CN109240473A

CN109240473A - A kind of computer water-cooling radiating device and method

Info

Publication number: CN109240473A
Application number: CN201811420618.8A
Authority: CN
Inventors: 白井奎
Original assignee: Huayan Technology (dalian) Co Ltd
Current assignee: Huayan Technology (dalian) Co Ltd
Priority date: 2018-11-26
Filing date: 2018-11-26
Publication date: 2019-01-18

Abstract

The invention discloses a kind of computer water-cooling radiating device and methods, including computer cabinet, CPU and video card are fixed on the computer cabinet inner wall, the video card is set to the bottom CPU, the CPU side face is equipped with the first water-cooling mechanism, the video card side is equipped with the second water-cooling mechanism, first water-cooling mechanism and the second water-cooling mechanism include sheet copper, the sheet copper side is fixed with radiator coil tube and the other side is equipped with heat conduction silicone, and the radiator coil tube section is set as semicircle.By the present invention in that the first water-cooling mechanism can directly exchange heat with heat source when working with the second water-cooling mechanism, semicircular radiator coil tube is set as using section simultaneously to match, increase the heat exchange area of radiator coil tube and sheet copper, to effectively increase the heat dissipation effect of the first water-cooling mechanism Yu the second water-cooling mechanism, design is reasonable, practicability with higher.

Description

A kind of computer water-cooling radiating device and method

Technical field

The present invention relates to computer fittings technical field, in particular to a kind of computer water-cooling radiating device and method.

Background technique

When in use, cabinet radiates computer, and radiating mode in the prior art includes air-cooled and water cooling, And water-cooling heat radiating device in the prior art, in actual use there is also some disadvantages, the heat dissipation effect of computer not only can Computer energy consumption is improved, can also slow down the arithmetic speed of computer and cause system unstable, present water-cooling component It can not effectively be contacted with heat source, heat transfer effect is poor, poor so as to cause integral heat sink effect.

Therefore, it invents a kind of computer water-cooling radiating device and method is necessary to solve the above problems.

Summary of the invention

The purpose of the present invention is to provide a kind of computer water-cooling radiating device and methods, by directly dissipating the first water cooling Heat engine structure and the second water-cooling mechanism are mounted on CPU and video card side, in order to increase the first water-cooling mechanism and second Water-cooling mechanism and CPU and the direct contact area of video card, i.e. heat exchange area, make the first water-cooling mechanism and the second water cooling Cooling mechanism can directly exchange heat with heat source when working, while being set as semicircular radiator coil tube using section and matching It closes, increases the heat exchange area of radiator coil tube and sheet copper, dissipated to effectively increase the first water-cooling mechanism with the second water cooling The heat dissipation effect of heat engine structure, design is reasonable, practicability with higher, to solve the problems mentioned in the above background technology.

To achieve the above object, it the invention provides the following technical scheme: a kind of computer water-cooling radiating device, including calculates Machine cabinet, CPU and video card are fixed on the computer cabinet inner wall, and the video card is set to the bottom CPU, the CPU side face Equipped with the first water-cooling mechanism, the video card side be equipped with the second water-cooling mechanism, first water-cooling mechanism with Second water-cooling mechanism includes sheet copper, and the sheet copper side is fixed with radiator coil tube and the other side equipped with thermally conductive Layer of silica gel, the radiator coil tube section are set as semicircle, and described radiator coil tube one end is equipped with water inlet pipe and the other end is equipped with Outlet pipe, the water inlet pipe are equipped with booster pump, and the water inlet pipe and water outlet tube end are equipped with water tank, and the water tank, which is set to, to be calculated Machine cabinet intracavity bottom.

Preferably, the sheet copper side is fixed with seal closure, the seal closure inside, water inlet pipe outside and outlet pipe Outside is equipped with insulating layer.

Preferably, the seal closure side is fixed with screw rod, and the screw rod outer sheath is equipped with positive stop strip and limit spiral shell Mother, the stop nut are set on the outside of positive stop strip.

Preferably, the water tank side is fixed with multiple L shape heat sinks, and the L shape heat sink end is equipped with radiation air Fan.

Preferably, the computer cabinet side is equipped with air inlet and the other side is equipped with air outlet, and the air inlet is set In water tank side, the air outlet is set to radiator fan side.

Preferably, it is equipped with filter screen on the inside of the air inlet and air outlet, the air port and air outlet are and filter screen It is fixedly connected.

A kind of computer water-cooling heat dissipating method, including the computer water-cooling radiating device, comprising the following steps:

S1: the water inside water tank is drawn into radiator coil tube by starting booster pump, booster pump by water inlet pipe；

The heat that S2:CPU and video card generate when working passes through radiator fan first and is transferred on sheet copper, then heat dissipation plate Water in pipe exchanges heat with sheet copper, to cool down for sheet copper, allows the continual absorption CPU of sheet copper With the heat on video card；

S3: the water after heat exchange is returned to inside water tank by outlet pipe.

Technical effect and advantage of the invention:

1, the present invention is by being directly mounted on CPU and video card side for the first water-cooling mechanism and the second water-cooling mechanism Face is changed in order to increase the first water-cooling mechanism and the second water-cooling mechanism and CPU and the direct contact area of video card Heat area allows the first water-cooling mechanism directly to exchange heat with heat source when working with the second water-cooling mechanism, simultaneously Semicircular radiator coil tube is set as using section to match, and increases the heat exchange area of radiator coil tube and sheet copper, thus effectively The heat dissipation effect of the first water-cooling mechanism Yu the second water-cooling mechanism is improved, design is reasonable, practicability with higher；

2, by the way that L shape heat sink is arranged in water tank side, while air inlet and radiator fan are respectively arranged on water tank side With L shape heat sink end, in order to which when radiator fan works, outside air is sucked by air inlet, outside air is water tank Internal water cools down, while can again pass by L shape heat sink after outside air and water tank heat exchange, is then L shape heat sink Drop heat is carried out, so that L shape heat sink be allow constantly to absorb heat from water tank, further increases dissipating for water tank inside cooling water Thermal velocity.

Detailed description of the invention

Fig. 1 is overall structure diagram of the invention.

Fig. 2 is the first water-cooling mechanism structure schematic diagram of the invention.

Fig. 3 is radiator coil tube side structure schematic view of the invention.

In figure: 1 computer cabinet, 2CPU, 3 video cards, 4 first water-cooling mechanisms, 5 second water-cooling mechanisms, 6 thin copper Plate, 7 radiator coil tubes, 8 heat conduction silicones, 9 seal closures, 10 insulating layers, 11 water inlet pipes, 12 outlet pipes, 13 screw rods, 14 positive stop strips, 15 stop nuts, 16 water tanks, 17L shape heat sink, 18 radiator fans, 19 air inlets, 20 air outlets, 21 filter screens, 22 booster pumps.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Embodiment 1

It is described the present invention provides a kind of computer water-cooling radiating device as shown in Figs. 1-3, including computer cabinet 1 It is fixed with CPU2 and video card 3 on 1 inner wall of computer cabinet, the video card 3 is set to the bottom CPU2, and the side CPU2 is equipped with the One water-cooling mechanism 4,3 side of video card are equipped with the second water-cooling mechanism 5, first water-cooling mechanism 4 and the Two water-cooling mechanisms 5 include sheet copper 6, and 6 side of sheet copper is fixed with radiator coil tube 7 and the other side is equipped with and leads Hot layer of silica gel 8,7 section of radiator coil tube are set as semicircle, and described 7 one end of radiator coil tube is equipped with water inlet pipe 11 and another End is equipped with outlet pipe 12, and the water inlet pipe 11 is equipped with booster pump 22, and the water inlet pipe 11 is equipped with water tank with 12 end of outlet pipe 16, the water tank 16 is set to 1 intracavity bottom of computer cabinet.

Further, in the above-mentioned technical solutions, 6 side of sheet copper is fixed with seal closure 9, the seal closure 9 Insulating layer 10 is equipped on the outside of inside, 11 outside of water inlet pipe and outlet pipe 12.

Further, in the above-mentioned technical solutions, 9 side of seal closure is fixed with screw rod 13, outside the screw rod 13 Side set is equipped with positive stop strip 14 and stop nut 15, and the stop nut 15 is set to 14 outside of positive stop strip.

Further, in the above-mentioned technical solutions, 16 side of water tank is fixed with multiple L shape heat sinks 17, the L 17 end of shape heat sink is equipped with radiator fan 18.

Further, in the above-mentioned technical solutions, 1 side of computer cabinet is equipped with air inlet 19 and the other side is set There is air outlet 20, the air inlet 19 is set to 16 side of water tank, and the air outlet 20 is set to 18 side of radiator fan, by water L shape heat sink 17 is arranged in 16 side of case, while air inlet 19 and radiator fan 18 are respectively arranged on 16 side of water tank and the heat dissipation of L shape 17 end of plate, in order to which when radiator fan 18 works, outside air is sucked by air inlet 19, outside air is in water tank 16 The water in portion cools down, while can again pass by L shape heat sink 17 after outside air and the heat exchange of water tank 16, is then the heat dissipation of L shape Plate 17 carries out drop heat, so that L shape heat sink 17 be allow constantly to absorb heat from water tank 16, further increases inside water tank 16 The radiating rate of cooling water.

Further, in the above-mentioned technical solutions, filter screen 21, institute are equipped on the inside of the air inlet 1 and air outlet 20 It states air port 1 and is fixedly connected with filter screen 21 with air outlet 20.

Working method of the present invention:

Referring to Figure of description 1, attached drawing 2 and attached drawing 3, when work, start booster pump 22, booster pump 22 passes through water inlet pipe 11 Water inside water tank 16 is drawn into radiator coil tube 7, the heat that CPU2 and video card 3 generate when working passes through radiator fan first 18 are transferred on sheet copper 6, and then the water in radiator coil tube 7 exchanges heat with sheet copper 6, thus cool down for sheet copper 6, Allow sheet copper 6 is continual to absorb CPU2 and the heat on video card 3, the water after heat exchange returns to water tank by outlet pipe 12 Inside 16, the present invention is by being directly mounted on CPU2 and video card 3 for the first water-cooling mechanism 4 and the second water-cooling mechanism 5 Side, in order to increase the first water-cooling mechanism 4 and the second water-cooling mechanism 5 and CPU2 and the direct contact surface of video card 3 Product, i.e. heat exchange area carry out the first water-cooling mechanism 4 and the second water-cooling mechanism 5 directly with heat source when working Heat exchange, while being set as semicircular radiator coil tube 7 using section and matching, increase the heat-transfer surface of radiator coil tube 7 and sheet copper 6 Product, to effectively increase the heat dissipation effect of the first water-cooling mechanism 4 and the second water-cooling mechanism 5, design rationally, has Higher practicability；

Referring to Figure of description 1, by the way that L shape heat sink 17 is arranged in 16 side of water tank, while by air inlet 19 and radiating Fan 18 is respectively arranged on 16 side of water tank and 17 end of L shape heat sink, in order to when radiator fan 18 work when, outside air quilt It is sucked by air inlet 19, outside air cools down for the water inside water tank 16, while meeting after outside air and the heat exchange of water tank 16 Again pass by L shape heat sink 17, then for L shape heat sink 17 carry out drop heat, thus allow L shape heat sink 17 constantly from It absorbs heat on water tank 16, further increases the radiating rate of 16 inside cooling water of water tank.

Embodiment 2

S1: the water inside water tank 16 is drawn into radiator coil tube 7 by water inlet pipe 11 by starting booster pump 22, booster pump 22 In；

The heat that S2:CPU2 and video card 3 generate when working passes through radiator fan 18 first and is transferred on sheet copper 6, then Water in radiator coil tube 7 exchanges heat with sheet copper 6, to cool down for sheet copper 6, sheet copper 6 is continued not The disconnected heat absorbed on CPU2 and video card 3；

S3: the water after heat exchange is returned to inside water tank 16 by outlet pipe 12.

Finally, it should be noted that the foregoing is only a preferred embodiment of the present invention, it is not intended to restrict the invention, Although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art, still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features, All within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in of the invention Within protection scope.

Claims

1. a kind of computer water-cooling radiating device, including computer cabinet (1), it is characterised in that: in the computer cabinet (1) CPU (2) and video card (3) are fixed on wall, the video card (3) is set to CPU (2) bottom, and (2) side CPU is equipped with first Water-cooling mechanism (4), video card (3) side are equipped with the second water-cooling mechanism (5), first water-cooling mechanism It (4) include sheet copper (6) with the second water-cooling mechanism (5), sheet copper (6) side is fixed with radiator coil tube (7) And the other side is equipped with heat conduction silicone (8), radiator coil tube (7) section is set as semicircle, the radiator coil tube (7) one End is equipped with water inlet pipe (11) and the other end is equipped with outlet pipe (12), and the water inlet pipe (11) is equipped with booster pump (22), described Water inlet pipe (11) and outlet pipe (12) end are equipped with water tank (16), and the water tank (16) is set to computer cabinet (1) intracavity bottom.

2. a kind of computer water-cooling radiating device according to claim 1, it is characterised in that: sheet copper (6) side It is fixed with seal closure (9), is equipped with heat preservation on the inside of the seal closure (9), on the outside of water inlet pipe (11) with outlet pipe (12) outside Layer (10).

3. a kind of computer water-cooling radiating device according to claim 2, it is characterised in that: seal closure (9) side It is fixed with screw rod (13), screw rod (13) outer sheath is equipped with positive stop strip (14) and stop nut (15), the limit spiral shell Female (15) are set on the outside of positive stop strip (14).

4. a kind of computer water-cooling radiating device according to claim 1, it is characterised in that: water tank (16) side is solid Surely multiple L shape heat sinks (17) are equipped with, the L shape heat sink (17) end is equipped with radiator fan (18).

5. a kind of computer water-cooling radiating device according to claim 4, it is characterised in that: the computer cabinet (1) Side is equipped with air inlet (19) and the other side is equipped with air outlet (20), and the air inlet (19) is set to water tank (16) side, institute Air outlet (20) are stated set on radiator fan (18) side.

6. a kind of computer water-cooling radiating device according to claim 5, it is characterised in that: the air inlet (1) with go out It is equipped with filter screen (21) on the inside of air port (20), the air port (1) is fixedly connected with filter screen (21) with air outlet (20).

7. a kind of computer water-cooling heat dissipating method, including computer water-cooling radiating device as described in claim 1, feature exist In: the following steps are included:

S1: the internal water of water tank (16) is drawn into heat dissipation plate by water inlet pipe (11) by starting booster pump (22), booster pump (22) It manages in (7)；

The heat that S2:CPU (2) and video card (3) generate when working passes through radiator fan (18) first and is transferred on sheet copper (6), Then the water in radiator coil tube (7) exchanges heat with sheet copper (6), to cool down for sheet copper (6), so that sheet copper It (6) can the continual heat absorbed on CPU (2) and video card (3)；

S3: the water after heat exchange returns to water tank (16) inside by outlet pipe (12).