CN209643219U - Liquid transmission module and its liquid-cooling system - Google Patents

Abstract

The utility model provides a kind of liquid transmission module, it applies in a liquid-cooling system, the liquid transmission module includes: one first baffle and one second baffle are removedly connected by a liquid reserve tank and a pump unit, the pump unit includes at least one pumping, plural runner is equipped in first and second baffle, and portion of runner passes through a non-return valve respectively and is connected to each other, other part runner is connected to by through-hole, one import and an outlet are connected to from different runners so that a working fluid flows into the liquid transmission module respectively, and the working fluid flows through the liquid reserve tank and the pump unit via liquid transmission module transmission guidance, and when the liquid reserve tank removes or when at least one pumping of the pump unit removes, maintain the working fluid flowing in liquid-cooling system.

Description

Liquid transmission module and its liquid-cooling system

Technical field

The utility model relates to a kind of liquid transmission module and its liquid-cooling systems, and espespecially a kind of one liquid of maintenance is cooling The liquid transmission module of the continual running of system.

Background technique

Liquid-cooling system is widely used in recent years to be used in high-power fever source heat-dissipating, is preferably dissipated because it has The thermal efficiency therefore the heat dissipation that industrial computer or server system cabinet are also widely used in addition to PC desk telephone are selected.

Liquid-cooling system is mainly made of water-cooling head, pumping, liquid reserve tank and the cold row of liquid (or water of radiation row), Water-cooling head transmits heat to a working fluid by heat exchange to contact heating source and by the heat of pyrotoxin, the cold row system of the liquid For radiating to the working fluid by water-cooling head, working fluid cooling after the cold dissipation heat of liquid flows through liquid storage Case and pumping.And the working fluid recycled in liquid-cooling system can be with time micro loss, which then fills out in advance Working fluid of the working fluid filled with supplement to make up loss.The pumping then drives the working fluid stream of liquid-cooling system It is dynamic.

However, being concatenated between above-mentioned each unit using tube body, working fluid is then enabled to run cooling work, if liquid is cold But one of the pumping in system or liquid reserve tank unit disability work, will cause entire liquid-cooling system that must stop transporting Make.

Utility model content

One purpose of the utility model, be to provide it is a kind of as liquid reserve tank and pump unit and water-cooling head and the cold row of liquid it Between transmit the liquid transmission module of a working fluid.

Another object of the present invention is to provide a kind of liquid transmission for maintaining the continual running of a liquid-cooling system Module.

Another object of the present invention, be to provide it is a kind of using runner series winding at least two pumping to a liquid cooling system Working fluid pressurization, lifting fluid pressure and flowing velocity in uniting.

Another object of the present invention is to provide a kind of liquid-cooling system for being not required to stop operating when changeing part.

Another object of the present invention is to provide a kind of using the liquid transmission module with non-return valve as relay transmission Liquid-cooling system.

In order to achieve the above object, the utility model provides a kind of liquid transmission module, by a liquid reserve tank and a pump unit Connection, characterized in that include:

One first baffle, one first diversion channel group being equipped with have the plural runner of one import of connection and an outlet, For a working fluid stream into and out, wherein the portion of runner of the first diversion channel group is respectively equipped with a non-return valve, with limitation The flow direction of the working fluid；

One second baffle docks first baffle, and one second diversion channel group being equipped with have be connected to this first The plural runner of diversion channel group, and second baffle is equipped with and is respectively communicated with the first diversion channel group and the second water conservancy diversion water The plural port of road group；The plural number port is separately connected the liquid reserve tank and the pump unit.

The liquid transmission module, in which: first baffle includes a first part and a second part, this first Diversion channel group include the first runner that the first part is set, a second flow channel and a third flow channel and setting this One the 4th runner, one the 5th runner and one the 6th runner of two parts, the first runner via one first non-return valve connect this Four runners, the second flow channel connect the 5th runner via one second non-return valve, which connects via a third non-return valve The 5th runner is connect, the 6th runner connects the third flow channel via a connecting pipe, wherein the inlet communication first runner, should The outlet third flow channel.

The liquid transmission module, in which: second baffle docks first baffle, and the second baffle packet Include the corresponding Part IV of a Part III, the second diversion channel group include setting the Part III and the Part IV it Between one the 7th runner and one the 8th runner；The plural number port includes one first port that the Part III is arranged in, one second Port, a third connectivity mouth, one the 4th port and one the 5th port, and one the 6th port of the Part IV, one the 7th are set Port, one the 8th port, one the 9th port, 1 the tenth port and 1 the 11st port.

The liquid transmission module, in which: first port and second port are located at the 7th runner and the 8th Region other than runner, and the corresponding first runner for being connected to first baffle of first port, the corresponding connection of second port 6th runner of first baffle, the third connectivity mouth and the 4th port are connected to the 7th runner and difference of second baffle Positioned at the both ends of the 7th runner, and the corresponding second flow channel for being connected to first baffle of the third connectivity mouth, the 4th port Corresponding the 4th runner for being connected to first baffle, the 5th port are connected to the 8th runner of second baffle and corresponding connection 5th runner of first baffle.

The liquid transmission module, in which: corresponding the first port for being connected to the Part III of the 6th port, the 7th Port and the 8th port are connected to the 7th runner of the Part III, and the 7th port corresponds to the second of the Part III and leads to Mouthful, the 9th port and the tenth port are connected to the 8th runner and are located at the both ends of the 8th runner, and the 9th port 5th port of the corresponding Part III, corresponding the second port for being connected to the Part III of the 11st port.

The liquid transmission module, in which: a tank inlet that the liquid reserve tank has and liquid reserve tank outlet via Two connectors removedly connect the 6th port and the 7th port of second baffle；One first pumping that the pump unit includes Possessed one first pumping entrance and one first pumping export and removedly connect second baffle via other two connector The 8th port and the tenth port.

The liquid transmission module, in which: one second pumping possessed by one second pumping that the pump unit includes Entrance and one second pumping outlet removedly connect the 9th port and the tenth of second baffle via two connectors separately set One port.

The liquid transmission module, in which: further include a detecting unit, for detecting the liquid storage amount in the liquid reserve tank And the revolving speed of the pump unit.

The liquid transmission module, in which: between the plural number port and the liquid reserve tank and the plural number port and the pumping It is connected respectively by a connector between unit.

The utility model also provides a kind of liquid-cooling system, characterized in that includes:

One liquid transmission module, comprising:

One first baffle, one first diversion channel group being equipped with have the plural runner of one import of connection and an outlet, Wherein the import connects the cold row of a liquid, which connects a water-cooling head, and the portion of runner difference of the first diversion channel group Equipped with a non-return valve；

One second baffle docks first baffle, and one second diversion channel group being equipped with have be connected to this first The plural runner of diversion channel group, and second baffle is equipped with and is respectively communicated with the first diversion channel group and the second water conservancy diversion water The plural port of road group；

One liquid reserve tank connects second baffle, and the liquid reserve tank import having and liquid reserve tank outlet pass through respectively Wherein two ports of second baffle are connected to first baffle and second baffle；

One pump unit, the possessed one first pumping import of at least one first pumping having and one first pumping outlet The runner of second baffle is connected to by wherein other two ports of second baffle.

The liquid-cooling system, it is characterised in that: first baffle includes a first part and a second part, The first diversion channel group includes the first runner that the first part is arranged in, a second flow channel and a third flow channel and setting In one the 4th runner, one the 5th runner and one the 6th runner of the second part, which connects via one first non-return valve The 4th runner is connect, which connects the 5th runner via one second non-return valve, and the third flow channel is inverse via a third Only valve connects the 5th runner, and the 6th runner connects the third flow channel via a connecting pipe, wherein the inlet communication this first Runner, the outlet third flow channel.

The liquid-cooling system, it is characterised in that: second baffle docks first baffle, and this second is led Fluid includes the corresponding Part IV of a Part III, which includes being arranged in the Part III and the 4th One the 7th runner and one the 8th runner between part；The plural number port include one first port that the Part III is set, One second port, a third connectivity mouth, one the 4th port and one the 5th port, and be arranged in the Part IV one the 6th port, One the 7th port, one the 8th port, one the 9th port, 1 the tenth port and 1 the 11st port.

The liquid-cooling system, it is characterised in that: first port and second port be located at the 7th runner and Region other than 8th runner, and the corresponding first runner for being connected to first baffle of first port, second port pair It should be connected to the 6th runner of first baffle, the third connectivity mouth and the 4th port are connected to the 7th runner of second baffle And the both ends of the 7th runner being located at, and the corresponding second flow channel for being connected to first baffle of the third connectivity mouth, this Corresponding the 4th runner for being connected to first baffle of four ports, the 5th port are connected to the 8th runner of second baffle and right The 5th runner of first baffle should be connected to.

The liquid-cooling system, it is characterised in that: corresponding the first port for being connected to the Part III of the 6th port, 7th port and the 8th port are connected to the 7th runner of the Part III, and the 7th port corresponds to the of the Part III Two ports, the 9th port and the tenth port are connected to the 8th runner and are located at the both ends of the 8th runner, and the 9th Port corresponds to the 5th port of the Part III, corresponding the second port for being connected to the Part III of the 11st port.

The liquid-cooling system, it is characterised in that: the liquid reserve tank removedly connects this via two connectors and second leads 6th port of the Part IV of fluid and the 7th port；The first of the pump unit pumps via other two connector removedly Connect the 8th port and the tenth port of the Part IV of second baffle.

The liquid-cooling system, it is characterised in that: one the possessed by one second pumping that the pump unit has Two pumping entrances and one second pumping outlet removedly connect the Part IV of second baffle via two connectors separately set The 9th port and the 11st port.

The liquid-cooling system, it is characterised in that: the plural port of second baffle passes through connector company respectively Connect the liquid reserve tank and the pump unit.

The liquid-cooling system, it is characterised in that: each connector is a quick disconnecting joint.

The liquid-cooling system, it is characterised in that: including a detecting unit, for detecting the storage in the liquid reserve tank The revolving speed of liquid measure and the pump unit.

Utility model has the advantages that the liquid transmission module of the utility model applies the conduct in liquid-cooling system The relay transmission that a working fluid is transmitted between liquid reserve tank and pump unit and the cold row of water-cooling head and liquid is changeing water tank still It can maintain the continual running of the liquid-cooling system.Furthermore the liquid transmission module of the utility model can choose connection Two or more pumpings or only one pumping of connection, that is, the liquid transmission module can connect first pumping and is somebody's turn to do Second pumping, or only connect first pumping or second pumping.Therefore, when the first pumping and second pumping are any When cannot operate, the continual operation of the liquid-cooling system still can be maintained.Furthermore when remove replacement this first pumping or The continual running of the liquid-cooling system still can be maintained when second pumping.Furthermore utilize runner series winding at least first Pumping and second pumping, to working fluid pressurization lifting fluid pressure and flowing velocity.

Detailed description of the invention

Fig. 1 is the schematic diagram of the utility model liquid-cooling system；

Fig. 2A and Fig. 2 B is the decomposition diagram of the different perspectives of the utility model liquid transmission module；

Fig. 2 C is the female connector and pin end is separately connected the decomposition diagram of the liquid transmission module and water tank and pumping；

Fig. 3 A is the decomposition diagram of the first baffle of the utility model；

Fig. 3 B is the non-return valve schematic cross-sectional view of the utility model citing；

Fig. 4 A to Fig. 4 D is the schematic diagram of the second baffle of the utility model；

Fig. 5 A to Fig. 5 C, Fig. 6, Fig. 7, Fig. 8 are the liquid flow schematic diagrams of the various embodiments of the utility model；

Fig. 9 A and Fig. 9 B are the connector schematic cross-sectional views of the utility model citing；

Figure 10 is the schematic diagram that the utility model includes a detecting unit.

Description of symbols: liquid-cooling system 10；The cold row 11 of liquid；First conduit 111；Second conduit 112；Water cooling First 12；Third conduit 121；Liquid transmission module 20；First baffle 21；First part 211；Second part 212；Import 213；Outlet 214；Second baffle 22；Part III 221；Part IV 222；The first~eight runner p1~p8；First check Valve 241；Hole 241a is met on first valve body；Hole 241b is met under first valve body；Valve channel 2411；Elastic element 2412；Cock body 2413；Passway 2414；Second non-return valve 242；Hole 242a is met on second valve body；Hole 242b is met under second valve body；Third check Valve 243；Hole 243a is met on third valve body；Hole 243b is met under third valve body；Communicating pipe 25；Hole 251a is met on communicating pipe；Communicating pipe Under meet hole 251b；First to 11 port a1~a11；Connector c1 to c6；Female connector c1f；Female connector channel c11f；Female connector bullet Property element c12f；Female connector cock body c13f；Female connector passway c14f；Pin end c1m；Pin end channel c11m；Pin end bullet Property element c12m；Pin end cock body c13m；Pin end passway c14m；Detecting unit 40；Liquid reserve tank 51；Tank inlet 511； Liquid reserve tank outlet 512；Pump unit 52；First pumping 521；First pumping entrance 5211；First pumping outlet 5212；Second pump Pu 522；Second pumping entrance 5221；Second pumping outlet 5222.

Specific embodiment

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

Please referring to Fig. 1 is a liquid-cooling system 10, including the cold row 11 (or water of radiation row) of a liquid, a water-cooling head 12, a liquid reserve tank 51, a pump unit 52 and a liquid transmission module 20, the cold row 11 of the liquid are connected by one first conduit 111 It connects the liquid transmission module 20 and the water-cooling head 12 is connected by one second conduit 112, which passes through a third conduit 121 connect the liquid transmission module 20, and the cold row 11 of the liquid and the water-cooling head 12 should by the liquid transmission module 20 connection Liquid reserve tank 51 and the pump unit 52.The pump unit 52 is pumped including at least one in two pumpings of this graphic representation First pumping 521 and the second pumping 522, but are not limited to this, and a pumping can also be used only, behind can describe and make in detail With the embodiment of a pumping.The water-cooling head 12 walks the torrid zone of pyrotoxin to contact a pyrotoxin, and by a working fluid, The working fluid flows into the cold row 11 of the liquid via the second conduit 112 and radiates, and the working fluid after the heat dissipation first is led via this Pipe 111 flows into the liquid transmission module 20, and flows through the liquid reserve tank 51 and the pump unit by the liquid transmission module 20 52.Wherein 51 system of liquid reserve tank is pre-filled with liquid to supplement the amount of liquid in the liquid-cooling system 10, the pumping list Member 52 is to drive or the pressurize flowing of the working fluid in the liquid-cooling system 10 and flow velocity.

The liquid transmission module 20 includes that one first baffle 21 docks one second baffle 22, which sets The work for having one first diversion channel group that there is plural one import 213 of runner connection and an outlet 214 for the liquid-cooling system 10 Make liquid flow into and out, wherein the import 213 connects the cold row 11 of the liquid by first conduit 111, and the outlet 214 is logical It crosses the third conduit 121 and connects the water-cooling head 12.Second baffle 22, which is equipped with one second diversion channel group, has plural runner It is connected to the first diversion channel group, and second baffle 22 is equipped with plural port and is respectively communicated with the first diversion channel group and is somebody's turn to do Second diversion channel group；Wherein the plural number port is separately connected the liquid reserve tank 51 and the pump unit 52.

The liquid transmission module 20 is as the liquid reserve tank 51 and the pump unit 52 and the water-cooling head 12 and the cold row 11 of liquid Between relay transmission, and change the liquid reserve tank 51 or the pump unit 52 wherein at least one pumping when, help should Liquid-cooling system 10 can continue to operation, without stopping operating because of replacement.

It will be described in detail the internal structure of the liquid transmission module 20 below.

As shown in Fig. 2A, Fig. 2 B, Fig. 1 is referred to together, and the first baffle 21 of the liquid transmission module 20 wraps one first Points 211 and one second part 212 be upper and lower setting, the import 213 and the outlet 214 setting, should in the first part 211 First diversion channel component is located at the first part 211 and the second part 212.Second baffle 22 includes a third portion Wherein the first part 211 and the of first of fluid 21 is docked to a points 221 corresponding Part IV 222 in 221 system of Part III Two parts 212, the second diversion channel group are arranged between the Part III 221 and the Part IV 222, and plural port point It sets in the Part III 221 and the Part IV 222, wherein being located at the port of Part IV 222 to connect the liquid reserve tank 51 And the pump unit 52.

Please continue to refer to shown in Fig. 3 A, Fig. 3 B, Fig. 2A, Fig. 2 B, the first water conservancy diversion water of first baffle 21 are referred to together Road group includes a first runner p1, the second flow channel p2 that the first part 211 is arranged in and faces 22 side of the second baffle And a third flow channel p3, and be arranged in second part 212 in face of 22 side of the second baffle one the 4th runner p4, one the 5th Runner p5 and one the 6th runner p6.

One first non-return valve 241 connects first runner p1 and the 4th runner p4；The connection of one second non-return valve 242 should Second flow channel p2 and the 5th runner p5；One third non-return valve 243 connects third flow channel p3 and the 5th runner p5；One connection Pipe 25 connects third flow channel p3 and the 6th runner p6.

Furthermore the first part 211 and the opposed facing side of second part 212, that is, under first part 211 Side and the upside of second part 212 are respectively equipped on one first valve body to connect and meet hole 241b under hole 241a and one first valve body and connect respectively Lead to first runner p1 and third flow channel p3；And one second connect on valve body and connect 242b difference in hole under hole 242a and one second valve body It is connected to second flow channel p2 and the 5th runner p5；And one connect on third valve body and connect 243b difference in hole under hole 243a and a third valve body It is connected to third flow channel p3 and the 5th runner p5；And it is connect on a connecting pipe and meets hole 251b under hole 251a and a connecting pipe and be respectively communicated with Third flow channel p3 and the 6th runner p6.

The both ends of first non-return valve 241, which connect to connect on first valve body, meets hole 241b under hole 241a and the first valve body；It should The both ends of second non-return valve 242, which connect to connect on second valve body, meets hole 242b under hole 242a and the second valve body；And the third check The both ends of valve 243, which connect to connect on the third valve body, meets hole 243b under hole 243a and third valve body；And the both ends of the communicating pipe 25 connect It connects to connect on the communicating pipe and meets hole 251b under hole 251a and communicating pipe.

First non-return valve 241, the second non-return valve 242 and third non-return valve 243 above-mentioned have directionality to limit liquid The flow direction of body, wherein downward, the side of the third non-return valve 243 is the directionality of first non-return valve 241 and the second non-return valve 242 Property is upward.Furthermore this first commonly known check valve arrangement, such as Fig. 3 B institute can be used to third non-return valve 241 to 243 Show, is using the first non-return valve 241 as other second and third non-return valves 242 and 243 of explanation for identical structure, first check It is equipped with valve channel 2411 in valve 241 and penetrates through first non-return valve 241, is equipped with elastic element 2412 in the valve channel 2411 It is arranged a cock body 2413, has a passway 2414 to be slightly less than cock body 2413 in the valve channel 2411, under general state, the cock body 2413 withstand the closing passway 2414 against the elastic element 2412, but when cock body 2413 is by working fluid pressure appropriate Power pressure shifts and forces the elastic element 2412 to compress and then open the passway 2414, to enable the working fluid inverse by this Only valve 241.

Please continue to refer to shown in Fig. 4 A, Fig. 4 B, Fig. 4 C, Fig. 4 D, Fig. 2A, Fig. 2 B are referred to together, second baffle 22 The second diversion channel group includes one the 7th runner p7 and one being arranged between the Part III 221 and the Part IV 222 8th runner p8；The plural number port includes the one first port a1 that the Part III 221 is arranged in, one second port a2, one Three port a3, one the 4th port a4 and one the 5th port a5；And one the 6th port a6 of Part IV 222, one the 7th are set Port a7, one the 8th port a8, one the 9th port a9,1 the tenth port a10 and 1 the 11st port a11.

The the first port a1 and the second port a2 of the aforementioned Part III 221 are located at the stream of the 7th runner p7 and the 8th Region other than road p8, and the corresponding first runner p1, second port a2 for being connected to first baffle 21 of the first port a1 Corresponding the 6th runner p6, third connectivity mouth a3 and the 4th port a4 for being connected to first baffle 21 is connected to second water conservancy diversion 7th runner p7 of body 22 and the both ends for being located at the 7th runner p7, and the corresponding connection of third connectivity mouth a3 this first Corresponding the 4th runner p4 for being connected to first baffle 21 of second flow channel p2, the 4th port a4 of baffle 21, the 5th is logical Mouth a5 is connected to the 8th runner p8 of second baffle 22 and corresponding the 5th runner p5 for being connected to first baffle 21.

Furthermore corresponding the first port a1 for being connected to the Part III 221 of the 6th port a6 of the aforementioned Part IV 222, 7th port a7 and the 8th port a8 is connected to the 7th runner p7 of the Part III 221, and the 7th port a7 is corresponded to and is somebody's turn to do Second port a2 of Part III 221, the 9th port a9 and the tenth port a10 are connected to the 8th runner p8 and are located at this The both ends of 8th runner p8, and the 9th port a9 corresponds to the 5th port a5 of the Part III 221, the 11st port a11 Corresponding the second port a2 for being connected to the Part III 221.

Please continue to refer to Fig. 2 C, together with reference to shown in Fig. 2A, Fig. 2 B, plural number connector c1 to c6 above-mentioned includes pin end And female connector system cooperates, the pin end or female connector of these connectors c1 to c6 be any be separately connected this second 6th to the 11st port a6 to a11 of the Part IV 222 of baffle 22, the pin end of these connectors c1 to c6 or Female connector is wherein another, pumps respectively to connect at least the one of the liquid reserve tank 51 and the pump unit 52.The liquid reserve tank 51 Second baffle is removedly connected via two connector c1 and c2 with a tank inlet 511 and liquid reserve tank outlet 512 22 the 6th port a6 and the 7th port a7.

First pumping 521 of the pump unit 52 has 5212 warp of one first pumping entrance 5211 and one first pumping outlet The 8th port a8 and the tenth port a10 of second baffle 22 are removedly connected by the two connectors c3 and c4.Second pump There is one second pumping entrance 5221 and one second pumping outlet 5222 removedly to connect via two connector c5 and c6 at Pu 522 9th port a9 of second baffle 22 and the 11st port a11.Furthermore the utility model is by the 9th port a9 and the First pumping 521 and the second pumping 522 are formed and are arranged in series by 10 port a10 and the 8th runner p8.Therefore work as working fluid land It is continuous to generate pressurized effect by first pumping 521 and second pumping 522, improve fluid pressure and flowing velocity.

Furthermore the pin and box sub of two the connector c1 and c2 between the liquid reserve tank 51 and the liquid transmission module 20 not yet connects Before logical, the working fluid in the liquid transmission module 20 will not be passed to the liquid reserve tank 51.Likewise, the pump unit 52 is extremely Before the pin and box sub of these connectors c3 to c6 between a few pumping and liquid transmission module 20 is not yet connected, the liquid Working fluid in body transmission module 20 will not be passed to the pump unit 52, the detailed construction of these connectors c1 to c6 And it does and will be described in more detail below.

It is below to indicate that the working fluid will be in figure for clear expression by the flowing of the liquid transmission module 20 Part decompose and indicate with different arrow and line style the flow path of liquid, but the utility model is each in actual use Part is that Fig. 1 as above-mentioned links together.

Please continue to refer to shown in Fig. 5 A- Fig. 5 C, the liquid reserve tank 51 and pump are connected in the embodiment liquid transmission module 20 First pumping 521 of Pu unit 52 and the second pumping 522, the working fluid enter from entrance 213 and enter liquid transmission module 20 The water tank 51 (such as Fig. 5 A) is flowed through into the 7th runner p7, after the 7th runner p7 first along the first flow path F1 Enter the 8th runner p8 (such as Fig. 5 B) after flowing through the first pumping 521 further along second flow path F2, then along the 8th runner Flowed through after p8 further along third flow path F3 and enter the 6th runner p6 after the second pumping 522, then flow through third flow channel p3 from 241 outflow (such as Fig. 5 C) of outlet.

Furthermore as shown in fig. 6, in an embodiment, when the liquid reserve tank 51 does not connect the liquid transmission module 20, the work Liquid along the first runner 231 passes downwardly through the first non-return valve 241 after the entrance of entrance 213, then from the 4th port a4 into Enter the 7th runner p7, then flows into first pumping by connector c3 from the 7th runner p7 by the 8th port a8 521, then flow out through connector c4 and the tenth port a10 from first pumping 521 and flow into the 8th runner p8, then from this 9th port a9 flows into second pumping 522 via connector c5, passes through connector c6 from the working fluid of 522 outflow of the second pumping And the 11st port a111 and the second port a2, pass through the on-tube 25 and the third flow channel then along the 6th runner p6 Then p3 is flowed out from the outlet 214.

Furthermore as shown in Figure 7, Figure 8, which only has a pumping to connect the liquid transmission module 20, wherein one is real Apply for example shown in Fig. 7, the pump unit only have this first pumping 521 connect the liquid transmission module 20, the working fluid from this After import 213 enters, enter liquid storage by first runner p1 and the first port a1 and the 6th port a6 and connector c1 Then case 51 passes through connector c2 and the 7th port a7 from the outflow of liquid reserve tank 51, then along the 7th runner p7 by being somebody's turn to do 8th port a8 and connector c3 enters first pumping 521, then by the tenth port a10 after 521 outflow of the first pumping, Pass through the 5th port a5 then along the 8th runner p8, is passed through then along the 5th runner p5 and the third non-return valve 243 It is flowed out after crossing third flow channel p3 from the outlet 214.

Another embodiment, as shown in figure 8, the pump unit 52 only second pumping 522 connects the liquid transmission module 20, the working fluid after the import 213 entrance, by first runner p1 and the first port a1 and the 6th port a6 and Connector c1 enters liquid reserve tank 51, then passes through connector c2 and the 7th port a7 from the outflow of liquid reserve tank 51, then along this 7th runner p7 flows into the 5th runner p5 along second flow channel p2 and second non-return valve 242 by third connectivity mouth a3, The logical 5th port a5 and the 9th port a9 and connector c5 is flowed through from the 5th runner p5 and enters the second pumping 522, then from second 522 outflow of pumping enters the 6th runner p6 along connector c6 and the 11st port a11 and the second port a2, then along The communicating pipe 25 and third flow channel p3 are flowed out from the outlet 214.

With continued reference to shown in Fig. 9 A, Fig. 9 B, each connector c1 to c6 above-mentioned for example using commonly known quick disconnecting joint, For this explanation using connector c1 as example, other connectors c2 to c6 is identical as the structure of connector c1, and connector c1 includes a female connector A c1f and pin end c1m.

Female connector c1f is equipped with a female connector channel c11f and penetrates through female connector c1f, sets in the c11f of the female connector channel There is a female connector elastic element c12f to be arranged a female connector cock body c13f, has a female connector passway in the c11f of the female connector channel The aperture of c14f is slightly less than the diameter of female connector cock body c13f, not and under pin end c1m mated condition, female connector cock body c13f Closing female connector passway c14f is withstood by female connector elastic element c12f.

Pin end c1m is equipped with a pin end channel c11m and penetrates through pin end c1m and same with female connector channel c11f Axis, the interior male connector resilient element c12m that is equipped with of pin end channel c11m are arranged a pin end cock body c13m, the pin end plug Body c13m and female connector cock body c13f are coaxial, and have the aperture of a pin end passway c14m in the c11m of the pin end channel It is slightly less than the diameter of pin end cock body c13m, not and under female connector c1f mated condition, which relies on the public affairs Joint elastic element c12m withstands closing pin end passway c14m.

Therefore, before female connector c1f is not yet socketed pin end c1m, working fluid is not turned on.But when the mother connects After head c1f is socketed pin end c1m, female connector cock body c13f and the pin end cock body c13m interact and shift, and force this Female connector elastic element c12f and male connector resilient element c12m shrinks back and then opens the female connector passway c14f and the public affairs Connector channel c14m, to enable working fluid pass through the female connector channel c11f and pin end passway c11m.In the present embodiment In, the pin end c1m of connector c1 connects the liquid reserve tank 51, and it is the 6th logical then to connect liquid transmission module 20 by female connector c1f Mouth a6 (as shown in figures 2 a-c).

Please continue to refer to shown in Figure 10,40 system of a detecting unit detects the liquid storage amount in the liquid reserve tank 51, should with monitoring Whether liquid storage amount is reduced to a predetermined low level, if the liquid storage amount in the liquid reserve tank 51 can remove and more renew in the predetermined low level Liquid reserve tank 51.Furthermore the detecting unit 40 also is used to detect the revolving speed of the pump unit 52, such as detects first pumping 521 and/or this second pumping 522 revolving speed, with monitor this first pumping 521 and/or this second pumping 522 whether normally fortune Make.If first pumping 521 or the abnormal running of the second pumping 522 such as less than rated speed or without revolving speed, can remove And replace the pumping of abnormal running.

20 system of liquid transmission module of embodiment more than relying on, the utility model applies in liquid-cooling system 10 As the relay transmission for transmitting a working fluid between liquid reserve tank 51 and pump unit 52 and the cold row 11 of water-cooling head 12 and liquid, In The continual running of the liquid-cooling system can be maintained by changeing water tank 51 still.Furthermore the liquid of the utility model transmits mould Block 20 can choose two or more pumpings of connection or only one pumping of connection, that is, the liquid transmission module 20 can be with First pumping 521 and second pumping 522 are connected, or only connects first pumping 521 or second pumping 522.Therefore, When first pumping 521 and this second pumping 522 it is any cannot operate when, still can maintain the liquid-cooling system not between Disconnected operation.Furthermore the liquid still can be maintained cooling when removing replacement first pumping 521 or second pumping 522 The continual running of system 10.Furthermore using at least first pumping 521 of runner series winding and second pumping 522, to working solution Body pressurization lifting fluid pressure and flowing velocity.

It is described above to be merely exemplary for the utility model, and not restrictive, those of ordinary skill in the art Understand, without departing from the spirit and scope defined by the claims, can many modifications may be made, variation or it is equivalent, but It falls within the protection scope of the utility model.

Claims (19)

1. a kind of liquid transmission module is connected, characterized in that include: by a liquid reserve tank and a pump unit

One first baffle, one first diversion channel group being equipped with has the plural runner of one import of connection and an outlet, for one Working fluid stream into and out, wherein the portion of runner of the first diversion channel group is respectively equipped with a non-return valve, to limit the work Make the flow direction of liquid；

One second baffle docks first baffle, and one second diversion channel group being equipped with has connection first water conservancy diversion The plural runner of water channel group, and second baffle is equipped with and is respectively communicated with the first diversion channel group and the second diversion channel group Plural port；The plural number port is separately connected the liquid reserve tank and the pump unit.

2. liquid transmission module as described in claim 1, it is characterised in that: first baffle includes a first part and one Second part, the first diversion channel group include the first runner that the first part is arranged in, a second flow channel and a third Runner and one the 4th runner, one the 5th runner and one the 6th runner that the second part is arranged in, the first runner is via one One non-return valve connects the 4th runner, which connects the 5th runner via one second non-return valve, third flow channel warp 5th runner is connected by a third non-return valve, the 6th runner connects the third flow channel via a connecting pipe, wherein the import It is connected to the first runner, the outlet third flow channel.

3. liquid transmission module as claimed in claim 2, it is characterised in that: second baffle docks first baffle, And second baffle includes the corresponding Part IV of a Part III, which includes being arranged in the third portion Point and the Part IV between one the 7th runner and one the 8th runner；The plural number port includes one that the Part III is arranged in First port, one second port, a third connectivity mouth, one the 4th port and one the 5th port, and it is arranged in the one of the Part IV 6th port, one the 7th port, one the 8th port, one the 9th port, 1 the tenth port and 1 the 11st port.

4. liquid transmission module as claimed in claim 3, it is characterised in that: first port and second port be located at this Region other than seven runners and the 8th runner, and the corresponding first runner for being connected to first baffle of first port, this Corresponding the 6th runner for being connected to first baffle of two ports, the third connectivity mouth and the 4th port are connected to second baffle 7th runner and the both ends for being located at the 7th runner, and the corresponding second for being connected to first baffle of the third connectivity mouth Road, corresponding the 4th runner for being connected to first baffle of the 4th port, the 5th port are connected to the 8th of second baffle Runner and corresponding the 5th runner for being connected to first baffle.

5. liquid transmission module as claimed in claim 4, it is characterised in that: the corresponding connection Part III of the 6th port First port, the 7th port and the 8th port are connected to the 7th runner of the Part III, and the 7th port correspond to this Second port of three parts, the 9th port and the tenth port are connected to the 8th runner and are located at the two of the 8th runner End, and the 9th port corresponds to the 5th port of the Part III, the 11st port is corresponding to be connected to the second of the Part III Port.

6. liquid transmission module as claimed in claim 5, it is characterised in that: the tank inlet and one that the liquid reserve tank has Liquid reserve tank exports the 6th port and the 7th port that second baffle is removedly connected via two connectors；The pump unit packet One first pumping entrance possessed by one first pumping included and one first pumping outlet removedly connect via other two connector Connect the 8th port and the tenth port of second baffle.

7. liquid transmission module as claimed in claim 6, it is characterised in that: one second pumping that the pump unit includes is had The one second pumping entrance and one second pumping having export and removedly connect second baffle via two connectors separately set 9th port and the 11st port.

8. liquid transmission module as described in claim 1, it is characterised in that: further include a detecting unit, for detecting the storage The revolving speed of a liquid storage amount and the pump unit in liquid case.

9. liquid transmission module as described in claim 1, it is characterised in that: between the plural number port and the liquid reserve tank and this is multiple It is connected respectively by a connector between number port and the pump unit.

10. a kind of liquid-cooling system, characterized in that include:

One liquid transmission module, comprising:

One first baffle, one first diversion channel group being equipped with have the plural runner of one import of connection and an outlet, wherein The import connects the cold row of a liquid, which connects a water-cooling head, and the portion of runner of the first diversion channel group is respectively equipped with One non-return valve；

One second baffle docks first baffle, and one second diversion channel group being equipped with has connection first water conservancy diversion The plural runner of water channel group, and second baffle is equipped with and is respectively communicated with the first diversion channel group and the second diversion channel group Plural port；

One liquid reserve tank connects second baffle, and the liquid reserve tank import having and liquid reserve tank outlet respectively by this Wherein two ports of two baffles are connected to first baffle and second baffle；

One pump unit, the possessed one first pumping import of at least one first pumping having and one first pumping outlet pass through Wherein other two ports of second baffle are connected to the runner of second baffle.

11. liquid-cooling system as claimed in claim 10, it is characterised in that: first baffle include a first part and One second part, the first diversion channel group include the first runner that the first part is arranged in, a second flow channel and one Three runners and one the 4th runner, one the 5th runner and one the 6th runner that the second part is arranged in, the first runner is via one First non-return valve connects the 4th runner, which connects the 5th runner via one second non-return valve, the third flow channel The 5th runner is connected via a third non-return valve, the 6th runner connects the third flow channel via a connecting pipe, wherein should be into Mouth is connected to the first runner, the outlet third flow channel.

12. liquid-cooling system as claimed in claim 11, it is characterised in that: second baffle docks first water conservancy diversion Body, and second baffle includes the corresponding Part IV of a Part III, the second diversion channel group include setting this One the 7th runner and one the 8th runner between three parts and the Part IV；The plural number port includes being arranged in the Part III One first port, one second port, a third connectivity mouth, one the 4th port and one the 5th port, and be arranged in the Part IV One the 6th port, one the 7th port, one the 8th port, one the 9th port, 1 the tenth port and 1 the 11st port.

13. liquid-cooling system as claimed in claim 12, it is characterised in that: first port and second port are located at this Region other than 7th runner and the 8th runner, and the corresponding first runner for being connected to first baffle of first port, should Corresponding the 6th runner for being connected to first baffle of second port, the third connectivity mouth and the 4th port are connected to second baffle The 7th runner and be located at the both ends of the 7th runner, and the third connectivity mouth is corresponding is connected to the second of first baffle Runner, corresponding the 4th runner for being connected to first baffle of the 4th port, the 5th port are connected to the of second baffle Eight runners and corresponding the 5th runner for being connected to first baffle.

14. liquid-cooling system as claimed in claim 13, it is characterised in that: the 6th port is corresponding to be connected to the Part III The first port, the 7th port and the 8th port be connected to the 7th runner of the Part III, and the 7th port is corresponding should Second port of Part III, the 9th port and the tenth port are connected to the 8th runner and are located at the two of the 8th runner End, and the 9th port corresponds to the 5th port of the Part III, the 11st port is corresponding to be connected to the second of the Part III Port.

15. liquid-cooling system as claimed in claim 14, it is characterised in that: the liquid reserve tank removedly connects via two connectors Connect the 6th port and the 7th port of the Part IV of second baffle；First pumping of the pump unit connects via other two Head removedly connects the 8th port and the tenth port of the Part IV of second baffle.

16. liquid-cooling system as claimed in claim 15, it is characterised in that: the one second pumping institute that the pump unit has The one second pumping entrance and one second pumping having export and removedly connect second baffle via two connectors separately set Part IV the 9th port and the 11st port.

17. liquid-cooling system as claimed in claim 10, it is characterised in that: the plural port of second baffle leads to respectively It crosses a connector and connects the liquid reserve tank and the pump unit.

18. the liquid-cooling system as described in claim 16 or 17, it is characterised in that: each connector is a quick disconnecting joint.

19. liquid-cooling system as claimed in claim 10, it is characterised in that: including a detecting unit, for detecting the storage The revolving speed of a liquid storage amount and the pump unit in liquid case.