CN108012508A - Multiple port interlayer liquid-cooling heat radiation structure - Google Patents

Abstract

The present invention provides a kind of multiple port interlayer liquid-cooling heat radiation structure, includes a top plate；One bottom plate is opposite with the top plate to cover；One substrate, it is arranged between the top plate and the bottom plate, the substrate has a upside and a downside and an at least connected unit, liquid chamber on one is defined in the top plate and the upside jointly, liquid chamber is defined in the bottom plate and the downside jointly, which connects the upper and lower liquid chamber so that a working fluid circulates through the upper and lower side；And plural communication channel, each communication channel respectively there is a connected entrance to connect entrance or outlet that the upper and lower liquid chamber forms the working fluid.

Description

Multiple port interlayer liquid-cooling heat radiation structure

Technical field

The present invention relates to field of radiating, a kind of multiple port interlayer liquid-cooling heat radiation structure of internal pump is referred in particular to.

Background technology

At present, liquid-cooling heat radiator is widely used in the industries such as communication, electric appliance, automobile, building, for manufacturing various zero Component and manufactured goods.For computer in running, many built-in components can produce a large amount of thermal energy, therefore good cooling system is to determine One big key factor of computer operational effectiveness and reliability.Among all elements that can be generated heat, generally with live load most Central processing unit (CPU) and drawing wafer processor (GPU) of height etc. the two heat dissipation problem it is the most intractable.It is especially current each The picture of class computer game is more and more fine and smooth, and the function of computer-aided drawing software is also increasingly powerful, and this kind of software is in running Often allow central processing unit and drawing wafer processor to be in higher load condition, while also result in substantial amounts of thermal energy production It is raw, if these thermal energy cannot effectively disperse, gently cause the efficiency of central processing unit or drawing wafer processor to decline, seriously When be more likely to cause the damage of central processing unit or drawing wafer processor or service life to be greatly reduced.

Referring to Fig. 1, in order to reduce the operating temperature of heat-generating electronic elements, generally water-cooled device is existing by one on the market Water cooling row 1 connects to paste the water-cooling head 5 and a water pump of a tactile heater element (such as central processing unit) by two water conduits 51 (Pump) 6, by water pump (Pump) 6 drive water cooling liquid (or working fluid) flow to water cooling row 1 on heat dissipation and constantly into Row circulating cooling, quickly to remove heat.Existing water cooling row 1 is by plurality of radiating fins 11,12 and two side water tank 13 of plural flat tube Formed, these described radiating fins 11 are arranged between these described vertical bar shape flat tubes 12, and foregoing two side water tank 13 and the both sides of these described radiating fins 11 and these vertical bar shape flat tubes 12 are welded by scolding tin, and order should Two side water tanks 13 connect and compose the water cooling row 1 with these described radiating fins 11 and these described vertical bar shape flat tubes 12, And wherein side water tank 13 is equipped with a water inlet 131 and a water outlet 132, the water inlet 131 and water outlet 132 respectively to Opposite two water conduits 51 of connection.

Due to after the working fluid that the water inlet 13 flows into is in the side water tank 13, from these described vertical bar shape flat tubes Quick straight through flow is passed through into opposite side water tank 13 in 12, then again by quick straight through flow in these described vertical bar shape flat tubes 12 Through in road side water tank 13, then being discharged by the water outlet 132, so the working fluid with heat enters water cooling row 1 Interior flowing time is too short, and the opposite working fluid made with heat is made heat exchanger time with water cooling row and also do not grown, existing to cause There is water cooling row bad to the antipyretic response of the working fluid with heat, in turn result in the problem of radiating efficiency is bad.In addition, by It can not make structural adjustment change in response to the space in an electronic device in the overall structure of existing water cooling row so that be positioned over an electricity When sub-device (such as computer or servomechanism) is interior, which asks supply that the discharge of existing water cooling puts Topic.

It is phase of the inventor of this case with being engaged in the industry therefore how to solve the problems, such as above-mentioned existing and missing Shutout business is desired most ardently where the direction that research improves.

The content of the invention

The purpose of the present invention, is providing a kind of solution thermal efficiency good multiple port interlayer liquid-cooling heat radiation structure.

Another object of the present invention, is providing a kind of knot for stacking by wall and putting and runner being equipped with liquid chamber Structure designs so that (or extend) working fluid is effectively increased in the flowing time in multiple port interlayer liquid-cooling heat radiation structure, With the multiple port interlayer liquid-cooling heat radiation structure of effective improving heat radiation efficiency.

In order to achieve the above object, present invention system provides a kind of multiple port interlayer liquid-cooling heat radiation structure, comprising：One top plate；One Bottom plate is opposite with the top plate to cover；One substrate, is arranged between the top plate and the bottom plate, and the substrate is with a upside and once Liquid chamber on one is defined in side and at least a connected unit, the top plate and the upside jointly, and the bottom plate and the downside are defined jointly Liquid chamber once, an at least connected unit connect the upper and lower liquid chamber for a working fluid stream through the upper and lower side It is logical；And plural communication channel, each communication channel connect the upper and lower liquid chamber with a connected entrance respectively and form the working fluid Entrance or outlet.

In one implements, which is provided with a lower flow channel, which, which turns around, is formed in the substrate with respect to this The downside of lower liquid chamber, guides the flow path of the working fluid, and liquid chamber is provided with a upper runner on this, the upper runner Turn around and be formed in upside of the substrate with respect to liquid chamber on this, guide the flow path of the working fluid.

In one implements, which has one first communication channel and one second communication channel, first communication channel, the One first connected entrance, the second connected entrance of two communication channels are respectively communicated with the lower liquid chamber, and the one the 3rd of a third connecting road Connected entrance connects liquid chamber on this.

One implement in, further include a pump be arranged on liquid chamber on this, the lower liquid chamber or the plural number communication channel its In it is any.

In one implements, which is provided with the one first channels separated lower liquid chamber and forms one first liquid Fluid chamber and a second liquid chamber, on this liquid chamber be provided with one second channels separated on this liquid chamber form one the Three liquid chambers and one the 4th liquid chamber.

In one implements, which has one first connected unit and one second connected unit, this first Connected unit connects first liquid chamber and the 3rd liquid chamber, second connected unit connect the second liquid chamber and 4th liquid chamber.

In one implements, which has one first communication channel, one second communication channel, a third connecting road and one 4th communication channel, one first connected entrance of first communication channel connect first liquid chamber, and the one second of second communication channel Connected entrance connects the second liquid chamber, and the third connecting mouth in the third connecting road connects the 3rd liquid chamber, and this One the 4th connected entrance of four communication channels connects the 4th liquid chamber.

In one implements, which is respectively arranged with one first, second, third and fourth runner, this First, two runners, which turn around, is formed in downside of the substrate with respect to the lower liquid chamber, which, which turns around, is formed in the substrate phase To the upside of liquid chamber on this, the flow path of the working fluid is guided.

In one implements, further include one first pump and be arranged on the first and third liquid chamber any of which, and one second pump is set Put in second, the four liquid chamber any of which.

In one implements, which is more provided with one the 3rd channels separated first and second liquid chamber difference Form one the five, the six liquid chamber.

In one implements, which there is one first connected unit, one second connected unit, one the 3rd to connect Logical unit and one the 4th connected unit, first connected unit connect first liquid chamber and the 3rd liquid chamber, this Two connected units connect the second liquid chamber and the 3rd liquid chamber, which connects the 5th liquid chamber And the 4th liquid chamber, the 4th connected unit connect the 6th liquid chamber and the 4th liquid chamber.

In one implements, which has one first communication channel, one second communication channel, a third connecting road and one 4th communication channel, first communication channel connect first liquid chamber, which connects the second liquid chamber, this Tee joint road connects the 5th liquid chamber, and the 4th communication channel connects the 6th liquid chamber.

In one implements, which is respectively arranged with one first, second, third and fourth, five, Six runners, which, which turns around, is formed in side of the substrate with respect to the lower liquid chamber, three, four runner Turn around and be formed in side of the substrate with respect to liquid chamber on this, guide the flow path of the working fluid.

In one implements, further include one first pump and be arranged on the first, second and third liquid chamber any of which, and one second Pump is arranged on fourth, fifth, the six liquid chamber any of which.

In one implements, liquid chamber is more provided with one the 4th channels separated third and fourth liquid chamber difference on this Form one the seven, the eight liquid chamber.

In one implements, which there is one first connected unit, one second connected unit, one the 3rd to connect Logical unit and one the 4th connected unit, first connected unit connect first liquid chamber and the 3rd liquid chamber, this Two connected units connect the second liquid chamber and the 7th liquid chamber, which connects the 6th liquid chamber And the 8th liquid chamber, the 4th connected unit connect the 5th liquid chamber and the 4th liquid chamber.

In one implements, which has one first communication channel, one second communication channel, a third connecting road, one 4th communication channel, one the 5th communication channel, one the 6th communication channel, one the 7th communication channel and an eight connectivity road, first communication channel First liquid chamber is connected, which connects the second liquid chamber, which connects the 4th liquid Chamber, the 4th communication channel connect the 8th liquid chamber, and the 5th communication channel connects the 5th liquid chamber, the 6th connection Road connects the 6th liquid chamber, and the 7th communication channel connects the 3rd liquid chamber, and the eight connectivity road connects the 7th Liquid chamber.

In one implements, which is respectively arranged with one first, second and third, 4th, five, six, seven, eight runner, which, which turns around, is formed in side of the substrate with respect to the lower liquid chamber, Three, four, seven, eight runner, which turns around, is formed in side of the substrate with respect to liquid chamber on this, guides the flowing of the working fluid Path.

In one implements, further include one first pump and be arranged on the first and third liquid chamber any of which, one second pump is set In second, the seven liquid chamber any of which, one the 3rd pump is arranged on the five, the four liquid chamber any of which, and one the 4th Pump is arranged on six, the eight liquid chamber any of which.

Using the above structure, function of the present invention improves radiating efficiency.

The purpose of following schema is to enable the invention to be more easily understood, and can encyclopaedize those schemas in this article, And it is set to form some of specific embodiment.By specific embodiment herein and corresponding schema is referred to, in order to detailed The thin specific embodiment for explaining the present invention, and to illustrate the action principle of invention.

Brief description of the drawings

Fig. 1 is prior-art illustration；

Fig. 2A is the three-dimensional exploded view of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 2 B are another visual angles of three-dimensional exploded view of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 2 C are the three-dimensional combination figures of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 2 D are the partial sectional views of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 3 A are three-dimensional point an of alternate embodiments of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention Xie Tu；

Fig. 3 B are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 3 C are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is local Sectional view；

Fig. 3 D are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is local Sectional view；

Fig. 3 E are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 3 F are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 3 G are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is overlooked Profile；

Fig. 4 A are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 4 B are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 4 C are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 4 D are that another alternate embodiment of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Constitutional diagram；

Fig. 5 A are the three-dimensional exploded views of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 5 B are another visual angles of three-dimensional exploded view of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 5 C are the three-dimensional combination figures of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 5 D are three-dimensional point an of alternate embodiments of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention Xie Tu；

Fig. 5 E are that another alternate embodiment of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 5 F are that another alternate embodiment of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 5 G are that another alternate embodiment of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 6 A are the three-dimensional exploded views of the 3rd embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 6 B are another visual angles of three-dimensional exploded view of the 3rd embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 6 C are the three-dimensional combination figures of the 3rd embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 6 D are three-dimensional point an of alternate embodiments of the 3rd embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention Xie Tu；

Fig. 6 E are that another alternate embodiment of the 3rd embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 6 F are that another alternate embodiment of the 3rd embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is local Profile；

Fig. 6 G are that another alternate embodiment of the 3rd embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is local Profile；

Fig. 7 A are the three-dimensional exploded views of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 7 B are another visual angles of three-dimensional exploded view of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 7 C are the three-dimensional combination figures of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；

Fig. 7 D are three-dimensional point an of alternate embodiments of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention Xie Tu；

Fig. 7 E are that another alternate embodiment of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is three-dimensional Exploded view；

Fig. 7 F are that another alternate embodiment of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is local Profile；

Fig. 7 G are that another alternate embodiment of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention is local Profile.

Description of reference numerals：Multiple port interlayer liquid-cooling heat radiation structure 2；Top plate 21；Upper liquid chamber 22；3rd fluid chamber Room 22a；4th liquid chamber 22b；7th liquid chamber 22c；8th liquid chamber 22d；Upper runner 221；Second separator 222；Third flow channel 223；4th runner 224；4th separator 225；7th runner 226；8th runner 227；Bottom plate 23；Lower liquid Fluid chamber 24；First liquid chamber 24a；Second liquid chamber 24b；5th liquid chamber 24c；6th liquid chamber 24d；Flow down Road 241；First separator 242；First flow 243；Second flow channel 244；3rd separator 245；5th runner 246；6th stream Road 247；Substrate 25；Upside 251；Downside 252；Connected unit 253；First connected unit 2531；Second connected unit 2532；The Tee joint unit 2533；4th connected unit 2534；Pump 26；Storage tank 26a；Another storage tank 26b；First pump 261；Second pump 262；Communication channel 27；First communication channel 271；First connected entrance 271a；Second communication channel 272；Second connected entrance 272a；3rd connects Passage 273；Third connecting mouth 273a；4th communication channel 274；4th connected entrance 274a；5th communication channel 275；5th connected entrance 275a；6th communication channel 276；6th connected entrance 276a；7th communication channel 277；7th connected entrance 277a；Eight connectivity road 278； Eight connectivity mouth 278a；First heat-dissipating space 291；First radiating fin group 2911；First protective shell 2912；Second heat-dissipating space 292；Second radiating fin group 2921；Second protective shell 2922；Side 30；Fan 31；Water cooling module 5；Communicating pipe 51.

Embodiment

The above-mentioned purpose and its structure of the present invention and characteristic functionally, will give according to the preferred embodiment of institute's accompanying drawings Explanation.

Please refer to Fig.2 the three-dimensional exploded view that A is the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；Figure 2B is another visual angle of three-dimensional exploded view of the first embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；Fig. 2 C are this hairs The three-dimensional combination figure of the first embodiment of bright multiple port interlayer liquid-cooling heat radiation structure；Fig. 2 D are multiple port interlayer liquid of the present invention The partial sectional view of the first embodiment of cold radiator structure.As shown in Fig. 2A, Fig. 2 B, multiple port interlayer liquid of the invention is cold to be dissipated Heat structure 2 includes a top plate 21, a bottom plate 23, a substrate 25 and plural communication channel 27.

In the present embodiment, the bottom plate 23 is opposite with the top plate 21 covers, which is arranged at the top plate 21 and the bottom Between plate 23, which has a upside 251 and a downside 252 and at least one connected unit 253, the top plate 21 and the upside 251 define liquid chamber 22 on one jointly, and liquid chamber 24 are defined in the bottom plate 23 and the downside 252 jointly, this is at least One connected unit, 253 system connects the upper and lower liquid chamber 22,24 for a working fluid stream through the upper and lower side 251,252 It is logical.Each communication channel 27 respectively there is a connected entrance to be respectively communicated with the upper and lower liquid chamber 22,24.

In the present embodiment, it is to be expressed as connecting the upper and lower liquid chamber 22,24 with a connected unit 253, and should Plural communication channel 27 be expressed as one first communication channel 271 one first connected entrance 271a and one second communication channel 272 one second Connected entrance 272a is respectively communicated with the lower liquid chamber 24, and first connected entrance, second connected entrance 271a, 272a are the working solutions The entrance of body, an in addition third connecting mouth 273a which is expressed as to a third connecting road 273 are connected on this Liquid chamber 22, and third connecting mouth 273a is the outlet of the working fluid.Conversely, first connected entrance, the second connected entrance 271a, 272a are expressed as the outlet of the working fluid, and third connecting mouth 273a is expressed as the entrance of the working fluid, Can.

As shown in Figure 2 D, the working solution system with heat is flowed into from first connected entrance, second connected entrance 271a, 272a The lower liquid chamber 24, treats that the lower liquid chamber 24 is full of the working fluid, which flows into through the connected unit 253 Liquid chamber 22 on this, and the heat of the working fluid institute band conducts to the top plate 21 and the bottom plate 23 and then radiate scattered Heat.

In an alternative em bodiment, as shown in Figure 3A and with reference to Fig. 2 B, it is provided with the lower liquid chamber 24 Runner 241, which, which turns around, is formed in downside 252 of the substrate 25 with respect to the lower liquid chamber 24, to guide the work The flow path of liquid, the working fluid for high specific heat coefficient liquid for example：Water or pure water etc..And in another alternate embodiment In, as shown in Figure 3B and with reference to Fig. 2A, except being provided with the lower flow channel 241 in the lower liquid chamber 24, while on this Liquid chamber 22 is also equipped with a upper runner 221, which, which turns around, is formed in the substrate 25 with respect to liquid chamber 22 on this Upside 251, guide the flow path of the working fluid.As shown in Fig. 3 C, Fig. 3 D, by setting for the upper and lower runner 221,241 Put, to extend the time of the working fluid 22,24 flowings in the upper and lower liquid chamber, and then extend working fluid and the top The heat exchanger time of plate 21 and the bottom plate 23, therefore the heat of working fluid institute band can sufficiently be conducted to the top plate 21 and is somebody's turn to do Bottom plate 23 radiates.

In addition, in another alternate embodiment, as shown in Fig. 3 E, Fig. 3 F, a pump 26 is arranged in the lower liquid chamber 24 A storage tank 26a in, but be not limited thereto, in other embodiments, which can also be arranged on liquid chamber on this In 22.And in another alternate embodiment, as shown in Figure 3 G, which is arranged on the second connected entrance of second communication channel 272 Near 272a, but it is not limited thereto, in other embodiments, which can also be arranged on the of first communication channel 271 The third connecting mouth 273a of one connected entrance 271a or the third connecting road 273, the pump 26 of the invention can be arranged on any one In chamber or runner.The pump 26 for example removes the impeller comprising an impeller and a drive motor (such as submerged motor or drip-proof motors) Rotate to drive the working fluid to flow.

In another alternate embodiment, as shown in Figure 4 A and with reference to Fig. 2A-Fig. 2 C, the opposite top plate 21 of the bottom plate 23 The void spaces of side there is one first heat-dissipating space 291, the void spaces tool of the side of the opposite bottom plate 23 of the top plate 21 There is one second heat-dissipating space 292.First heat-dissipating space 291 of the side of the opposite top plate 21 of the bottom plate 23 is equipped with one first heat dissipation Fins group 2911, the second heat-dissipating space 292 of the side of the opposite bottom plate 23 of the top plate 21 are equipped with one second radiating fin group 2921, which is made of plurality of radiating fins respectively is lifted with the area for increasing heat exchange Radiating efficiency.

And in another alternate embodiment, as shown in Figure 4 B, it is arranged on first heat radiating fin of first heat-dissipating space 291 Piece group 2911 is equipped with one first protective shell 2912, and the second radiating fin group 2921 for being arranged on second heat-dissipating space 292 is set There is one second protective shell 2922.Rely on, first and second protective shell 2911,2912 protect the first and second radiating fin group 2911, 2921, avoid the first and second radiating fin group 2911,2921 from being deformed by external force collision, influence integral heat sink efficiency.And another In one alternate embodiment, as shown in Fig. 4 C, Fig. 4 D and with reference to Fig. 2 C, the top plate 21, the bottom plate 23, the substrate 25, this One radiating fin group 2911 and the second radiating fin group 2921 define one side 30 jointly, which is provided with an at least wind Fan 31, and be to be expressed as three fans 31 in this alternate embodiment.Again as illustrated in figs. 4 a-4d, the working fluid institute band Heat is conducted to the top plate 21 and the bottom plate 22, then passes through the first radiating fin group 2911 and the second radiating fin group 2921 heat dissipations, by this, at least a fan 31 can strengthen the heat dissipation effect of the first and second radiating fin group 2911,2921. In another alternate embodiment, any of which system of the plural number communication channel 27 docks and connects that to be arranged on the multiple port interlayer liquid cold One water cooling module of the outside of radiator structure 2, the water cooling module system is to contact a pyrotoxin (not illustrating), in the present embodiment In, it is by connecting the plural number communication channel 27 and the water cooling module plural communicating pipe, and then makes the working fluid from the water cooled mo(u)ld The heat that block absorbs the pyrotoxin flows into the multiple port interlayer liquid-cooling heat radiation structure 2, and carries out heat exchange heat dissipation.

And in the first embodiment, the top plate 21, the bottom plate 23, the substrate 25 and 27 system of plural number communication channel are expressed as titanium Material is formed, but is not limited thereto, and the top plate 21, the bottom plate 23, the substrate 25 and the plural number communication channel 27 can also tables It is shown as golden material, silver-colored material, copper material, iron material matter, aluminium material, aluminium alloy or Copper alloy material are formed.

Therefore, the design of the simultaneously sandwiched substrate 25 is mutually covered by the top plate 21 of the invention, the bottom plate 23, makes the top plate 21st, there is larger absorption area directly to contact the heat thereon of the working fluid in conduction flowing, then on the inside of the bottom plate 23 itself By having larger heat dissipation area that the outside Rapid radiating of heat radiates on the outside of the top plate 21, the bottom plate 23 itself, effectively to reach Solution thermal efficiency is good and increases the effect of heat dissipation area；Furthermore it is equipped with upper and lower runner by the upper and lower liquid chamber 22,24 is interior 221st, 241 more effective extra increase (or extension) working fluid flowing time, and then it is effectively increased working fluid and the top plate 21 And the bottom plate 23 makees heat exchanger time in itself；Another person, moreover it is possible to by the first and second radiating fin group 2911,2921 and this at least One fan 31 strengthens heat dissipation effect；Moreover it is possible to protect first and second heat radiating fin by first and second protective shell 2912,2922 Piece group 2911,2921 will not deform when being hit.

Please continue to refer to the stereo decomposing for the second embodiment that Fig. 5 A are multiple port interlayer liquid-cooling heat radiation structure of the present invention Figure；Fig. 5 B are another visual angle of three-dimensional exploded view of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；Fig. 5 C For the three-dimensional combination figure of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；Fig. 5 D are multiple port of the present invention The part sectioned view of the second embodiment of interlayer liquid-cooling heat radiation structure；Fig. 5 E are multiple port interlayer liquid-cooling heat radiation structure of the present invention Second embodiment part sectioned view；Fig. 5 F are the another of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention One alternate embodiment three-dimensional exploded view；Fig. 5 G are the another of the second embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention Alternate embodiment three-dimensional exploded view.As shown in Fig. 5 A, Fig. 5 B, and it is aided with reference to shown in 2A to 2 figure D, the knot in the present embodiment Structure and connection relationship and effect are identical with foregoing first embodiment, and so it will not be repeated, and only the present embodiment is implemented with foregoing first Not the existing together of example ties up to be provided with one first separator 242 in, the lower liquid chamber 24 and separate the lower liquid chamber 24 and is formed solely Vertical non-interference one first liquid chamber 24a and a second liquid chamber 24b, liquid chamber 22 is provided with one second point on this Spacing body 222 separates liquid chamber 22 on this and forms independent non-interference one the 3rd liquid chamber 22a and one the 4th liquid chamber 22b.In the present embodiment, 253 system of an at least connected unit for connecting the upper and lower liquid chamber 22,24 is expressed as having one First connected unit 2531 and one second connected unit 2532, first connected unit 2531 connect first liquid chamber 24a And the 3rd liquid chamber 22a, second connected unit 2532 connect the second liquid chamber 24b and the 4th liquid chamber 22b.And in the present embodiment, which represents with one first communication channel 271, one second communication channel 271, one 273 and 1 the 4th communication channel 274 of third connecting road, one first connected entrance 271a of first communication channel 271 connect first liquid Fluid chamber 24a, one second connected entrance 272a of second communication channel 272 connect second liquid chamber 24b, the third connecting road A 273 third connecting mouth 273a connects the 3rd liquid chamber 22a, and one the 4th connected entrance of the 4th communication channel 274 274a connects the 4th liquid chamber 22b.

The working fluid is by first communication channel, the first connected entrance, the second connected entrance of the second communication channel 271,272 271a, 272a separately flow into first and second liquid chamber 24a, 24b, since first separator 242 is by first and second liquid Chamber 24a, 24b separate, and the working fluid of inflow first and second liquid chamber 24a, 24b is each passed through first and second connection Unit 2531,2532 flows into third and fourth liquid chamber 22a, 22b, and finally the working fluid is respectively from third and fourth communication channel 273rd, 274 third and fourth connected entrance 273a, 274a flows out third and fourth liquid chamber 22a, 22b.In this way, the present embodiment is same Also it can reach and conduct the heat of the working fluid institute band to the top plate 21 and the bottom plate 23, then carry out heat loss through radiation.

In an alternative em bodiment, as shown in Fig. 5 D, Fig. 5 E, first, second, third and fourth liquid chamber 24a, 24b, 22a, 22b is respectively arranged with one first, second, third and fourth runner 243,244,223,224, which turns around to be formed In the downside of the substrate 25 lower liquid chamber 24 relatively, which, which turns around, is formed in the substrate 25 with respect to this The upside of upper liquid chamber 22, guides the flow path of the working fluid.

By the setting of first, second, third and fourth runner 243,244,223,224, with extend the working fluid this First, the time of two, three, four liquid chamber 24a, 24b, 22a, 22b flowings, can equally extend working fluid and the top plate 21 and The heat exchanger time of the bottom plate 23.

In another alternate embodiment, as shown in Fig. 5 F, Fig. 5 G, one first pump 261 is arranged on first liquid chamber 24a In a storage tank 26a in (such as Fig. 5 B), but it is not limited thereto, in other embodiments, which can also be set In the 3rd liquid chamber 22a, and one second pump 262 is arranged on another appearance in second liquid chamber 24b (such as Fig. 5 B) Groove 26b is put, but is not limited thereto, in other embodiments, which can also be arranged on the 4th liquid chamber In 22a, in this way, the working fluid can be driven to flow.

It refer to the three-dimensional exploded view for the 3rd embodiment that Fig. 6 A are multiple port interlayer liquid-cooling heat radiation structure of the present invention；Figure 6B is another visual angle of three-dimensional exploded view of the 3rd embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；Fig. 6 C are this hair The three-dimensional combination figure of the 3rd embodiment of bright multiple port interlayer liquid-cooling heat radiation structure；Fig. 6 D are multiple port interlayer liquid of the present invention One alternate embodiment three-dimensional exploded view of the 3rd embodiment of cold radiator structure；Fig. 6 E dissipate for multiple port interlayer liquid of the present invention is cold Another alternate embodiment three-dimensional exploded view of the 3rd embodiment of heat structure；Fig. 6 F are multiple port interlayer liquid-cooling heat radiation of the present invention Another alternate embodiment three-dimensional exploded view of the 3rd embodiment of structure；Fig. 6 G are multiple port interlayer liquid-cooling heat radiation knot of the present invention Another alternate embodiment three-dimensional exploded view of the 3rd embodiment of structure.As shown in Fig. 6 A, Fig. 6 B, and it is aided with reference to figure 5A to Fig. 5 G Shown, the structure and connection relationship and effect in the present embodiment are identical with foregoing second embodiment, and so it will not be repeated, only this reality Apply example and not existing together for aforementioned second embodiment is tied up in the lower liquid chamber 24 is more provided with one the 3rd separator 245 and separates First and second liquid chamber 24a, 24b form one the five, the six liquid chamber 24c, 24d respectively.In the present embodiment, connection should 253 system of an at least connected unit of upper and lower liquid chamber 22,24 is expressed as with more a third connecting unit 2533 and one the Four connected units 2534, make first connected unit 2531 connect the first liquid chamber 24a and the 3rd liquid chamber 22a, Second connected unit 2532 connects the second liquid chamber 24b and the 3rd liquid chamber 22a, the third connecting unit 2533 The 5th liquid chamber 24c and the 4th liquid chamber 22b is connected, the 4th connected unit 2534 connects the 6th liquid chamber 24d and the 4th liquid chamber 22b.

And in the present embodiment, the first connected entrance 271a of first communication channel 271 connects first liquid chamber 24a, And the first connected entrance 271a systems are expressed as the entrance of the working fluid, the second connected entrance 272a of second communication channel 272 connects Lead to second liquid chamber 24b, and the second connected entrance 272a systems are expressed as the outlet of the working fluid, the third connecting road 273 third connecting mouth 273a connects the 5th liquid chamber 24c, and third connecting mouth 273a systems are expressed as the working fluid Entrance, and the 4th connected entrance 274a of the 4th communication channel 274 connects the 6th liquid chamber 24d, and the 4th connected entrance 273a systems are expressed as the outlet of the working fluid.

The working fluid flows into first liquid chamber 22a by the first connected entrance 271a of first communication channel 271, by First and second liquid chamber 24a, 24b are separated in first separator 242, make the work of inflow first liquid chamber 24a Liquid flows into the 3rd liquid chamber 22a through first connected unit 2531, flows into the workflow of the 3rd liquid chamber 22a Body flows into second liquid chamber 24b then across second connected unit 2532, and connects from the second of second communication channel 272 Port 272a flows out, while another working fluid flows into the 5th liquid by the third connecting mouth 273a in the third connecting road 273 Fluid chamber 24c, due to first separator 242 by the five, the six liquid chamber 24c, 24d separate, make the 5th liquid of inflow The working fluid of chamber 24c flows into the 4th liquid chamber 22b through the third connecting unit 2533, flows into the 4th fluid chamber The working fluid of room 22b flows into the 6th liquid chamber 24d then across the 4th connected unit 2534, and is connected from the 4th The 4th connected entrance 274a outflows in road 274.The heat of the working fluid institute band is passed in this way, the present embodiment equally can also be reached The top plate 21 and the bottom plate 23 are directed at, then carries out heat loss through radiation.

As shown in Fig. 6 D, Fig. 6 E, in an alternative em bodiment, first, second, third and fourth, five, the six liquid chamber 24a, 24b, 22a, 22b, 24c, 24d be respectively arranged with one first, second, third and fourth, five, six runners 243,244,223,224,246, 247, which, which turns around, is formed in the substrate 25 with respect to the lower liquid chamber 24 Downside, which, which turns around, is formed in upside of the substrate 25 with respect to liquid chamber 22 on this, guides the work The flow path of liquid.

As shown in Fig. 6 F, Fig. 6 G, by first, second, third and fourth, five, six runner 243,244,223,224,246,247 The setting of (such as Fig. 6 D, Fig. 6 E), with extend the working fluid first, second, third and fourth, five, the six liquid chamber 24a, 24b, The time of 22a, 22b, 24c, 24d (such as Fig. 6 D, Fig. 6 E) flowing, it can equally extend working fluid and the top plate 21 and the bottom plate 23 heat exchanger time.

Identical with second embodiment, which can be arranged on first, second and third liquid chamber 24a, 24b, 22a A storage tank in, which 262 can be arranged on fourth, fifth, the six liquid chamber 22b, 24c, 24 another storage tank It is interior, in this way, the working fluid can be driven to flow.

Please continue to refer to the stereo decomposing for the fourth embodiment that Fig. 7 A are multiple port interlayer liquid-cooling heat radiation structure of the present invention Figure；Fig. 7 B are another visual angle of three-dimensional exploded view of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；Fig. 7 C For the three-dimensional combination figure of the fourth embodiment of multiple port interlayer liquid-cooling heat radiation structure of the present invention；Fig. 7 D are multiple port of the present invention One alternate embodiment three-dimensional exploded view of the fourth embodiment of interlayer liquid-cooling heat radiation structure；Fig. 7 E are multiple port interlayer of the present invention Another alternate embodiment three-dimensional exploded view of the fourth embodiment of liquid-cooling heat radiation structure；Fig. 7 F are multiple port interlayer liquid of the present invention Another alternate embodiment part sectioned view of the fourth embodiment of cold radiator structure；Fig. 7 G are cold for multiple port interlayer liquid of the present invention Another alternate embodiment part sectioned view of the fourth embodiment of radiator structure.As shown in Figure 7 A, 7 B, and it is aided with reference to figure 6A Shown in Fig. 6 E, the structure and connection relationship and effect in the present embodiment are identical with foregoing 3rd embodiment, and so it will not be repeated, Only the present embodiment and not existing together for aforementioned third embodiment are tied up in liquid chamber 22 is more provided with one the 4th separator on this 225 separation third and fourth liquid chamber 22a, 22b form one the seven, the eight liquid chamber 22c, 22d respectively.And at least one company Logical 253 system of unit is expressed as having one first, second, third and fourth connected unit 2531,2532,2533,2534 at the same time, make this first Connected unit 2531 connects the first liquid chamber 24a and the 3rd liquid chamber 22a, and second connected unit 2532 connection should Second liquid chamber 24b and the 7th liquid chamber 22c, the third connecting unit 2533 connect the 6th liquid chamber 24d and 8th liquid chamber 22d, the 4th connected unit 2534 connection the 5th liquid chamber 24c and the 4th liquid chamber 22b.

And in the present embodiment, the first connected entrance 271a of first communication channel 271 connects first liquid chamber 24a, And the first connected entrance 271a systems are expressed as the entrance of the working fluid, the second connected entrance 272a of second communication channel 272 connects Lead to second liquid chamber 24b, and the second connected entrance 272a systems are expressed as the entrance of the working fluid, the third connecting road 273 third connecting mouth 273a connects the 4th liquid chamber 22b, and third connecting mouth 273a systems are expressed as the working fluid Outlet, and the 4th connected entrance 274a of the 4th communication channel 274 connects the 8th liquid chamber 22d, and the 4th connected entrance 273a systems are expressed as the outlet of the working fluid.

5th connected entrance 275a of the 5th communication channel 275 connects the 5th liquid chamber 24c, and the 5th connected entrance 271a systems are expressed as the entrance of the working fluid, and the 6th connected entrance 276a of the 6th communication channel 276 connects the 6th fluid chamber Room 24d, and the 6th connected entrance 276a systems are expressed as the entrance of the working fluid, the 7th connected entrance of the 7th communication channel 277 277a connects the 3rd liquid chamber 22a, and the 7th connected entrance 277a systems are expressed as the outlet of the working fluid, and the 8th The eight connectivity mouth 278a of communication channel 278 connects the 7th liquid chamber 22c, and eight connectivity mouth 278a systems are expressed as the work Make the outlet of liquid.

The working fluid flows into first liquid chamber 24a by the first connected entrance 271a of first communication channel 271, flows The working fluid for entering first liquid chamber 24a flows into the 3rd liquid chamber 22a through first connected unit 2531, flows into The working fluid of 3rd liquid chamber 22a is then flowed out from the 7th connected entrance 277a of the 7th communication channel 277, while another Working fluid flows into second liquid chamber 24b by the second connected entrance 272a of second communication channel 272, flows into second liquid The working fluid of fluid chamber 24b flows into the 7th liquid chamber 22c through second connected unit 2532, flows into the 7th liquid The working fluid of chamber 22c is flowed out then across the eight connectivity mouth 278a in the eight connectivity road 278.

And another working fluid flows into the 5th liquid chamber by the 5th connected entrance 275a of the 5th communication channel 275 24c, the working fluid for flowing into the 5th liquid chamber 24c flow into the 4th liquid chamber 22b through the 4th connected unit 2534, The working fluid for flowing into the 4th liquid chamber 22b is then flowed out from the third connecting mouth 273a in the third connecting road 273, at the same time Another working fluid flows into the 6th liquid chamber 24d by the 6th connected entrance 276a of the 6th communication channel 276, flow into this The working fluid of six liquid chamber 24d flows into the 8th liquid chamber 22d through the third connecting unit 2533, flows into the 8th The working fluid of liquid chamber 22d is flowed out then across the 4th connected entrance 274a of the 4th communication channel 274.In this way, this implementation Example, which equally can also be reached, conducts the heat of the working fluid institute band to the top plate 21 and the bottom plate 23, then carries out radiation and dissipates Heat.

As shown in Fig. 7 D, Fig. 7 E, in an alternative em bodiment, first, second, third and fourth, five, six, seven, eight liquid chamber 24a, 24b, 22a, 22b, 24c, 24d, 22c, 22d be respectively arranged with one first, second, third and fourth, five, six, seven, eight runners 243, 244th, 223,224,246,247,226,227, which, which turns around, is formed in the base For plate 25 with respect to the downside of the lower liquid chamber 24, which, which turns around, is formed in the substrate The upside of 25 liquid chambers 22 relatively on this, guides the flow path of the working fluid.

As shown in Fig. 7 F, Fig. 7 G, by first, second, third and fourth, five, six, seven, eight runner 243,244,223,224, 246th, the setting of 247,226,227 (such as Fig. 7 D, Fig. 7 E), with extend the working fluid this first, second, third and fourth, five, six, 7th, the time of eight liquid chamber 24a, 24b, 22a, 22b, 24c, 24d, 22c, 22d (such as Fig. 7 D, Fig. 7 E) flowings, equally can Extend working fluid and the top plate 21 and the heat exchanger time of the bottom plate 23.

In an alternative em bodiment, the present embodiment further includes one the 3rd pump (not illustrating) and one the 4th pump (not illustrating), should First pump 261 can be arranged in a storage tank of first and third liquid chamber 24a, 22a, which can be arranged on In second, seven liquid chamber 24b, the 22c, the 3rd pump can be arranged in the five, the four liquid chamber 24c, 22b, this Four pumps can be arranged in the six, the eight liquid chamber 24d, 22d, in this way, the working fluid can be driven to flow.

It is described above to be merely exemplary for the purpose of the present invention, and it is nonrestrictive, and those of ordinary skill in the art understand, In the case where not departing from the spirit and scope that claim is limited, can many modifications may be made, change or equivalent, but will all fall Enter within protection scope of the present invention.

Claims (20)

1. a kind of multiple port interlayer liquid-cooling heat radiation structure, it is characterized in that comprising：

One top plate；

One bottom plate is opposite with the top plate to cover；

One substrate, is arranged between the top plate and the bottom plate, which has a upside and a downside and an at least connected unit, Liquid chamber on one is defined in the top plate and the upside jointly, and liquid chamber is defined in the bottom plate and the downside jointly, this is at least One connected unit is through the upside, downside and connects liquid chamber on this, lower liquid chamber, so that working fluid circulates；And

Plural communication channel, each communication channel have a connected entrance respectively, and to connect liquid chamber on this, the formation of lower liquid chamber is somebody's turn to do The entrance of working fluid or outlet.

2. multiple port interlayer liquid-cooling heat radiation structure according to claim 1, it is characterised in that：The lower liquid chamber is set There is a lower flow channel, which, which turns around, is formed in downside of the substrate with respect to the lower liquid chamber, guides the stream of the working fluid Dynamic path, liquid chamber is provided with a upper runner on this, which, which turns around, is formed in the substrate with respect to liquid chamber on this Upside, guides the flow path of the working fluid.

3. multiple port interlayer liquid-cooling heat radiation structure according to claim 1 or 2, it is characterised in that：The plural number communication channel With one first communication channel and one second communication channel, first communication channel, one first connected entrance of the second communication channel, the second connection Mouth is respectively communicated with the lower liquid chamber, and a third connecting mouth in a third connecting road connects liquid chamber on this.

4. multiple port interlayer liquid-cooling heat radiation structure according to claim 1 or 2, it is characterised in that：Also pumped comprising one, its It is arranged on liquid chamber on this, the lower liquid chamber or the plural number communication channel.

5. multiple port interlayer liquid-cooling heat radiation structure according to claim 3, it is characterised in that：Also comprising a pump, it sets Put liquid chamber, the lower liquid chamber or the plural number communication channel on this.

6. multiple port interlayer liquid-cooling heat radiation structure according to claim 1, it is characterised in that：The lower liquid chamber is set The one first channels separated lower liquid chamber and form one first liquid chamber and a second liquid chamber, fluid chamber on this One second channels separated that room is set on this liquid chamber and form one the 3rd liquid chamber and one the 4th liquid chamber.

7. multiple port interlayer liquid-cooling heat radiation structure according to claim 6, it is characterised in that：An at least connected unit With one first connected unit and one second connected unit, which connects first liquid chamber and the 3rd liquid Fluid chamber, second connected unit connect the second liquid chamber and the 4th liquid chamber.

8. multiple port interlayer liquid-cooling heat radiation structure according to claim 7, it is characterised in that：The plural number communication channel has One first communication channel, one second communication channel, a third connecting road and one the 4th communication channel, one first connection of first communication channel Mouth connects first liquid chamber, and one second connected entrance of second communication channel connects the second liquid chamber, the third connecting The one third connecting mouth in road connects the 3rd liquid chamber, and one the 4th connected entrance of the 4th communication channel connects the 4th fluid chamber Room.

9. multiple port interlayer liquid-cooling heat radiation structure according to claim 7, it is characterised in that：First liquid chamber, Second liquid chamber, the 3rd liquid chamber, the 4th liquid chamber be respectively arranged with a first flow, second flow channel, third flow channel, 4th runner, the first flow, second flow channel, which turn around, is formed in downside of the substrate with respect to the lower liquid chamber, three runner, 4th runner, which turns around, is formed in upside of the substrate with respect to liquid chamber on this, guides the flow path of the working fluid.

10. multiple port interlayer liquid-cooling heat radiation structure according to claim 7, it is characterised in that：Also pumped comprising one first, It is arranged on first liquid chamber, the 3rd liquid chamber any of which, and one second pump is arranged on second liquid chamber, the 4th Liquid chamber any of which.

11. multiple port interlayer liquid-cooling heat radiation structure according to claim 6, it is characterised in that：The lower liquid chamber is also Be provided with one the 3rd separator, to separate first liquid chamber, second liquid chamber form one the 5th liquid chamber, respectively Six liquid chambers.

12. multiple port interlayer liquid-cooling heat radiation structure according to claim 11, it is characterised in that：At least one connection is single Member has one first connected unit, one second connected unit, a third connecting unit and one the 4th connected unit, first connection Unit connects first liquid chamber and the 3rd liquid chamber, second connected unit connect the second liquid chamber and this Three liquid chambers, the third connecting unit connect the 5th liquid chamber and the 4th liquid chamber, and the 4th connected unit connects Logical 6th liquid chamber and the 4th liquid chamber.

13. multiple port interlayer liquid-cooling heat radiation structure according to claim 12, it is characterised in that：The plural number connects stage property Have one first communication channel, one second communication channel, a third connecting road and one the 4th communication channel, first communication channel connect this first Liquid chamber, second communication channel connect the second liquid chamber, which connects the 5th liquid chamber, and this Four communication channels connect the 6th liquid chamber.

14. multiple port interlayer liquid-cooling heat radiation structure according to claim 12, it is characterised in that：First fluid chamber Room, second liquid chamber, the 3rd liquid chamber, the 4th liquid chamber, the 5th liquid chamber, the 6th liquid chamber are respectively arranged with One first flow, second flow channel, third flow channel, the 4th runner, the 5th runner, the 6th runner, the first flow, second flow channel, 5th runner, the 6th runner, which turn around, is formed in side of the substrate with respect to the lower liquid chamber, and three runner, the 4th runner turn around Side of the substrate with respect to liquid chamber on this is formed in, guides the flow path of the working fluid.

15. multiple port interlayer liquid-cooling heat radiation structure according to claim 12, it is characterised in that：Also include one first Pump, it is arranged on first liquid chamber, second liquid chamber, the 3rd liquid chamber any of which, and one second pump is arranged on this 4th liquid chamber, the 5th liquid chamber, the 6th liquid chamber any of which.

16. multiple port interlayer liquid-cooling heat radiation structure according to claim 11, it is characterised in that：Liquid chamber is also on this One the 4th separator is provided with, it separates the 3rd liquid chamber, the 4th liquid chamber forms one the 7th liquid chamber respectively, Eight liquid chambers.

17. multiple port interlayer liquid-cooling heat radiation structure according to claim 16, it is characterised in that：At least one connection is single Member has one first connected unit, one second connected unit, a third connecting unit and one the 4th connected unit, first connection Unit connects first liquid chamber and the 3rd liquid chamber, second connected unit connect the second liquid chamber and this Seven liquid chambers, the third connecting unit connect the 6th liquid chamber and the 8th liquid chamber, and the 4th connected unit connects Logical 5th liquid chamber and the 4th liquid chamber.

18. multiple port interlayer liquid-cooling heat radiation structure according to claim 17, it is characterised in that：The plural number connects stage property There are one first communication channel, one second communication channel, a third connecting road, one the 4th communication channel, one the 5th communication channel, one the 6th connection Road, one the 7th communication channel and an eight connectivity road, first communication channel connect first liquid chamber, second communication channel connection The second liquid chamber, the third connecting road connect the 4th liquid chamber, and the 4th communication channel connects the 8th liquid chamber, 5th communication channel connects the 5th liquid chamber, and the 6th communication channel connects the 6th liquid chamber, and the 7th communication channel connects Logical 3rd liquid chamber, and the eight connectivity road connect the 7th liquid chamber.

19. multiple port interlayer liquid-cooling heat radiation structure according to claim 17, it is characterised in that：First fluid chamber Room, second liquid chamber, the 3rd liquid chamber, the 4th liquid chamber, the 5th liquid chamber, the 6th liquid chamber, the 7th liquid Chamber, the 8th liquid chamber are respectively arranged with a first flow, second flow channel, third flow channel, the 4th runner, the 5th runner, Six runners, the 7th runner, the 8th runner, the first flow, second flow channel, the 5th runner, the 6th runner turn around and are formed in the base With respect to the side of the lower liquid chamber, three runner, the 4th runner, the 7th runner, the 8th runner turn around and are formed in the substrate plate With respect to the side of liquid chamber on this, the flow path of the working fluid is guided.

20. multiple port interlayer liquid-cooling heat radiation structure according to claim 17, it is characterised in that：Also include one first Pump, it is arranged on first liquid chamber, the 3rd liquid chamber any of which, one second pump be arranged on the second liquid chamber, 7th liquid chamber any of which, one the 3rd pump are arranged on the 5th liquid chamber, the 4th liquid chamber any of which, and one the Four pumps are arranged on six liquid chamber, the 8th liquid chamber any of which.