CN208187232U - The water-filling degasification structure of water cooling plant - Google Patents

Abstract

The utility model provides a kind of water-filling degasification structure of water cooling plant, includes: a water conservancy diversion ontology, one first valve body, one second valve body, one first connector, one second connector；The water conservancy diversion ontology has an entrance and an outlet and a water space capacity and one first hole and one second hole, it is described enter, export and first and second hole is connected to the water space capacity；First and second valve body be in respectively can open or closed first and second hole, and be correspondingly arranged at first and second hole；The work of water-filling degasification can be easily carried out to water cooling plant by the utility model.

Description

The water-filling degasification structure of water cooling plant

Technical field

The utility model relates to a kind of water-filling degasification structures of water cooling plant, and espespecially one kind can simply carry out water cooling plant The water-filling degasification structure of the water cooling plant of the work of water-filling degasification.

Background technique

Water cooling plant is widely used in recent years to be used in high-power fever source heat-dissipating, because it has preferably heat dissipation effect Rate thus be also widely used in addition to PC desk telephone industrial computer or server system cabinet or it is vehicle-carried or illumination set Standby heat dissipation is selected, and water cooling plant is mainly made of water-cooling head, pumping, water cooling row, wherein further through with tube body between each unit Concatenation is mainly carried out the work of absorption heat by water-cooling head, and water-cooling head has a water containing chamber room, and the water containing chamber room side is in opening Shape, and be correspondingly arranged on a heat exchange interface plate body as made by thermally conductive good conductor and close the water containing chamber room, which is situated between The side of the opposite water containing chamber room of panel body, which is directly sticked with a pyrotoxin, adsorbs heat caused by the pyrotoxin, and the heat is handed over Interface plate body is changed again for heat transfer heat exchange interface plate body side corresponding with the water containing chamber room, which is provided with plural number and dissipates Hot fin, the cooling liquid (such as pure water, ethyl alcohol, refrigerant) which uses filled with progress cooling cycle, and by this Cooling liquid carries out heat exchange to the radiating fin for being adsorbed with heat, and the cooling liquid used as internal cooling cycle is enabled to be able to Cooling work is gone on smoothly, cooling liquid mainly passes through pumping and carries out pressurizing urges, and cooling liquid is discharged laggard by the water-cooling head Enter and cooled down in water cooling row, enters in the water-cooling head once again after finally cooling liquid is cooling in water cooling row and cooled down Circulation.

It is easy to leak cooling liquid or internal infiltration air in manufacturing process in water cooling plant, water cooling plant is caused to work Efficiency is bad, or the volatilization of internal coolant body or leakage will also result in water cooling plant working efficiency not after a period of use It is good.

And most water cooling plants leak to be afraid of junction, then junction is all disposably to weld or the side of close-fitting or gluing Formula is combined, and can not be handled if fluid low cooling in discovery water cooling plant or if having air person, therefore how to be changed Being apt to aforementioned existing missing then is the purpose of existing first weight.

Utility model content

Therefore, to solve the disadvantage that the above-mentioned prior art, the main purpose of the utility model are to provide a kind of improvement water cooling If when device is manufactured or using when have the cooling fluid seepage of generation it is insufficient or it is internal penetrate into air when, supplement cooling can be carried out Liquid or water-filling degasification structure except the water cooling plant used except air.

In order to achieve the above object, the utility model provides a kind of water-filling degasification structure of water cooling plant, it is characterized in that comprising:

One water conservancy diversion ontology has an at least entrance, an outlet, a water space capacity, one first hole and one second hole, institute It states entrance, outlet, the first hole and the second hole and is connected to the water space capacity；

One first valve body, can open or closed first hole, and be correspondingly arranged at first hole；

One second valve body, can open or closed second hole, and be correspondingly arranged at second hole；

One first connector, correspondence are plugged in first hole；

One second connector, correspondence are plugged in second hole.

The water cooling plant water-filling degasification structure, in which: first connector has a first axis through-hole and one First radially connected slot, the first axis through-hole axially through first connector, the first radially connected slot be set to this One end of a connection piece grafting corresponding with first hole, and extend radially through first connector, the first axis through-hole with The first radially connected slot is interconnected.

The water cooling plant water-filling degasification structure, in which: second connector has one second axially extending bore and one Second radially connected slot, second axially extending bore axially through second connector, the second radially connected slot be set to this One end of two connectors grafting corresponding with second hole, and extend radially through second connector, second axially extending bore with The second radially connected slot is interconnected.

The water cooling plant water-filling degasification structure, in which: first valve body has one first valve member, one first elasticity Element and one first valve seat, first valve member side extend one first valve rod, and first valve rod is inserted in movably corresponding Be connected to first valve seat, first elastic element is sheathed on first stem exterior and both ends support respectively first valve member and The first valve seat side.

The water cooling plant water-filling degasification structure, in which: second valve body has one second valve member, one second elasticity Element and one second valve seat, second valve member side extend one second valve rod, and second valve rod is inserted in movably corresponding Be connected to second valve seat, second elastic element is sheathed on second stem exterior and both ends support respectively second valve member and The second valve seat side.

The water cooling plant water-filling degasification structure, in which: first connector, the second connector and first hole Hole, the second hole are combined by way of screw lock or close-fitting or clamping.

The water cooling plant water-filling degasification structure, in which: first connector, the second connector and first hole One end that hole, the second hole combine has an external screw thread, and first hole, the second hole have an internal screw thread.

The water cooling plant water-filling degasification structure, in which: the one end of first connector in contrast to first hole In conjunction with one first tube body, first tube body can convey a cooling liquid and enter in the water space capacity of the water conservancy diversion ontology, institute The second connector is stated in contrast to one end of second hole in conjunction with one second tube body, second tube body can be by the water conservancy diversion sheet The water conservancy diversion ontology is discharged in extra gas and extra working fluid in the water space capacity of body.

The water cooling plant water-filling degasification structure, in which: the water space capacity of the water conservancy diversion ontology have a first chamber, One second chamber, a third chamber, a heat exchanger chambers and a communication port, the entrance are connected to the first chamber, and described Three chambers are connected to by the communication port with the heat exchanger chambers.

The water cooling plant water-filling degasification structure, in which: also have one first to pump and one second pumps, described first Pumping has a first entrance and a first outlet, and second pumping has a second entrance and a second outlet, and described the One entrance is connected to aforementioned first chamber, and the second chamber is connected to the first outlet and the second entrance, the third chamber Room is connected to the second outlet.

The water cooling plant water-filling degasification structure, in which: first hole is connected to the second chamber, first valve Body is correspondingly arranged in the second chamber, and second hole is connected to third chamber, and second valve body is correspondingly arranged in the third Chamber.

The water cooling plant water-filling degasification structure, in which: the entrance of the water conservancy diversion ontology and outlet are separately connected a pump Pu and water cooling row is connected by a third tube body and one the 4th tube body, which can drive the cooling liquid to carry out cooling and follow Ring, the water cooling row is for cooling down the cooling liquid.

Water-filling and exclusion air can need not can still be carried out to water cooling plant progress heavy industry by providing one kind by the utility model Water-filling degasification structure, enable water cooling plant service life and working efficiency that can be substantially improved.

Detailed description of the invention

Fig. 1 is the stereogram exploded view of the first embodiment of the water-filling degasification structure of the utility model water cooling plant；

Fig. 2 is the assembled sectional view of the first embodiment of the water-filling degasification structure of the utility model water cooling plant；

Fig. 3 is the use schematic diagram of the first embodiment of the water-filling degasification structure of the utility model water cooling plant；

Fig. 4 is the stereogram exploded view of the second embodiment of the water-filling degasification structure of the utility model water cooling plant；

Fig. 5 is the assembled sectional view of the second embodiment of the water-filling degasification structure of the utility model water cooling plant；

Fig. 6 is the use schematic diagram of the second embodiment of the water-filling degasification structure of the utility model water cooling plant.

Description of symbols: the water-filling degasification structure 1 of water cooling plant；Water conservancy diversion ontology 11；Entrance 111；Outlet 112；Rong Shui Space 113；First chamber 1131；Second chamber 1132；Third chamber 1133；Heat exchanger chambers 1134；Connector 1135；First Hole 114；Second hole 115；First valve body 12；First valve member 121；First valve rod 1211；First elastic element 122；First Valve seat 123；Second valve body 13；Second valve member 131；Second valve rod 1311；Second elastic element 132；Second valve seat 133；First Connector 14；First axis through-hole 141；First radially connected slot 142；External screw thread 143；Internal screw thread 144；Second connector 15； Second axially extending bore 151；Second radially connected slot 152；External screw thread 153；Internal screw thread 154；Cooling liquid 2；First tube body 3；The Two tube bodies 4；Pumping 5；Water cooling row 6；First pumping 7；First entrance 71；First outlet 72；Second pumping 8；Second entrance 81；The Two outlets 82；Third tube body 9；4th tube body 10.

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.

Fig. 1, Fig. 2, Fig. 3 are please referred to, is the vertical of the first embodiment of the water-filling degasification structure of the utility model water cooling plant Body decomposes and combines section view and usage state diagram, as shown, the water-filling degasification structure 1 of the utility model water cooling plant, includes: One water conservancy diversion ontology 11, one first valve body 12, one second valve body 13, one first connector 14, one second connector 15；

The water conservancy diversion ontology 11 has and an at least entrance 111 and an outlet 112 and a water space capacity 113 and one first hole Hole 114 and one second hole 115, it is described enter, outlet 111,112 and first and second hole 114,115 be connected to the water space capacity 113, the embodiment of the present invention water conservancy diversion ontology 11 is a water-cooling head, and the entrance 111 and the outlet 112 are connected to aforementioned water space capacity 113, which provide a cooling liquid 2, passes in and out the water space capacity 113, and first and second hole 114,115 selection is set to the water conservancy diversion ontology 115 setting of adjacent entries 111 or outlet also may be selected in 11 any places.

First valve body 12 in can open or closed first hole 114, and be correspondingly arranged at first hole 114；Second valve body 13 in can open or closed second hole 115, and be correspondingly arranged at second hole 115, institute It states the first connector 14 correspondence and is plugged in first hole 114, the correspondence of the second connector 15 is plugged in second hole 115。

First connector 14 has a first axis through-hole 141 and one first radially connected slot 142, the first axle To through-hole 141 axially through first connector 14, the first radially connected slot 142 be set to first connector 14 and this first One end of the corresponding grafting of hole 114, and first connector 14 is extended radially through, the first axis through-hole 141 and first diameter It is interconnected to link slot 142.

First valve body 12 has one first valve member 121 and one first elastic element 122 and one first valve seat 123, institute Stating 121 side of the first valve member to extend one first valve rod 1211 is in movably to correspond to be plugged in first valve seat 123, and described first Elastic element 122 is sheathed on 1211 outside of the first valve rod and first valve member 121 and first valve seat 123 are supported in both ends respectively Side.

Second valve body 13 has one second valve member 131 and one second elastic element 132 and one second valve seat 133, institute Stating 131 side of the second valve member to extend one second valve rod 1311 is in movably to correspond to be plugged in second valve seat 133, and described second Elastic element 132 is sheathed on 1311 outside of the second valve rod and second valve member 131 and second valve seat 133 are supported in both ends respectively Side.

Second connector 15 has one second axially extending bore 151 and one second radially connected slot 152, second axis To through-hole 151 axially through second connector 15, the second radially connected slot 152 be set to second connector 15 and this second One end of the corresponding grafting of hole 115, and second connector 15 is extended radially through, second axially extending bore 151 and second diameter It is interconnected to link slot 152.

First and second connector 14,15 makes mainly as the equipment and the water cooling plant for connecting external water-filling and degasification With, and since the first connector 14 is connected by the first axis through-hole 141 and the first radially connected slot 142, Yi Jisuo The second connector 15 is stated to be connected by second axially extending bore 151 and the second radially connected slot 152, thus when this first and second When connector 14,15 is connect by first and second hole 114,115 with the water conservancy diversion ontology 11, by first and second connector 14,15 First and second valve body 12,13 is pushed to compress downwards, and when first and second valve body 12,13 is compressed to a degree, this first and second The open communication of hole 114,115 water space capacity 113, and it is radially connected with the first and second of first and second connector 14,15 Slot 142,152 is connected, while passing through the first and second radially connected slot 142,152 and first and second axially extending bore 141,151, First connector 14 engages opposite one end with first hole 114 and is combined with one first tube body 3, first tube body 3 The cooling liquid 2 of conveying one enters in the water space capacity 113 of the water conservancy diversion ontology 11, second connector 15 and second hole 115 opposite one end of engagement are combined with one second tube body 4, and 4 system of the second tube body is by the water space capacity 113 of the water conservancy diversion ontology 11 In extra gas and extra cooling liquid 2 the water conservancy diversion ontology 11 is discharged.

First and second connector 14,15 passes through screw lock or close-fitting or the side of clamping with first and second hole 114,115 Formula combines, and the present embodiment system, which is illustrated in a manner of screw lock but is not regarded it as, to be limited, first and second connector 14,15 with One end that first and second hole 114,115 combines has an external screw thread 143,153, which has one Internal screw thread 144,154, and first and second connector 14,15 is laggard by the cooperation of 143,153,144,154 screw lock of internal and external screw thread Row engagement.

The entrance 111 of the water conservancy diversion ontology 11 and outlet 112 are separately connected a pumping 5 and by a third tube bodies 9 and one The connection of 4th tube body 10 and water cooling row 6, and drive cooling liquid 2 to carry out cooling cycle by the pumping 5, the water cooling row 6 is main It to be used as cooling cooling liquid 2, and the present embodiment this complete cooling cycle structure, and aforementioned first and second hole can be passed through First and second valve body 12,13 of hole 114,115 and corresponding setting collocation, first and second connector 14,15 can carry out water-filling And the operation of degasification.

Fig. 4, Fig. 5, Fig. 6 are please referred to, is the vertical of the second embodiment of the water-filling degasification structure of the utility model water cooling plant Body decomposes and combines section view and uses schematic diagram, as shown, the present embodiment part-structure is identical as aforementioned first embodiment, therefore It will not be described in great detail herein, only the present embodiment and aforementioned first embodiment difference are the water space capacity 113 of the water conservancy diversion ontology 11 With a first chamber 1131 and a second chamber 1132 and a third chamber 1133 and a heat exchanger chambers 1134 and a connection Mouth 1135, the entrance 111 is connected to the first chamber 1131, and the third chamber 1133 passes through the connector 1135 and the heat Heat exchanger chambers 1134 are connected to, and 1134 other side of heat exchanger chambers is connected to the outlet 112 and in addition the water conservancy diversion ontology 11 has There are one first pumping 7 and one second pumping 8, first pumping 7 has a first entrance 71 and a first outlet 72, and described the Two pumpings 8 have a second entrance 81 and a second outlet 82, and the first entrance 71 is connected to aforementioned second chamber 1132, institute It states second chamber 1132 to be connected to the first outlet 72 and the second entrance 81, the third chamber 1133 and the second outlet 82 And the connector 1135 is connected to, and is provided with a heat exchange interface 1136 in the heat exchanger chambers 1134.

First hole 114 described in the present embodiment is connected to the second chamber 1132, and first valve body 12 is correspondingly arranged in The second chamber 1132, second hole 115 are connected to third chamber 1133, and second valve body 13 is correspondingly arranged in the third Chamber 1133, the entrance 111 and the outlet 112 connect water cooling row 6.

First hole 114 and the second hole 115 are not restricted to that whichever is used as water-filling or whichever makes for degasification With, and first and second hole 114,115 and first and second valve body 12,13 are also not limited to and are set to the water conservancy diversion ontology 11 At any position.

By the utility model provide one kind water cooling plant need not can be carried out remove heavy industry can still carry out water-filling and exclusion The water-filling degasification structure of air, enables water cooling plant service life and working efficiency that can be substantially improved.

Claims (12)

1. a kind of water-filling degasification structure of water cooling plant, it is characterized in that comprising:

One water conservancy diversion ontology, have an at least entrance, an outlet, a water space capacity, one first hole and one second hole, it is described enter Mouth, outlet, the first hole and the second hole are connected to the water space capacity；

One first valve body, can open or closed first hole, and be correspondingly arranged at first hole；

One second valve body, can open or closed second hole, and be correspondingly arranged at second hole；

One first connector, correspondence are plugged in first hole；

One second connector, correspondence are plugged in second hole.

2. the water-filling degasification structure of water cooling plant according to claim 1, it is characterised in that: first connector has One first axis through-hole and one first radially connected slot, the first axis through-hole is axially through first connector, this first Radially connected slot is set to one end of first connector grafting corresponding with first hole, and extends radially through first connector, The first axis through-hole and the first radially connected slot are interconnected.

3. the water-filling degasification structure of water cooling plant according to claim 1, it is characterised in that: second connector has One second axially extending bore and one second radially connected slot, second axially extending bore is axially through second connector, this second Radially connected slot is set to one end of second connector grafting corresponding with second hole, and extends radially through second connector, Second axially extending bore and the second radially connected slot are interconnected.

4. the water-filling degasification structure of water cooling plant according to claim 1, it is characterised in that: first valve body has one First valve member, one first elastic element and one first valve seat, first valve member side extend one first valve rod, first valve Bar is plugged in first valve seat in movably corresponding, and first elastic element is sheathed on first stem exterior and both ends point First valve member and the first valve seat side are not supported.

5. the water-filling degasification structure of water cooling plant according to claim 1, it is characterised in that: second valve body has one Second valve member, one second elastic element and one second valve seat, second valve member side extend one second valve rod, second valve Bar is plugged in second valve seat in movably corresponding, and second elastic element is sheathed on second stem exterior and both ends point Second valve member and the second valve seat side are not supported.

6. the water-filling degasification structure of water cooling plant according to claim 1, it is characterised in that: first connector, Two connectors are combined by way of screw lock or close-fitting or clamping with first hole, the second hole.

7. the water-filling degasification structure of water cooling plant according to claim 6, it is characterised in that: first connector, The one end of two connectors in conjunction with first hole, the second hole has an external screw thread, and first hole, the second hole have one Internal screw thread.

8. the water-filling degasification structure of water cooling plant according to claim 1, it is characterised in that: first connector is opposite In one end of first hole in conjunction with one first tube body, first tube body can convey a cooling liquid and enter the water conservancy diversion sheet In the water space capacity of body, second connector in contrast to second hole one end in conjunction with one second tube body, described second The water conservancy diversion ontology can be discharged in gas extra in the water space capacity of the water conservancy diversion ontology and extra working fluid by tube body.

9. the water-filling degasification structure of water cooling plant according to claim 8, it is characterised in that: the appearance water of the water conservancy diversion ontology Space have a first chamber, a second chamber, a third chamber, a heat exchanger chambers and a communication port, the entrance with should First chamber connection, the third chamber are connected to by the communication port with the heat exchanger chambers.

10. the water-filling degasification structure of water cooling plant according to claim 9, it is characterised in that: also have one first pumping And one second pumping, first pumping have a first entrance and a first outlet, second pumping has one second to enter Mouthful and a second outlet, the first entrance be connected to aforementioned first chamber, the second chamber and the first outlet and this The connection of two entrances, the third chamber are connected to the second outlet.

11. the water-filling degasification structure of water cooling plant according to claim 9, it is characterised in that: the first hole connection The second chamber, first valve body are correspondingly arranged in the second chamber, and second hole is connected to third chamber, and described second Valve body is correspondingly arranged in the third chamber.

12. the water-filling degasification structure of water cooling plant according to claim 1, it is characterised in that: the water conservancy diversion ontology enters Mouth and outlet are separately connected a pumping and connect water cooling row by a third tube body and one the 4th tube body, which can drive Cooling liquid carries out cooling cycle, and the water cooling row is for cooling down the cooling liquid.