CN106455420B - Water cooling arranges unit and its water-cooled module - Google Patents

Abstract

A kind of water cooling row's unit and its water-cooled module, including：One ontology；The ontology has a first part and a second part and a transition zone and is connected with each other, first and second part is respectively provided with a first flow group and a second flow channel group and an entrance and an outlet, cooling fluid is filled in the ontology, the transition zone setting one pumps and forms the water-cooled module with it, guides the cooling fluid recycle the space for reaching heat radiation efficiency and reduction water-cooling head in turn through by the pumping.

Description

Water cooling arranges unit and its water-cooled module

【Technical field】

A kind of water cooling row's unit and its water-cooled module, it is espespecially a kind of to combine pumping and then increase cooling water is followed with water cooling row Water cooling row's unit and its water-cooled module in ring efficiency and reduction water-cooling head space.

【Background technology】

Existing electronic device speed and efficiency are maked rapid progress, with efficiency promotions then the work of its internal electronic element when then Temperature opposite can be promoted, general heat radiation module carries out electronic component only for through after radiator or temperature-uniforming plate or heat pipe combination It is antipyretic, also have through the use for adding radiator fan to heat radiation module progress forced heat radiation, but because the heat radiation module is set to It is only capable of that heat is taken away electronic component and can not be expelled directly out inside the electronic device as possible inside electronic device, therefore also has dealer Water-cooled module is antipyretic applied to being carried out in the electronic device, and there is water-cooled module a water-cooling head and a water cooling to arrange, and the water cooling There is cyclic water channel between head and water cooling row and be attached between the two through tube body so as to carry out cooling fluid cycle, this is cold There is head a heat exchange interface to be directly sticked with electronic component and by heat derives, be penetrated inside the cold water tap again thereafter Cooling fluid heat is taken away into the heat exchange interface, the cooling fluid that will be finally adsorbed with heat is guided to being set to the electronics Water cooling outside device discharges into capable cooling, which mainly penetrates with the internal cooling fluid of water cooling row and be set to the water-cooling head An interior pumping, or cooling fluid is carried out the cooling fluid is driven to cool down through the external pumping of the external independence being directly arranged Cycle, but in the narrow electronic equipment in inner space, the entirety size of the water-cooling head, which need to be strict with, to be met narrow space and sets The solution heat problem set, and because must be provided with the pumping in water-cooling head, therefore how to solve narrow space is then target primarily.

【Invention content】

Therefore, to solve the disadvantage of above-mentioned known technology, the main purpose of the present invention provides a kind of reduction water-cooling head space Water cooling arrange unit.

Still a further object of the present invention provides a kind of arranging pumping with water cooling and combines and then increase cooling water circulation efficiency and contracting The water-cooled module in diminishing cold head space.

For the purpose for reaching above-mentioned, the present invention provides a kind of water cooling row unit, which is characterized in that includes：One ontology, a pump Pu；

There is the ontology first part and a second part and a transition zone, first and second part to be respectively provided with one First flow group and a second flow channel group, the transition zone be set to first and second part between and with the first and second each runner group phase Connect, which is equipped with an entrance, which has an outlet, the transition zone have plural first hole and One water-guiding hole and plural second hole, first hole connect the first flow group of the first part, and such the of secondth area Two holes connect the second flow channel group of the second part, the water-guiding hole be set to the transition zone bottom and through a foot passage with First hole is connected to, and cooling fluid is filled in the ontology.

The pumping is set in the transition zone of aforementioned water cooling row unit, and the pumping has plural flabellum, and the pumping The cooling fluid in aforementioned ontology is driven to be recycled in the body interior.

For the purpose for reaching above-mentioned, the present invention provides a kind of water-cooled module, which is characterized in that includes：A kind of water-cooled module, packet Contain：One water cooling arranges unit, a pumping, a water-cooling head, one first tube body, one second tube body；

The water cooling row unit has：One ontology has a first part and a second part and a transition zone, this first, Two parts are respectively provided with a first flow group and a second flow channel group, the transition zone be set between first and second part and with First and second each runner group is connected with each other, which is equipped with an entrance, which has an outlet, the transition zone The first flow of the first part is connected with plural first hole and a water-guiding hole and plural second hole, first hole Such second hole of group, secondth area connects the second flow channel group of the second part, which is set to the transition zone bottom Portion is simultaneously connected to through a foot passage with first hole, and cooling fluid is filled in the ontology.

The pumping is set in the transition zone of aforementioned water cooling row unit, and the pumping has plural flabellum, and the pumping The cooling fluid in aforementioned ontology is driven to be recycled in the body interior.

There is the water-cooling head shell, the shell to have an at least water space capacity and a heat exchange interface and a water inlet Mouth and a water outlet, the entery and delivery port connect the water space capacity, which connects the water space capacity.

First tube body have a first end and a second end be separately connected the water-cooling head water inlet and the ontology it Outlet.

Second tube body have a third end and one the 4th end be separately connected the cold water tap water outlet and the ontology it Entrance.

It can further reduce the height of the water-cooling head through the water cooling row's unit and its water-cooled module of the present invention and then improve The narrow missing that water-cooling head can not be set of known spatial, and by that can increase the cycle efficieny of cooling fluid and reduce the string of element Group and the possibility for preventing leak.

【Description of the drawings】

Fig. 1 is the stereogram for the first embodiment that water cooling of the present invention arranges unit；

Fig. 2 is the three-dimensional cutaway view for the first embodiment that water cooling of the present invention arranges unit；

Fig. 3 is the A-A sectional views for the first embodiment that water cooling of the present invention arranges unit；

Fig. 4 is another sectional view for the first embodiment that water cooling of the present invention arranges unit；

Fig. 5 is the assembled sectional view for the second embodiment that water cooling of the present invention arranges unit；

Fig. 6 is the three-dimensional combination figure of the first embodiment of water-cooled module of the present invention；

Fig. 7 is the stereogram exploded view of the first embodiment of water-cooled module of the present invention；

Fig. 8 is the assembled sectional view of the second embodiment of water-cooled module of the present invention.

【Symbol description】

Water cooling arranges 1 radiating fin 115 of unit

11 second hole 1132 of ontology

First part 111 second holds pool 1132a

Entrance 111a water-guiding holes 1133

1111 foot passage 1134 of first flow group

First convex extension parts transverse flow channels 1111a 1135

First longitudinal direction runner 1111b through-holes 1136

First water space capacity 1111c water-cooled modules 2

The pumping of second part 112 21

Export 112a flabellums 211

1121 water-cooling head 22 of second flow channel group

Second transverse flow channels 1121a shells 221

Second longitudinal direction runner 1121b water space capacities 222

Second water space capacity 1121c heat exchanges interface 223

113 water inlet 224 of transition zone

First hole, 1131 water outlet 225

First holds the first tube bodies of pool 1131a 23

114 first end 231 of spacer portion

232 radiator fan 3 of second end

Second tube body, 24 fan hub 31

241 axle center 32 of third end

4th end 242.

【Specific implementation mode】

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.1,2,3, for water cooling of the present invention arrange unit first embodiment stereogram and A-A sectional views, such as figure Shown, water cooling of the present invention arranges unit 1, including：One ontology 11, one pumping 21；

The ontology 11 has a first part 111 and a second part 112 and a transition zone 113, first and second part 111, a first flow group 1111 and a second flow channel group 1121 are respectively provided with 112, between first and second part 111,112 With a spacer portion 114, and is defined by the spacer portion 114 and distinguish first and second part 111,112.

The first flow group 1111 has the first transverse flow channels 1111a of plural number and plural first longitudinal direction runner 1111b, such First transverse flow channels 1111a and such first longitudinal direction runner 1111b is connected with each other, and such first transverse flow channels 1111a is divided into 114 side of spacer portion, and the spaced arrangements of such first longitudinal direction runner 1111b, and such first longitudinal direction runner 1111b Between have plurality of radiating fins 115.

The second flow channel group 1121 has the second transverse flow channels 1121a of plural number and plural second longitudinal direction runner 1121b, such Second transverse flow channels 1121a and such second longitudinal direction runner 1121b is connected with each other, and such second transverse flow channels 1121a is divided into 114 side of spacer portion, and the spaced arrangements of such second longitudinal direction runner 1121b, and such second longitudinal direction runner 1121b Between have plurality of radiating fins 115.

The transition zone 113 be set to first and second part 111,112 between and with 111,112 institute of the first and second part First and second each runner group 1111,1121 of setting is connected with each other, the first part 111 be equipped with an entrance 111a and with this first Each runner group 1111 connects, which has an outlet 112a and connect with the second flow channel group 1121.

The transition zone 113 has plural first hole 1131 and a water-guiding hole 1133 and plural second hole 1132, should The first flow group 1111 of the first part 111 is connected Deng the first hole 1131, such second hole 1132 connects this second Points 112 second flow channel group 1121, the water-guiding hole 1133 be set to 113 bottom of transition zone and through a foot passage 1134 with First hole 1131 is connected to, and cooling fluid 116 is filled in the ontology 11, and the foot passage 1134 is set to the transition zone The other side of 113 bottoms.

Such first hole 1131 extends radially through the transition zone 113, enables the first transverse flow channels 1111a and the first longitudinal direction Runner 1111b is connected with the foot passage 1134, such second hole 1132 extend radially through the transition zone 113 with respect to this second The wall surface of part 112 enables the transition zone 113 be connected with the second flow channel group 1121,

Referring to Fig. 4, the second transverse flow channels 1121a and such second longitudinal direction runner of the second flow channel group 1121 The mutual junctions 1121b have different aperture widths, be located at second longitudinal direction runner 1121b close to the transition zone 113 with this The aperture width of the junction of two transverse flow channels 1121a is smaller, and the second longitudinal direction runner far from the transition zone 113 is arranged 1121b and the aperture width of the junction of second transverse flow channels 1121a are larger, and main purpose is through the control junction Aperture width, thereby enable the cooling fluid 116 that can be evenly distributed and flow through each second longitudinal direction runner 1121b.

The transition zone 113 is set to the transition zone with more one first appearance pool 1131a and one second appearance pool 1132a In 113 wall surface, described first holds pool 1131a is interconnected with the first flow group 1111 and such first hole 1131, Described second holds pool 1132a is interconnected with the second flow channel group 1121 and second hole 1132, such second hole 1132, which are divided into this, second holds that pool 1132a is inside and outside, two side walls (are inside close to this second close to the transition zone 113 Points 112 be outside), and be set to this and second hold that pool 1132a is inside and outside, the second holes 1132 of two side walls have a difference in height A, the second hole 1132 for being set to inside is higher than the second hole 1132 for being set to outside, and described second holds pool 1132a, the effect with current stabilization or voltage stabilizing, enables the cooling fluid 116 entered that there is the persistent loop of current stabilization and voltage stabilizing to carry Rise cycle efficieny.

The first part 111 connect with more one first water space capacity 1111c with the first flow group 1111, this second 112 are divided to be connect with the second flow channel group 1121 with more one second water space capacity 1121c.

The pumping 21 is set in the transition zone 113 of aforementioned water cooling row unit 1, and the pumping 21 has plural flabellum 211, and the pumping 21 drives the cooling fluid 116 in aforementioned ontology 11 to be recycled inside the ontology 11.

Existing any disclose and can the corresponding known pump that row's unit 11 is used with the water cooling can be selected in the pumping 21 Pu, which is not regarded it as, to be limited.

Referring to Fig. 5, the assembled sectional view of the second embodiment of unit is arranged for water cooling of the present invention, as shown, this implementation Example is identical with aforementioned first embodiment part-structure therefore will not be described in great detail herein, only the present embodiment and aforementioned first embodiment no It exists together and is, be extended with a convex extension part 1135 around the water-guiding hole 1133, and convex extension part 1135 is tapered and internal has one Through-hole 1136, the through-hole are connected with the water-guiding hole 1133.

Fig. 6,7 are please referred to, is the three-dimensional combination figure and stereogram exploded view of the first embodiment of water-cooled module of the present invention, such as schemes It is shown, water-cooled module 2 of the present invention, including：One water cooling arranges unit 1, one and pumps 21, one water-cooling head 22, one first tube body 23,1 the Two tube bodies 24；

Water cooling row's unit 1 is arranged as recorded in aforementioned water cooling row's unit first embodiment also referring to aforementioned water cooling Unit first embodiment and Fig. 1,2, it will not be described in detail here.

The water-cooling head 22 has a shell 221, and the shell 221 has an at least water space capacity 222 and a heat exchange Interface 223 and a water inlet 224 and a water outlet 225, the entery and delivery port 224,225 connect the water space capacity 222, the heat Interface 223 is exchanged to be set to the side of the shell 221 and connect the water space capacity 222.

First tube body 23 has the water inlet that a first end 231 and a second end 232 are separately connected the water-cooling head 22 224 and the ontology 11 outlet 112a.

Second tube body 24 has the water outlet that a third end 241 and one the 4th end 242 are separately connected the cold water tap 22 225 and the ontology 11 entrance 111a.

The transition zone 113 that the present embodiment mainly arranges unit 1 in the water cooling is arranged the pumping 21 and penetrates first and second tube body 23,24 the cold water taps 22 is connected and then form the water-cooled module 2, and a water cooled circulating solution is provided by the water-cooled module 2 The discrepancy of heat, the present invention and known technology maximum is that the present invention cancels pumping 21 in known water-cooling head 22, therefore can reduce The 22 overall volume size of water-cooling head when the antipyretic electronic equipment internal of the need of narrow space also can be easily arranged, and is cancelled The pumping 21 for being set to 22 inside of water-cooling head is changed to be set in water cooling row's unit 1 as cooling cooling fluid 116, and removing can Pumping 21 can be also directed through by reducing outside the overall volume of the water-cooling head 22 directly drives the interior cooling fluid of water cooling row's unit 1 116 increase the efficiency of cooling cooling fluid 116.

The water-cooling head 22 of the present embodiment makes mainly as being directly sticked with heat source (not shown) as absorption conduction heat With in addition, the water cooling as cooling cooling fluid 116 arranges unit 1, it connects through the first and second tube body 23,24 with the water-cooling head 22 It connects, which there is water space capacity 222,223 side of heat exchange interface to correspond to the water space capacity 222, cooling stream Body 116 is circulated in the water space capacity 222, and can take away the heat that the heat exchange interface 223 adsorbs, main feature of the present invention Be the water cooling row unit 1 structure setting, through by spacer portion 114 by the ontology 11 distinguish the first and second part 111, 112, therefore one can be formed and enter water area (first part 111) and an outlet area (second part 112), and transition zone 113 is then It is multiple that the characteristics of position for driving the cooling fluid 116 cycle main, transition zone 113, is that the transition zone 113 is provided with Several first holes 1131 and plural second hole 1132, such second hole 1132 are set to the transition zone 113 and second appearance On side wall between the 1132a of pool, and the water-guiding hole 1133 is set to 113 bottom of transition zone and penetrates a foot passage 1134 It is connected to first hole 1131, when cooling fluid 116 enters the first flow group by the entrance 111a of water cooling row's unit 1 When 1111, via the first flow group 1111 such first transverse flow channels 1111a and such first longitudinal direction runner 1111b to this Transition zone 113 flows, and enters in the foot passage 1134 of 113 bottom of transition zone through such first hole 1131a, then by The water-guiding hole 1133 for being set to 113 bottom of transition zone enters in the transition zone 113, then penetrates and be set in the transition zone 113 Pumping 21 such blade 211 guide cooling fluid 116 this turn is left by such second hole 1132a of the transition zone 113 Change area 113 and enter this second hold pool 1132a, then by this second hold pool 1132a outside side walls the second hole 1132 into Enter the second flow channel group 1121, and such second transverse flow channels 1121a and such second through the second flow channel group 1121 is indulged Water cooling row's unit 1, and cooling fluid are flowed and left to runner 1121b to the outlet 112a for being set to the second part 112 116 water inlets 224 that the cold water tap 22 is connected through first tube body 23 enter the water-cooling head 22, then at the appearance of the cold water tap 22 By the water outlet of the cold water tap 22 after carrying out circulating cooling in hydrospace 222 and taking away the heat that heat exchange interface 223 adsorbs 225 leave the water space capacity 222 of the cold water tap 22, which connects second tube body 24 again by the through water outlet 225 Two tube bodies 24 are connect with the entrance 111a for the ontology 11 that the water cooling arranges unit 1, which is entered by entrance 111a again The water cooling arrange unit 1, weight and be again passed through water cooling row unit 1 cooling fluid 116 is cooled down.

The present invention mainly reduces the overall volume of the cold water tap 22 and cancels the pumping 21 for being set to its inside, and will pumping 21 are combined with the water cooling row's unit 1 for carrying out cooling cycle to cooling fluid 116, use to meet being intended to be arranged asking for place insufficient space Topic, and can still maintain cooling cycle.

1 side of water cooling row's unit of the present invention can be correspondingly arranged a radiator fan 3 and carry out forcing to dissipate to water cooling row's unit 1 Heat, so can more increase water cooling row unit 1 in cooling fluid 116 cooling efficiency, and because the water cooling arrange unit 1 first, Two each runner groups 1111,1121 are spread in entire water cooling row unit 1, and as radiator fan 3 carries out water cooling row's unit 1 Forced heat radiation, then can cool down water cooling row's 1 ontology 11 of unit for being adsorbed with heat and the directly cooling cooling fluid rapidly 116, the cooling fluid 116 after being cooled down to be recycled into again in the water-cooling head 22 so that carry out cooling cycle.

Referring to Fig. 8, the assembled sectional view of the second embodiment for water-cooled module of the present invention, as shown, the present embodiment It is identical as aforementioned first embodiment part-structure therefore will not be described in great detail herein, the only difference of the present embodiment and aforementioned first embodiment Be in has a flabellum body 211 in, the pumping 21 in water cooling row's unit 1, the radiator fan 3 with a fan hub 31, And the flabellum body 211 for pumping 21 and the fan hub 31 of the radiator fan 3 are linked by an axle center 32, and work as radiator fan The flabellum 211 of the pumping 21 can be driven to operate simultaneously when 3 rotation, can further reach energy saving purpose.

Claims (6)

1. a kind of water cooling arranges unit, which is characterized in that include：

There is one ontology a first part and a second part and a transition zone and a spacer portion, first and second part to have respectively Have a first flow group and a second flow channel group, the transition zone be set between first and second part and with first and second runner Group is connected with each other, which is equipped with an entrance, which there is an outlet, the transition zone to have plural first hole Hole and a water-guiding hole and plural second hole, such first hole connect the first flow group of the first part, the transition zone it Such second hole connects the second flow channel group of the second part, which is set to the transition zone bottom and penetrates a bottom Channel is connected to first hole, cooling fluid is filled in the ontology, the first part, second part and transition zone are located at Same level, the spacer portion, which defines, distinguishes first and second part, the first flow group have plural first transverse flow channels and Plural first longitudinal direction runner, such first transverse flow channels are mounted on the spacer portion side, such first transverse flow channels and such the One longitudinal runner connection, the foot passage are set to the other side of the transition zone bottom, and such first hole extends radially through this turn Changing area enables first transverse flow channels and the first longitudinal direction runner be connected with the foot passage, which has plural number the Two transverse flow channels and plural second longitudinal direction runner, such second transverse flow channels be set to the spacer portion side and with such second hole Connection, such second transverse flow channels are connect with such second longitudinal direction runner, and such second hole extends radially through the wall of the transition zone Face enables the transition zone be connected with the second flow channel group, such spaced arrangement of first longitudinal direction runner, and such first is vertical To having plurality of radiating fins, such spaced arrangement of second longitudinal direction runner, and such second longitudinal direction runner between runner Between have plurality of radiating fins；

One pumping is set in the transition zone of aforementioned water cooling row unit, and the pumping has plural flabellum, and before pumping driving The cooling fluid stated in ontology is recycled in the body interior.

2. water cooling according to claim 1 arranges unit, which is characterized in that the transition zone with more one first hold pool and One second appearance pool is set in the wall surface of the transition zone, and described first holds pool and the first flow group and such first hole It is interconnected, described second holds pool is interconnected with the second flow channel group and such second hole.

3. water cooling according to claim 1 arranges unit, which is characterized in that the first part holds water sky with more one first Between connect with the first flow group, which connect with more one second water space capacity with the second flow channel group.

4. a kind of water-cooled module, which is characterized in that include：

One water cooling arranges unit, including：

There is one ontology a first part and a second part and a transition zone and a spacer portion, first and second part to have respectively Have a first flow group and a second flow channel group, the transition zone be set between first and second part and with first and second runner Group is connected with each other, which is equipped with an entrance, which there is an outlet, the transition zone to have plural first hole Hole and a water-guiding hole and plural second hole, first hole connect the first flow group of the first part, which is somebody's turn to do The second flow channel group of the second part is connected Deng the second hole, which is set to the transition zone bottom and leads to through a bottom Road is connected to first hole, and cooling fluid is filled in the ontology, and the first part, second part and transition zone are located at Same level, the spacer portion, which defines, distinguishes first and second part, the first flow group have plural first transverse flow channels and Plural first longitudinal direction runner, such first transverse flow channels are mounted on the spacer portion side, such first transverse flow channels and such the One longitudinal runner connection, the foot passage are set to the other side of the transition zone bottom, and such first hole extends radially through this turn Changing area enables first transverse flow channels and the first longitudinal direction runner be connected with the foot passage, which has plural number the Two transverse flow channels and plural second longitudinal direction runner, such second transverse flow channels be set to the spacer portion side and with such second hole Connection, such second transverse flow channels are connect with such second longitudinal direction runner, and such second hole extends radially through the wall of the transition zone Face enables the transition zone be connected with the second flow channel group, such spaced arrangement of first longitudinal direction runner, and such first is vertical To having plurality of radiating fins, such spaced arrangement of second longitudinal direction runner, and such second longitudinal direction runner between runner Between have plurality of radiating fins；

One pumping is set in the transition zone of aforementioned water cooling row unit, and the pumping has plural flabellum, and before pumping driving The cooling fluid stated in ontology is recycled in the body interior；

There is one water-cooling head a shell, the shell to have an at least water space capacity and a heat exchange interface and a water inlet and one Water outlet, the entery and delivery port connect the water space capacity, which is set to the side of the shell and connects the Rong Shuikong Between；

One first tube body is separately connected the outlet of the water inlet and the ontology of the water-cooling head with a first end and a second end；

There is one second tube body a third end and one the 4th end to be separately connected the water outlet of the water-cooling head and the entrance of the ontology.

5. water-cooled module according to claim 4, which is characterized in that the transition zone holds pool and one with more one first Second appearance pool is set in the wall surface of the transition zone, and described first holds pool and the first flow group and such first hole phase Intercommunicated, described second holds pool is interconnected with the second flow channel group and such second hole.

6. water-cooled module according to claim 4, which is characterized in that the first part has more one first water space capacity It is connect with the first flow group, which connect with more one second water space capacity with the second flow channel group.