relative longitudinal extension arrangements of ring-shaped switch region 25, the second strip of grade guiding region 242 is located at the ring-shaped switch region 25 Corresponding both sides and extend laterally setting, the two ends per one first, second and third lamellar body 21,22,23 have one first shrinkage pool 261 And one second shrinkage pool 262, the aforementioned structure correspondence stacked combination per one first, second and third lamellar body 21,22,23 constitutes an each runner group 30 and the conversion groove 32 of groove 31 and 1 first and one second groove 33, each runner group 30 has spaced plural number first-class Road 301 and plural second flow channel 302, per defining a fin portion 34 between one first and second runner 301,302 jointly, described second Strip guiding region 242 defines a spacer portion 35 and the body 3 is divided into into two parts with the conversion groove 31 jointly, makes the body 3 divide into a first area 351 and a second area 352, and one first bending shape guiding region 251 is formed at described first and second The outside of ring-shaped switch region 25 of body 21,22 and correspondence stacked combination constitute one first honeycomb duct 361, and with this etc. it is first-class Road 301 and first groove 32 are arranged at the first area 351 and are interconnected, and one second bending shape guiding region 252 is formed at The outside of ring-shaped switch region 25 of first, second and third lamellar body 21,22,23 and correspondence stacked combination one second water conservancy diversion of composition Road 362, and with this etc. second flow channel 302 and second groove 33 be arranged at the second area 352 and be interconnected, described second Lamellar body 22 is formed with an one of through hole 221 toroidal membrane 222 at the ring-shaped switch region 25, and with the 3rd lamellar body 23 Between define a water containing chamber room 363 jointly, the working fluid 4 is filled in the body 3；

Wherein, first, second and third lamellar body 21,22,23 is with more plural connecting portion 27 (as shown in Figure 2 B), and its is horizontal It is arranged between first and second runner 301,302 and in being staggered and is arranged at first, second and third lamellar body 21,22,23 On, and the two ends of the connecting portion 27 are connected with each other with the fin portion 34, the grade connecting portion 27 is in arrow-like in the present embodiment Structure, but do not regard it as and be limited, when actually implementing, can be according to the shape of connecting portion 27 described in user Demand Design, can Select as strip or bending or other geometries etc.；

In addition, first and second runner 301,302 can linearly type or flexure type, in other words, the grade first flow 301 are gradually curved inward by the conversion groove 31 towards first groove 32, and the second flow channel such as this 302 is by the conversion groove 31 towards this Second groove 33 is gradually curved inward, and in one embodiment, the grade first flow 301 is first recessed towards this by the conversion groove 31 Gradually it is bent outwardly at groove 32, the second flow channel such as this 302 is gradually bent outwardly by the conversion groove 31 towards at second groove 33, That is, the shape of first and second runner 301,302 can be converted according to the design of user and demand.

The wall of first honeycomb duct 361 offers the connection first flow 301 of the perforation of plural number first 371, and this The wall of conversion groove 31 in two regions 352 offers the connection of the perforation of plural number second 372 second honeycomb duct 362, second water conservancy diversion The wall in road 362 opens up the connection of the perforation of plural number the 3rd 373 second flow channel 302；

First, second and third perforation 371,372,373 radially provide respectively wall in first honeycomb duct 361, the The wall of the conversion of two region 352 groove 31 and the wall of the second honeycomb duct 362, wherein, described second and third perforation 372,373 has One difference in height, is higher than at 373 set locations of perforation of grade the 3rd, to make the workflow at 372 set locations of perforation of grade second After body 4 can first be collected when flowing into second honeycomb duct 362, then institute is flowed to via the 3rd perforation 373 for being arranged at lower State second flow channel 302；

The first aforementioned plate body 51 has one first side 511 and one second side 512, and second side 512 corresponds to and the body 3 One of side seal combine, second plate body 52 has one the 3rd side 521 and one the 4th side 522, the correspondence of the 4th side 522 and this Another side seal of body 3 is combined, and first and second plate body 51,52 is more formed with an enclosed area 523 and an open zone 524, described Enclosed area 523 is corresponding to be formed at the conversion groove 32 of groove 31 and first and the second groove 33 and first and second runner 301,302 At position, the open zone 524 is corresponding to be formed at the conversion groove 32 of groove 31 and first and the second groove 33 and first and second runner 301st, at some locations beyond 302, in other words, the enclosed area 523 makes the conversion groove of groove 31 and first and second and the First, two runners 301,302 are completely enclosed closely sealed, make water row's unit 2 inside working fluid 4 can portion's smooth operation in the inner, In one embodiment, first and second plate body is alternatively a complete lamellar body (not shown) without any structure, equally also can reach To aforementioned effect.

The two ends of the second aforementioned plate body 52 open up respectively a blasthole 525 and an apopore 526, the phase of blasthole 525 At first groove 32 and coupled logical to being arranged at, the apopore 526 is relatively arranged at second groove 33 simultaneously Coupled logical, aforementioned blasthole 525 and apopore 526 is not limited with one, and this goes out, the quantity of blasthole 525 can be according to Design and demand according to user is adjusted and converts.

The pumping 54 is arranged in the conversion groove 31, and the pumping 54 has plural flabellum 541, and the pumping 544 drives The working fluid 4 is circulated inside the body 3.

Refer to Fig. 5 and refer to Fig. 1,2A in the lump, be the stereo decomposing of the second embodiment of this utility model water row's unit The corresponding relation of figure, water row's unit portion of element and interelement is identical with aforementioned water row's unit, therefore here is no longer gone to live in the household of one's in-laws on getting married State, only this water row unit is more to form one in the both sides of first, second and third lamellar body 21,22,23 with aforementioned main difference Depressed part, depressed part overlapping combination constitutes a junction surface 38, and the body 3 pairs group should set a combination at the position of junction surface 38 Part 53, is mounted on the junction surface 38 of the body 3 that (group sets mode and can directly fasten, and also can pass through lock through the molectron 53 Primordial QI reinforcing part is locked in molectron 53 on the body 3), the intensity of the body 3 can be increased, also may be used to protect body.

Refer to Fig. 6,7 and in the lump refering to Fig. 2A, 4A, 4B, be that the first embodiment of this utility model water arranging device is vertical Body constitutional diagram and top view, as illustrated, a kind of water arranging device, including water row's water-cooling head 6 of unit 2 and one and one first body 71 and corresponding relation and aforementioned water row's phase of unit 2 of one second body 72, water row's portion of element of unit 2 and interelement Together, thus will not be described here, aforementioned water-cooling head 6 has a housing 61, and the housing 61 has at least one, and to hold water portion 611 and hot The water inlet 613 of interface 612 and one and an outlet 614 are exchanged, the heat exchange interface 612 is arranged at the side of the housing 61, institute State entery and delivery port 613,614 to be connected with the appearance water portion 611, first body 71 has a first end 711 and one second end 712, the first end 711 connects the water inlet 613 of the water-cooling head 6, and second end 712 connects the apopore of second plate body 52 526, second body 72 has one the 3rd end 721 and one the 4th end 722, and the 3rd end 721 connects the water outlet of the water-cooling head 6 Mouth 614, the 4th end 722 connects the blasthole 525 of second plate body 52.

Through the structure design of the water arranging device 8, with an electronic installation phase at the heat exchange interface 612 of the water-cooling head 6 Contact (not shown), in the side of the relative water row's unit 2 of the water arranging device 8 fan 9 is equiped with, described when running The heat exchange interface 612 of water-cooling head 6 is absorbed first after the heat of electronic installation, through the Jing of working fluid 4 in the appearance water portion 611 Flowed to the second body 72 by the outlet 614 of the water-cooling head 6 and flow into water row's unit 2, and the second plate of unit 2 is arranged through the water The blasthole 525 of body 52 is flowed to after the first groove 32 and first flow 301 in the body 3, then through the described first perforation 371 First honeycomb duct 361 is flowed into, then the working fluid 4 can converge into the water containing chamber room 363, then through the through hole 221 The conversion groove 31 is flowed to, now the working fluid 4 can be saturating by the working fluid 4 by the pumping 54 being arranged in conversion groove 31 Cross the perforation of grade second 372 to drive to second honeycomb duct 362, then be guided to working fluid 4 through the perforation of this etc. the 3rd 373 The second flow channel 302, then flow to again second groove 33, and the working fluid 4 can pass through the fan 9 in this stage Setting reduce the temperature of working fluid 4, working fluid 4 after cooling can flow via the apopore 526 of second plate body 52 To the first body 71, finally via the first body 71 water inlet 613 of the water-cooling head 6 is flow to complete heat exchange circulation again, therefore Through the structure of this utility model water arranging device 8, the associated components such as known radiating fin and water stream channel can be improved and be must be transmitted through Welding manner is bonded into heat abstractor causes the problem of thermal impedance, and the efficiency of heat exchange is substantially improved, in addition, can also be big Width reduces the shortcoming of the time and production cost spent when known heat abstractor is manufactured.

In in one embodiment, a nozzle (not shown) can be set, the nozzle connects the appearance on aforementioned through hole 221 Water chamber 363 and the conversion groove 31, to make the working fluid 4 to produce one when flowing to the conversion groove 31 by the water containing chamber room 363 Impulsive force.

In in one embodiment, the pump of unit 2 is arranged in the axle center of aforementioned fan 9 through second plate body 52 and with the water The group that is connected of Pu 54 sets (not shown), in other words, in the present embodiment, it is only necessary to can simultaneously drive the wind through a motor Fan 9 and water arrange unit 2 to make the overall smooth operation of water arranging device 8, enter to complete the effect of heat exchange circulation.

The above, this utility model is compared to known with following advantages：

1. known thermal impedance problem is improved；

2. production cost and manufacturing man-hours are reduced；

3. heat exchanger effectiveness is substantially improved；

4. there is the characteristic of polynary flexible design.

Below this utility model has been described in detail, only the above, only one of this utility model is preferably implemented Example, when the scope that can not limit this utility model enforcement.I.e. all impartial changes made according to this utility model application range With modification etc., all should still belong to the patent covering scope of this utility model.

Claims (12)

1. a kind of water arranges unit, it is characterised in that include：

One body, is made up of first lamellar body and the second lamellar body and the 3rd lamellar body stacking of plural flake, described first and second, Three lamellar bodies have respectively plural first strip guiding region and plural second strip guiding region and a ring-shaped switch region, the grade first With respect to the ring-shaped switch region longitudinal extension arrangement, the second strip of grade guiding region is located at the ring-shaped switch region for strip guiding region Both sides extend laterally setting, and the first, second and third lamellar body two ends have respectively one first shrinkage pool and one second shrinkage pool, and described the First, the aforementioned structure correspondence stacked combination of two, three lamellar bodies constitutes an each runner group and a conversion groove and one first groove and one second Groove, each runner group has spaced plural first flow and plural second flow channel, per common between one first and second runner Define a fin portion, a spacer portion is defined and with the conversion groove by the body defining 1 the in the second strip guiding region jointly One region and a second area, one first bending shape guiding region is formed at the ring-shaped switch region outside of first and second lamellar body And correspondence stacked combination constitutes one first honeycomb duct, and with this etc. first flow and first groove be arranged at the first area and It is interconnected, one second bending shape guiding region is formed at the ring-shaped switch region outside of first, second and third lamellar body and correspondence heap Stacked group is closed and constitutes one second honeycomb duct, and with this etc. second flow channel and second groove be arranged at the second area and mutually interconnect Logical, second lamellar body is formed at the ring-shaped switch region has one of through hole toroidal membrane, and with the 3rd lamellar body Between define a water containing chamber room jointly, the wall of first honeycomb duct opens up the perforation connection of plural number first first flow, and this The conversion trough wall surface in two regions opens up the perforation connection of plural number second second honeycomb duct, and the wall of second honeycomb duct opens up multiple The perforation connection of number the 3rd second flow channel；

One working fluid, is filled in this in vivo；

One first plate body, the side of the body that is sticked；

One second plate body, the opposite side of the body that is sticked；And

One pumping, is inserted on first plate body and is placed in the conversion groove, and the pumping has plural flabellum, and the pumping is driven Move the working fluid to be circulated in the body interior.

2. water according to claim 1 arranges unit, it is characterised in that the lamellar body laterally sets with more plural connecting portion It is placed between each runner group, and the two ends of the connecting portion are connected with the fin portion.

3. water according to claim 1 arranges unit, it is characterised in that first plate body has one first side and one second The side seal of one of side, second side correspondence and the body is combined, second plate body with one the 3rd side and one the 4th side, the 4th Side correspondence is combined with another side seal of the body.

4. water according to claim 1 arranges unit, it is characterised in that the two ends of second plate body open up respectively one and enter water Hole and an apopore, the blasthole is relatively arranged on first groove and coupled logical, and the apopore is relatively arranged on Second groove is simultaneously coupled logical.

5. water according to claim 1 arranges unit, it is characterised in that described to wait lamellar body to select aluminum or copper or ferrum or titanium or not Rust steel or other metal material any of which are made.

6. water according to claim 1 arranges unit, it is characterised in that described to wait lamellar body both sides more to form a depressed part, should Depressed part overlapping combination constitute a junction surface, the body to should the junction place of putting group set a molectron.

7. water according to claim 1 arranges unit, it is characterised in that first plate body and second plate body are more formed with One enclosed area and an open zone, the enclosed area is corresponding to be formed at the conversion groove and first and second groove and first and second runner At position, the open zone is corresponding to be formed at conversion groove and the first groove and the second groove and the portion beyond first and second runner At part position.

8. water according to claim 1 arranges unit, it is characterised in that the linear type of the runner of grade first and second or bending Type.

9. water according to claim 1 arranges unit, it is characterised in that described second and third perforation has a difference in height, this etc. It is higher than at the perforation set location of grade the 3rd at second perforation set location.

10. a kind of water arranging device, it is characterised in that include：

One water arranges unit, comprising：

One body, is made up of first lamellar body and the second lamellar body and the 3rd lamellar body stacking of plural flake, described first and second, Three lamellar bodies have respectively plural first strip guiding region and plural second strip guiding region and a ring-shaped switch region, the grade first With respect to the ring-shaped switch region longitudinal extension arrangement, the second strip of grade guiding region is located at the ring-shaped switch region for strip guiding region Both sides extend laterally setting, and the first, second and third lamellar body two ends have respectively one first shrinkage pool and one second shrinkage pool, and described the First, the aforementioned structure correspondence stacked combination of two, three lamellar bodies constitutes an each runner group and a conversion groove and one first groove and one second Groove, each runner group has spaced plural first flow and plural second flow channel, per common between one first and second runner A fin portion is defined, the second strip guiding region defines a spacer portion and defines one first area jointly with the conversion groove jointly Domain and a second area, one first bending shape guiding region is formed on the outside of the ring-shaped switch region of first and second lamellar body and right Answer stacked combination to constitute one first honeycomb duct, and with this etc. first flow and first groove be arranged at the first area and mutually Connection, one second bending shape guiding region is formed at the ring-shaped switch region outside of first, second and third lamellar body and correspondence stacked group Close and constitute one second honeycomb duct, and with this etc. second flow channel and second groove be arranged at the second area and be interconnected, institute State the second lamellar body to be formed at the ring-shaped switch region with one of through hole toroidal membrane, and it is common between the 3rd lamellar body A water containing chamber room is defined, the wall of first honeycomb duct opens up the perforation connection of plural number first first flow, the second area Conversion trough wall surface open up perforation connection second honeycomb duct of plural number second, the wall of second honeycomb duct opens up plural number the 3rd The perforation connection second flow channel；

One working fluid, is filled in this in vivo；

One first plate body, the side of the body that is sticked；

One second plate body, the opposite side of the body that is sticked；

One pumping, is inserted on first plate body and is placed in the conversion groove, and the pumping has plural flabellum, and the pumping is driven Move the working fluid to be circulated in the body interior；

One water-cooling head, with a housing, the housing has at least one appearance water portion and a heat exchange interface and a water inlet and one goes out The mouth of a river, the heat exchange interface is arranged at the side of the housing, and the entery and delivery port is connected with the appearance water portion；

One first body, with a first end and one second end, the first end connects the water inlet of the water-cooling head, and second end connects Connect second groove；And

One second body, with one the 3rd end and one the 4th end, the outlet of the three-terminal link water-cooling head, the 4th end connects Connect first groove.

11. water arranging devices according to claim 10 a, it is characterised in that nozzle is more provided with the through hole, it is described Nozzle connects the water containing chamber room and the conversion groove.

12. water arranging devices according to claim 10, it is characterised in that with more a fan, it is installed in the water row The side of unit, the axle center of the fan group that is connected with the pumping sets.