CN110647226A - Reinforced water-cooling computer cooling equipment - Google Patents

Abstract

The invention relates to a cooling device, in particular to reinforced water-cooling computer cooling equipment which comprises a water supply mechanism, a water supplementing mechanism, a cooling mechanism and a heat exchange mechanism, wherein the device can drive water to serve as a cooling medium for cooling, can perform a water tank cooling area, can cool a cooler, can cool a heat exchanger, one end of the water supply mechanism is connected with the cooling mechanism, the water supplementing mechanism is connected with the water supply mechanism, the cooling mechanism is connected with the heat exchange mechanism, and the heat exchange mechanism is connected with the water supplementing mechanism.

Description

Reinforced water-cooling computer cooling equipment

Technical Field

The invention relates to a cooling device, in particular to a reinforced water-cooling computer cooling device.

Background

In the working process of the computer, heat generation is an indispensable process, specific heat of water is large, temperature rise is less under the same condition of heat absorption, and in order to better and efficiently cool the computer, heat is taken away, so the reinforced water-cooling computer cooling equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a reinforced water-cooling computer cooling device, which can drive water to be used as a cooling medium for cooling, can carry out a water tank cold area, can cool a cooler and can cool a heat exchanger.

In order to solve the technical problems, the invention relates to a cooling device, in particular to a reinforced water-cooling computer cooling device which comprises a water supply mechanism, a water supplementing mechanism, a cooling mechanism and a heat exchange mechanism, wherein the device can drive water to be used as a cooling medium for cooling, can carry out a water tank cold area, can cool a cooler and can cool a heat exchanger.

One end of the water supply mechanism is connected with the cooling mechanism, the water replenishing mechanism is connected with the water supply mechanism, the cooling mechanism is connected with the heat exchange mechanism, and the heat exchange mechanism is connected with the water replenishing mechanism.

As further optimization of the technical scheme, the water supply mechanism of the reinforced water-cooling computer cooling equipment comprises a driving mechanism, a support, a water inlet cover, a pump shell, a valve cover, a water outlet cover, a linkage frame, plungers and shunt valves, wherein one end of the driving mechanism is fixed on the pump shell, one side of the driving mechanism is connected with the linkage frame, the support is fixed on the pump shell, the water inlet cover is positioned at one end of the pump shell, the valve cover is positioned at one end of the pump shell, the water outlet cover is positioned at one side of the valve cover, the middle part of the linkage frame is connected with the support, two ends of the linkage frame are connected with the plungers, the plungers are two, the plungers are positioned in the pump shell, and the; the driving mechanism comprises a driving motor, a driving sleeve and a bearing, the driving motor is fixed on the pump shell, the driving sleeve is connected with the driving motor, and the bearing is positioned at one end of the driving sleeve; the support comprises two driving sleeve supports, two reinforcing ribs, four linkage rod shafts and four fixing holes, the two driving sleeve supports are connected with the driving sleeve, the two reinforcing ribs are arranged, the linkage rod shafts are located in the middle of the support, and the four fixing holes are connected with the pump shell through screws; the water inlet cover comprises two plunger holes, two water inlet cavities and two water inlet holes of the water inlet cover, the plunger holes are in contact with the plungers, the water inlet cavities are arranged, the water inlet cavities are positioned on the inner side of the water inlet cover, the number of the water inlet holes of the water inlet cover is two, and the water inlet holes of the water inlet cover are communicated with the water inlet cavities; the valve cover comprises a valve cover plate and two water outlet valves, the valve cover plate is a cuboid, two through holes are processed in the valve cover plate, and the valve cover plate is positioned on the valve cover plate; the water outlet valve comprises a water outlet valve bracket, a valve core, a valve plate and a spring, wherein the water outlet valve bracket is a cylinder, a through hole is processed in the middle of the water outlet valve bracket, the valve core is positioned in the middle of the water outlet valve bracket, the valve plate is positioned on one side of the water outlet valve bracket, the valve plate is connected with the valve core, the spring is sleeved on the valve core, and one side of the spring is contacted with the water outlet valve bracket; the water outlet cover comprises a communicating groove and a water outlet hole of the water outlet cover, the communicating groove is rectangular, the water outlet cover is positioned on the inner side of the water outlet cover, the water outlet hole of the water outlet cover is positioned on the outer side of the water outlet cover, and the water outlet hole of the water outlet cover is communicated with the cooling mechanism through a pipe; the linkage frame comprises two connecting blocks, a connecting frame, two rotating holes and two sliding shafts, the two connecting blocks are square, through holes are formed in the middle of the connecting blocks, the connecting blocks are connected with the plunger, grooves are formed in the middle of the connecting frame, the rotating holes are formed in the middle of the linkage frame, the two sliding shafts are arranged on the sliding blocks, and the sliding shafts are in contact with the connecting frame; the plunger comprises a limiting screw, a water outlet cap, a piston, piston water inlet holes and piston rods, wherein threads are processed at one end of the limiting screw, the limiting screw is in threaded fit with the piston, the water outlet cap is a cylinder, through holes are processed on the side surface of the water outlet cap, the water outlet cap is positioned at the end part of the piston, four piston water inlet holes are formed in the piston water inlet holes, and one end of each piston rod is connected with the scouring stage; the water distribution valve comprises two plugs, two water distribution valve cores, two water distribution valve water inlets, two water distribution valve water outlets and a water distribution valve body, wherein the two plugs are positioned at two ends of the water distribution valve body; the shunt valve core comprises a shunt valve support, a shunt valve block and a shunt valve spring, the shunt valve support is a cylinder, a through hole is machined in the shunt valve support, the shunt valve block is located on one side of the shunt valve support, and the shunt valve spring is in contact with the shunt valve support.

As a further optimization of the technical scheme, the water replenishing mechanism of the enhanced water-cooling computer cooling device comprises a ventilating cover, a water tank, a protective cover and an impeller, wherein the ventilating cover is positioned at the upper part of the water tank; the ventilation cover comprises a cover body, a ventilation plate, a sliding column and a sliding block, wherein the cover body is a cuboid groove, the ventilation plate is rectangular, a through hole is formed in the lower part of the ventilation plate, the upper part of the sliding column is connected to the lower part of the ventilation plate, the sliding block is a hollow cylinder, and the sliding block is positioned on the sliding column; the water tank comprises a water tank water outlet, a water tank water return port, a heat dissipation plate and a water tank body, wherein the water tank water outlet is positioned at the lower part of the water tank body, the water tank water outlet is communicated with the water diversion valve through a water pipe, the water tank water return port is positioned at the upper part of the water tank body, the water tank water return port is communicated with the heat exchange mechanism through a water pipe, and the heat dissipation plate is positioned at one side of; the protective cover comprises four cylindrical protective cover bodies, four fixing frames and shaft holes, the fixing frames are connected with the heat dissipation plate, and the shaft holes are located in the middle of the protective cover; the impeller comprises an impeller motor and eight impellers, the impeller motor is positioned on the outer side of the protective cover, and the eight impellers are sleeved on a rotating shaft of the impeller motor.

As a further optimization of the technical scheme, the cooling mechanism of the enhanced water-cooling computer cooling device comprises a contact shell, a heat dissipation shell and a cooling fan, wherein the contact shell is connected with the heat dissipation shell, and the cooling fan is connected with the heat dissipation shell; the contact shell comprises breathable screws, a contact shell body, a spiral groove, contact shell water inlet holes and linking columns, the breathable screws are located at the top of the contact shell body, the spiral groove is located inside the contact shell body, the contact shell water inlet holes are located on the right side of the contact shell body, the contact shell water inlet holes are communicated with a water supply mechanism through water pipes, the number of the linking columns is four, and threads are machined inside the linking columns; the heat dissipation shell comprises shell plates, four screws, a sealing groove, shell plate water outlet holes and cooling rib plates, wherein the shell plates are square, the shell plates are in contact with the contact shell, the screws are in threaded fit with the linking columns, the sealing groove is in contact with the spiral groove, the shell plate water outlet holes are located in the middle of the shell plates, and the cooling rib plates are located on the outer sides of the shell plates; the cooling fan comprises a fan protective shell, a fan motor, two fan impellers and two connecting fixing plates, the fan protective shell is cylindrical, through holes are machined in the fan protective shell, the fan motor is located on the upper portion of the fan protective shell, the fan impellers are connected with the fan motor, and the connecting fixing plates are located on the lower portion of the fan protective shell.

As a further optimization of the technical scheme, the heat exchange mechanism of the reinforced water-cooling computer cooling equipment comprises a water outlet baffle, a cooling water tank, a gas release valve, a driving cooling tank, a wheel set mechanism and a belt, wherein the water outlet baffle is positioned on the left side of the cooling water tank; the cooling water tank comprises a ventilation groove, two shaft holes, two water grooves and two water through holes, wherein the ventilation groove is positioned at the upper part of the water grooves, the ventilation groove is communicated with the two water grooves, the shaft holes are positioned at the middle parts of the water grooves, and the two water through holes are positioned at one side of the water grooves; the air release valve comprises an air release groove, a threaded column and an air release hole, wherein the air release groove is positioned at the upper part of the threaded column, the air release hole is positioned inside the threaded column, and the air release hole is communicated with the air release groove; the driving cooling box comprises a groove box, a water inlet groove, a water outlet groove, a water driving wheel and a belt wheel, wherein the groove box is a cuboid, a groove is formed in the lower portion of the groove box, the water inlet groove is located in the right side of the groove box, the water outlet groove is located in the left side of the groove box, the water driving wheel is located in a groove in the lower portion of the groove box, and the belt wheel is connected with the water driving wheel; the wheel set mechanism comprises two outer wheels and two inner wheels, the outer wheels are located on two sides of the cooling water tank, and the inner wheels are located in the middle of the cooling water tank.

As a further optimization of the technical scheme, the support of the reinforced water-cooling computer cooling equipment is made of plastic.

As a further optimization of the technical scheme, the water tank of the reinforced water-cooling computer cooling equipment is made of stainless steel.

As a further optimization of the technical scheme, the cooling mechanism of the reinforced water-cooling computer cooling equipment is made of brass.

The reinforced water-cooling computer cooling equipment has the beneficial effects that:

the invention relates to a reinforced water-cooling computer cooling device, which can drive water to be used as a cooling medium for cooling, can perform a water tank cold area, can cool a cooler, and can cool a heat exchanger.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a computer cooling apparatus with enhanced water cooling according to the present invention.

FIG. 2 is a schematic structural diagram of a water supply mechanism 1 of a reinforced water-cooling computer cooling device according to the present invention.

FIG. 3 is a schematic structural diagram of the other side of the water supply mechanism 1 of the enhanced water-cooling computer cooling device of the present invention.

FIG. 4 is a schematic structural diagram of a driving mechanism 1-1 of a reinforced water-cooling computer cooling apparatus according to the present invention.

FIG. 5 is a schematic structural diagram of a rack 1-2 for reinforcing a water-cooled computer cooling apparatus according to the present invention.

FIG. 6 is a schematic view of a water inlet cover 1-3 of a reinforced water-cooling computer cooling device according to the present invention.

FIG. 7 is a schematic structural diagram of a valve cover 1-5 of an enhanced water-cooling computer cooling apparatus according to the present invention.

FIG. 8 is a schematic structural diagram of a water outlet valve 1-5-2 of an enhanced water cooling computer cooling apparatus according to the present invention.

FIG. 9 is a schematic structural diagram of a water outlet cover 1-6 of a water cooling computer cooling device according to the present invention.

FIG. 10 is a schematic structural diagram of a linkage frame 1-7 of a reinforced water-cooling computer cooling apparatus according to the present invention.

FIG. 11 is a schematic diagram of the structure of the plungers 1 to 8 of the enhanced water cooling computer cooling apparatus of the present invention.

FIG. 12 is a schematic structural diagram of a shunt valve 1-9 of an enhanced water-cooling computer cooling apparatus according to the present invention.

FIG. 13 is a schematic structural diagram of a shunt valve core 1-9-2 of the enhanced water-cooling computer cooling device of the present invention.

FIG. 14 is a schematic structural diagram of a water replenishing mechanism 2 of a water cooling computer cooling device according to the present invention.

FIG. 15 is a schematic structural diagram of a ventilation cover 2-1 of a reinforced water-cooling computer cooling device of the present invention.

FIG. 16 is a schematic view of a water tank 2-2 of a computer cooling apparatus with enhanced water cooling according to the present invention.

FIG. 17 is a schematic view of a protective cover 2-3 of an enhanced water-cooling computer cooling device according to the present invention.

FIG. 18 is a schematic view of an impeller 2-4 of a computer cooling apparatus with enhanced water cooling according to the present invention.

FIG. 19 is a schematic structural diagram of a cooling mechanism 3 of a reinforced water-cooling computer cooling apparatus according to the present invention.

FIG. 20 is a schematic view of a contact housing 3-1 of an enhanced water-cooling computer cooling apparatus according to the present invention.

FIG. 21 is a schematic structural diagram of a heat dissipation case 3-2 of a reinforced water-cooling computer cooling device of the present invention.

FIG. 22 is a schematic structural view of a cooling fan 3-3 of the enhanced water-cooling computer cooling apparatus of the present invention.

FIG. 23 is a schematic structural diagram of a heat exchanging mechanism 4 of a reinforced water-cooling computer cooling apparatus according to the present invention.

FIG. 24 is a schematic structural diagram of the other side of the heat exchanging mechanism 4 of the enhanced water-cooling computer cooling device of the present invention.

FIG. 25 is a schematic view of a cooling water tank 4-2 of a reinforced water-cooling computer cooling apparatus according to the present invention.

FIG. 26 is a schematic view of the structure of the other side of the cooling water tank 4-2 of the enhanced water-cooling computer cooling apparatus of the present invention.

FIG. 27 is a schematic view of a vent valve 4-3 of an enhanced water-cooling computer cooling apparatus according to the present invention.

FIG. 28 is a schematic view of a driving cooling box 4-4 of the enhanced water-cooling computer cooling apparatus according to the present invention.

FIG. 29 is a schematic structural diagram of a wheel set mechanism 4-5 of a water-cooling enhanced computer cooling apparatus according to the present invention.

In the figure: a water supply mechanism 1; a drive mechanism 1-1; a drive motor 1-1-1; 1-1-2 of a driving sleeve; 1-1-3 of a bearing; 1-2 of a bracket; a driving sleeve bracket 1-2-1; 1-2-2 parts of reinforcing ribs; 1-2-3 of a linkage rod shaft; 1-2-4 of a fixing hole; 1-3 of a water inlet cover; 1-3-1 of a plunger piston hole; a water inlet cavity 1-3-2; 1-3-3 of a water inlet hole of the water inlet cover; a pump housing 1-4; 1-5 parts of a valve cover; 1-5-1 of a valve cover plate; 1-5-2 parts of a water outlet valve; 1-5-2-1 of a water outlet valve bracket; a valve core 1-5-2-2; valve plates 1-5-2-3; 1-5-2-4 of a spring; 1-6 parts of a water outlet cover; a connecting groove 1-6-1; the water outlet cover is provided with a water outlet hole 1-6-2; 1-7 of a linkage frame; 1-7-1 of a connecting block; connecting frames 1-7-2; rotating the holes 1-7-3; 1-7-4 of a sliding shaft; 1-8 parts of a plunger; 1-8-1 of a limiting screw; 1-8-2 parts of a water outlet cap; 1-8-3 of a piston; 1-8-4 parts of a piston water inlet; 1-8-5 parts of a piston rod; 1-9 parts of a shunt valve; plug 1-9-1; a shunt valve core 1-9-2; a shunt valve bracket 1-9-2-1; a water diversion valve plate 1-9-2-2; 1-9-2-3 parts of a shunt valve spring; 1-9-3 parts of a water inlet of the shunt valve; 1-9-4 parts of a water outlet of the shunt valve; 1-9-5 parts of a shunt valve body; a water replenishing mechanism 2; 2-1 of a ventilation cover; a cover body 2-1-1; 2-1-2 parts of a ventilating plate; 2-1-3 of a sliding column; 2-1-4 of a sliding block; 2-2 of a water tank; a water outlet 2-2-1 of the water tank; a water return port 2-2-2 of the water tank; heat dissipation plates 2-2-3; 2-2-4 of a water tank body; 2-3 of a protective cover; 2-3-1 of a protective cover body; a fixed frame 2-3-2; 2-3-3 of a shaft hole; 2-4 parts of an impeller; 2-4-1 of an impeller motor; eight impellers 2-4-2; a cooling mechanism 3; contact shell 3-1; 3-1-1 parts of breathable screws; contact housing 3-1-2; 3-1-3 of spiral groove; contact shell water inlet holes 3-1-4; 3-1-5 of a linking column; 3-2 of a heat dissipation shell; a shell plate 3-2-1; 3-2-2 of a screw; a seal groove 3-2-3; 3-2-4 parts of a shell plate water outlet; cooling the rib plates 3-2-5; 3-3 of a cooling fan; a heat exchange mechanism 4; a water outlet baffle 4-1; 4-2 of a cooling water tank; 4-2-1 of a ventilation groove; the shaft hole 4-2-2; 4-2-3 of a water tank; 4-2-4 of a water through hole; 4-3 of a deflation valve; 4-3-1 of a gas release tank; 4-3-2 of a threaded column; 4-3-3 of an air vent; driving the cooling box 4-4; 4-4-1 of a groove box; 4-4-2 of a water inlet tank; 4-4-3 of a water outlet groove; 4-4-4 of a water drive wheel; belt wheels 4-4-5; 4-5 of a wheel set mechanism; belts 4-6.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, and 29, and the present invention relates to a sampling device, and more specifically, to a forced water cooling computer cooling apparatus including a water supply mechanism 1, a water replenishment mechanism 2, a cooling mechanism 3, and a heat exchange mechanism 4, and the device can drive water as a cooling medium to perform cooling, can perform a water tank cooling zone, can perform cooling of a cooler, and can perform cooling of a heat exchanger.

One end of the water supply mechanism 1 is connected with the cooling mechanism 3, the water replenishing mechanism 2 is connected with the water supply mechanism 1, the cooling mechanism 3 is connected with the heat exchange mechanism 4, and the heat exchange mechanism 4 is connected with the water replenishing mechanism 2.

The second embodiment is as follows:

the present embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, in which the water supply mechanism 1 includes a driving mechanism 1-1, a bracket 1-2, a water inlet cover 1-3, a pump housing 1-4, a valve cover 1-5, a water outlet cover 1-6, a linkage frame 1-7, a plunger 1-8, and a water diversion valve 1-9, one end of the driving mechanism 1-1 is fixed to the pump housing 1-4, one side of the driving mechanism 1-1 is connected to the linkage frame 1-7, the bracket 1-2 is fixed to the pump housing 1-4, the water inlet cover 1-3 is positioned at one end of the pump shell 1-4, the valve cover 1-5 is positioned at one end of the pump shell 1-4, the water outlet cover 1-6 is positioned at one side of the valve cover 1-5, the middle part of the linkage frame 1-7 is connected with the bracket 1-2, two ends of the linkage frame 1-7 are connected with the plungers 1-8, two plungers 1-8 are arranged, the plungers 1-8 are positioned in the pump shell 1-4, and the shunt valve 1-9 is positioned at one side of the water inlet cover 1-3; the driving mechanism 1-1 comprises a driving motor 1-1-1, a driving sleeve 1-1-2 and a bearing 1-1-3, the driving motor 1-1-1 is fixed on a pump shell 1-4, the driving sleeve 1-1-2 is connected with the driving motor 1-1-1, and the bearing 1-1-3 is positioned at one end of the driving sleeve 1-1-2; the support 1-2 comprises two drive sleeve supports 1-2-1, two reinforcing ribs 1-2-2, two linkage rod shafts 1-2-3 and two fixing holes 1-2-4, the drive sleeve supports 1-2-1 are connected with the drive sleeves 1-1-2, the reinforcing ribs 1-2-2 are arranged, the linkage rod shafts 1-2-3 are located in the middle of the support 1-2, the number of the fixing holes 1-2-4 is four, and the fixing holes 1-2-4 are connected with the pump shell 1-4 through screws; the water inlet cover 1-3 comprises two plunger holes 1-3-1, two water inlet cavities 1-3-2 and two water inlet holes 1-3-3 of the water inlet cover, the plunger holes 1-3-1 are in contact with the plungers 1-8, the number of the water inlet cavities 1-3-2 is two, the water inlet cavities 1-3-2 are positioned on the inner side of the water inlet cover 1-3, the number of the water inlet holes 1-3-3 of the water inlet cover is two, and the water inlet holes 1-3-3 of the water inlet cover are communicated with the water inlet cavities 1-3-2; the valve cover 1-5-1 comprises a valve cover plate 1-5-1 and two water outlet valves 1-5-2, the valve cover plate 1-5-1 is a cuboid, two through holes are processed on the valve cover plate 1-5-1, the two water outlet valves 1-5-2 are arranged, and the valve cover plate 1-5-1 is positioned on the valve cover plate 1-5-1; the water outlet valve 1-5-2 comprises a water outlet valve bracket 1-5-2-1, a valve core 1-5-2-2, a valve plate 1-5-2-3 and a spring 1-5-2-4, wherein the water outlet valve bracket 1-5-2-1 is a cylinder, a through hole is processed in the middle of the water outlet valve bracket 1-5-2-1, the valve core 1-5-2-2 is positioned in the middle of the water outlet valve bracket 1-5-2-1, the valve plate 1-5-2-3 is positioned at one side of the water outlet valve bracket 1-5-2-1, the valve plate 1-5-2-3 is connected with the valve core 1-5-2-2, the spring 1-5-2-4 is sleeved on the valve core 1-5-2-2, one side of the spring 1-5-2-4 is contacted with the water outlet valve bracket 1-5-2-1; the water outlet cover 1-6 comprises a communicating groove 1-6-1 and a water outlet hole 1-6-2 of the water outlet cover, the communicating groove 1-6-1 is rectangular, the water outlet cover 1-6 is positioned at the inner side of the water outlet cover 1-6, the water outlet hole 1-6-2 of the water outlet cover is positioned at the outer side of the water outlet cover 1-6, and the water outlet hole 1-6-2 of the water outlet cover is communicated with the cooling mechanism 3 through a pipe; the linkage frame 1-7 comprises a connecting block 1-7-1, a connecting frame 1-7-2, a rotating hole 1-7-3 and a sliding shaft 1-7-4, two connecting blocks 1-7-1 are arranged, the connecting blocks 1-7-1 are square, through holes are formed in the middle of the connecting blocks 1-7-1, the connecting blocks 1-7-1 are connected with plungers 1-8, grooves are formed in the middle of the connecting frames 1-7-2, the rotating holes 1-7-3 are located in the middle of the linkage frames 1-7, two sliding shafts 1-7-4 are arranged, the sliding shafts 1-7-4 are located on the sliding blocks 1-7-1, and the sliding shafts 1-7-4 are in contact with the connecting frames 1-7-2; the plunger 1-8 comprises a limiting screw 1-8-1, a water outlet cap 1-8-2, a piston 1-8-3, a piston water inlet 1-8-4 and a piston rod 1-8-5, wherein threads are processed at one end of the limiting screw 1-8-1, the limiting screw 1-8-1 is in threaded fit with the piston 1-8-3, the water outlet cap 1-8-2 is a cylinder, a through hole is processed on the side surface of the water outlet cap 1-8-2, the water outlet cap 1-8-2 is positioned at the end part of the piston 1-8-3, four piston water inlet holes 1-8-4 are arranged, and one end of the piston rod 1-8-5 is connected with a scouring block 1-7-1; the shunt valve 1-9 comprises a plug 1-9-1, a shunt valve core 1-9-2, a shunt valve water inlet 1-9-3, a shunt valve water outlet 1-9-4 and a shunt valve body 1-9-5, two plugs 1-9-1 are arranged, the plugs 1-9-1 are positioned at two ends of a valve body 1-9-5 of the shunt valve, two shunt valve cores 1-9-2 are arranged, the shunt valve cores 1-9-2 are positioned inside the shunt valve body 1-9-5, a water inlet 1-9-3 of the shunt valve is communicated with a water supplementing mechanism 2 through a water pipe, two shunt valve water outlets 1-9-4 are arranged, and a water outlet 1-9-4 of the shunt valve is communicated with a water inlet cover 1-3; the shunt valve core 1-9-2 comprises a shunt valve support 1-9-2-1, a shunt valve plate 1-9-2-2 and a shunt valve spring 1-9-2-3, wherein the shunt valve support 1-9-2-1 is a cylinder, a through hole is processed in the shunt valve support 1-9-2-1, the shunt valve plate 1-9-2-2 is positioned at one side of the shunt valve support 1-9-2-1, and the shunt valve spring 1-9-2-3 is in contact with the shunt valve support 1-9-2-1. Connecting a driving motor 1-1-1 into a circuit, starting the driving motor 1-1-1, driving the driving motor 1-1-1 to rotate to drive a driving sleeve 1-1-2 to rotate, enabling the driving sleeve 1-1-2 to be in contact with a sliding shaft 1-7-4, driving the driving sleeve 1-1-2 to drive the sliding shaft 1-7-4 to move along a groove on the driving sleeve 1-1-2, enabling the sliding shaft 1-7-4 to drive a connecting block 1-7-1 to move, enabling the connecting block 1-7-1 to drive a plunger 1-8 to move, enabling a water outlet cap 1-8-2 to cling to a piston 1-8-3 when the plunger 1-8 moves towards a water outlet cover 1-6, and blocking a water inlet hole 1-8-4 of the piston, and water is discharged, the plunger 1-8 at the lower part moves towards the water inlet cover 1-3, the water outlet cap 1-8-2 leaves the piston 1-8-3 under the action of friction force and water pressure, the through hole on the water outlet cap 1-8-2 is communicated with the water inlet hole 1-8-4 of the piston, and water enters the other side of the plunger 1-8.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and will be described further with reference to the first embodiment, the water supplementing mechanism 2 comprises a ventilating cover 2-1, a water tank 2-2, a protective cover 2-3 and an impeller 2-4, wherein the ventilating cover 2-1 is positioned at the upper part of the water tank 2-2, the water tank 2-2 is positioned at the upper part of the water supplying mechanism 1, the protective cover 2-3 is positioned at one side of the water tank 2-2, the impeller 2-4 is positioned at one side of the water tank 2-2, and the impeller 2-3 is positioned at the inner side of the protective cover 2-3; the air permeable cover 2-1 comprises a cover body 2-1-1, an air permeable plate 2-1-2, a sliding column 2-1-3 and a sliding block 2-1-4, wherein the cover body 2-1-1 is a cuboid groove, the air permeable plate 2-1-2 is rectangular, a through hole is processed at the lower part of the air permeable plate 2-1-2, the upper part of the sliding column 2-1-3 is connected with the lower part of the air permeable plate 2-1-2, the sliding block 2-1-4 is a hollow cylinder, and the sliding block 2-1-4 is positioned on the sliding column 2-1-3; the water tank 2-2 comprises a water tank water outlet 2-2-1, a water tank water return port 2-2-2, a heat dissipation plate 2-2-3 and a water tank body 2-2-4, wherein the water tank water outlet 2-2-1 is positioned at the lower part of the water tank body 2-2-4, the water tank water outlet 2-2-1 is communicated with a water distribution valve 1-9 through a water pipe, the water tank water return port 2-2-2 is positioned at the upper part of the water tank body 2-2-4, the water tank water return port 2-2-2 is communicated with a heat exchange mechanism 4 through a water pipe, and the heat dissipation plate 2-2-3 is positioned at one side of the water tank body 2; the protective cover 2-3 comprises a protective cover body 2-3-1, four fixing frames 2-3-2 and shaft holes 2-3-3, the protective cover body 2-3-1 is cylindrical, the number of the fixing frames 2-3-2 is four, the fixing frames 2-3-2 are connected with the heat dissipation plate 2-2-3, and the shaft holes 2-3-3 are located in the middle of the protective cover 2-3; the impeller 2-4 comprises an impeller motor 2-4-1 and an eight impeller 2-4-2, the impeller motor 2-4-1 is positioned at the outer side of the protective cover 2-3, and the eight impeller 2-4-2 is sleeved on a rotating shaft of the impeller motor 2-4-1. Water is flushed into the water tank 2-2, when the water supply mechanism 1 works, water enters the water supply mechanism from a water tank water outlet 2-2-1 of the water tank 2-2, water is supplemented, when the water flows back into the water tank 2-2 from the heat exchange mechanism 4, the air permeable cover 2-1 can prevent water from overflowing and remove air, when the air is more, the sliding block 2-1-4 is below, the air flows out from the lower part of the air permeable plate 2-1-2, when the water level rises, the sliding block 2-1-4 moves upwards under the action of buoyancy to block holes in the lower part of the air permeable plate 2-1-2, and the impeller 2-4 rotates to take away the water heat in the water tank 2-2.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and further describes the present embodiment, in which the cooling mechanism 3 includes a contact shell 3-1, a heat dissipation shell 3-2, and a cooling fan 3-3, the contact shell 3-1 is connected to the heat dissipation shell 3-2, and the cooling fan 3-3 is connected to the heat dissipation shell 3-2; the contact shell 3-1 comprises breathable screws 3-1-1, contact shells 3-1-2, spiral grooves 3-1-3, contact shell water inlet holes 3-1-4 and linking columns 3-1-5, the breathable screws 3-1-1 are positioned at the tops of the contact shells 3-1-2, the spiral grooves 3-1-3 are positioned inside the contact shells 3-1-2, the contact shell water inlet holes 3-1-4 are positioned on the right sides of the contact shells 3-1-2, the contact shell water inlet holes 3-1-4 are communicated with the water supply mechanism 1 through water pipes, four linking columns 3-1-5 are arranged, and threads are processed inside the linking columns 3-1-5; the heat dissipation shell 3-2 comprises a shell plate 3-2-1, screws 3-2-2, a sealing groove 3-2-3, shell plate water outlet holes 3-2-4 and cooling rib plates 3-2-5, wherein the shell plate 3-2-1 is square, the shell plate 3-2-1 is in contact with a contact shell 3-1-2, four screws 3-2-2 are arranged, the screws 3-2-2 are in threaded fit with the linking columns 3-1-5, the sealing groove 3-2-3 is in contact with the spiral grooves 3-1-3, the shell plate water outlet holes 3-2-4 are located in the middle of the shell plate 3-2-1, and the cooling rib plates 3-2-5 are located on the outer side of the shell plate 3-2-1; the cooling fan 3-3 comprises a fan protective shell 3-3-1, a fan motor 3-3-2, a fan impeller 3-3-3 and a connecting fixing plate 3-3-4, the fan protective shell 3-3-1 is cylindrical, a through hole is processed in the fan protective shell 3-3-1, the fan motor 3-3-2 is located on the upper portion of the fan protective shell 3-3-1, the fan impeller 3-3-3 is connected with the fan motor 3-3-2, the connecting fixing plates 3-3-4 are two, and the connecting fixing plate 3-3-4 is located on the lower portion of the fan protective shell 3-3-1. In the initial stage, the ventilating screw 3-1-1 is opened to discharge air, then the ventilating screw 3-1-1 is closed, water enters the contact shell 3-1 and moves along the spiral groove 3-1-3 to take heat out of the shell plate drain hole 3-2-4, and partial heat is radiated into the air under the action of the cooling fan 3-3.

The fifth concrete implementation mode:

the present embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, in which the heat exchanging mechanism 4 includes a water outlet baffle 4-1, a cooling water tank 4-2, a purge valve 4-3, a driving cooling tank 4-4, a wheel set mechanism 4-5, and a belt 4-6, the water outlet baffle 4-1 is located on the left side of the cooling water tank 4-2, the cooling water tank 4-2 is provided with a double-layer structure, the purge valve 4-3 is located on the upper portion of the cooling water tank 4-2, the driving cooling tank 4-4 is located on, the wheel set mechanism 4-5 is positioned in the middle of the cooling water tank, one end of the belt 4-6 is connected with the driving cooling tank 4-4, and one end of the belt 4-6 is connected with the wheel set mechanism 4-5; the cooling water tank 4-2 comprises a ventilation groove 4-2-1, a shaft hole 4-2-2, a water tank 4-2-3 and water passing holes 4-2-4, wherein the ventilation groove 4-2-1 is positioned at the upper part of the water tank 4-2-3, the ventilation groove 4-2-1 is communicated with the two water tanks 4-2-3, the shaft hole 4-2-2 is positioned at the middle part of the water tank 4-2-3, the number of the water tanks 4-2-3 is two, the number of the water passing holes 4-2-4 is two, and the water passing holes 4-2-4 are positioned at one side of the water tank 4-2-3; the air release valve 4-3 comprises an air release groove 4-3-1, a threaded column 4-3-2 and an air release hole 4-3-3, the air release groove 4-3-1 is positioned at the upper part of the threaded column 4-3-2, the air release hole 4-3-3 is positioned inside the threaded column 4-3-2, and the air release hole 4-3-3 is communicated with the air release groove 4-3-1; the driving cooling box 4-4 comprises a groove box 4-4-1, a water inlet groove 4-4-2, a water outlet groove 4-4-3, a water driving wheel 4-4-4 and a belt wheel 4-4-5, the groove box 4-4-1 is a cuboid, a groove is machined in the lower portion of the groove box 4-4-1, the water inlet groove 4-4-2 is located on the right side of the groove box 4-4-1, the water outlet groove 4-4-3 is located on the left side of the groove box 4-4-1, the water driving wheel 4-4-4 is located in a groove in the lower portion of the groove box 4-4-1, and the belt wheel 4-4-5 is connected with the water driving wheel 4-4-4; the wheel set mechanism 4-5 comprises an outer wheel 4-5-1 and an inner wheel 4-5-2, wherein the number of the outer wheel 4-5-1 is two, the outer wheel 4-5-1 is positioned at two sides of the cooling water tank 4-2, and the inner wheel 4-5-2 is positioned at the middle part of the cooling water tank 4-2. When hot water flows into the driving cooling box 4-4, the water driving wheel 4-4-4 is driven to rotate, the water driving wheel 4-4-4 drives the belt wheel 4-4-5 to rotate, the belt wheel 4-4-5 drives the belt 4-6 to rotate, and the belt drives the wheel set mechanism 4-5 to rotate, so that the cooling water tank 4-2 is cooled.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and the present embodiment further describes a first embodiment in which the above-described holder 1-2 is made of a plastic material.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, and 29, and the present embodiment further describes a first embodiment in which the water tank 2-2 is made of stainless steel.

The specific implementation mode is eight:

next, the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and the cooling mechanism 3 is made of brass.

The working principle of the device is as follows: 1 water supply principle: connecting a driving motor 1-1-1 into a circuit, starting the driving motor 1-1-1, driving the driving motor 1-1-1 to rotate to drive a driving sleeve 1-1-2 to rotate, enabling the driving sleeve 1-1-2 to be in contact with a sliding shaft 1-7-4, driving the driving sleeve 1-1-2 to drive the sliding shaft 1-7-4 to move along a groove on the driving sleeve 1-1-2, enabling the sliding shaft 1-7-4 to drive a connecting block 1-7-1 to move, enabling the connecting block 1-7-1 to drive a plunger 1-8 to move, enabling a water outlet cap 1-8-2 to cling to a piston 1-8-3 when the plunger 1-8 moves towards a water outlet cover 1-6, and blocking a water inlet hole 1-8-4 of the piston, and water is discharged, the plunger 1-8 at the lower part moves towards the water inlet cover 1-3, the water outlet cap 1-8-2 leaves the piston 1-8-3 under the action of friction force and water pressure, the through hole on the water outlet cap 1-8-2 is communicated with the water inlet hole 1-8-4 of the piston, and water enters the other side of the plunger 1-8.

2, water supplementing and cooling principle: water is flushed into the water tank 2-2, when the water supply mechanism 1 works, water enters the water supply mechanism from a water tank water outlet 2-2-1 of the water tank 2-2, water is supplemented, when the water flows back into the water tank 2-2 from the heat exchange mechanism 4, the air permeable cover 2-1 can prevent water from overflowing and remove air, when the air is more, the sliding block 2-1-4 is below, the air flows out from the lower part of the air permeable plate 2-1-2, when the water level rises, the sliding block 2-1-4 moves upwards under the action of buoyancy to block holes in the lower part of the air permeable plate 2-1-2, and the impeller 2-4 rotates to take away the water heat in the water tank 2-2.

3, cooling principle: in the initial stage, the ventilating screw 3-1-1 is opened to discharge air, then the ventilating screw 3-1-1 is closed, water enters the contact shell 3-1 and moves along the spiral groove 3-1-3 to take heat out of the shell plate drain hole 3-2-4, and partial heat is radiated into the air under the action of the cooling fan 3-3.

4, heat exchange principle: when hot water flows into the driving cooling box 4-4, the water driving wheel 4-4-4 is driven to rotate, the water driving wheel 4-4-4 drives the belt wheel 4-4-5 to rotate, the belt wheel 4-4-5 drives the belt 4-6 to rotate, and the belt drives the wheel set mechanism 4-5 to rotate, so that the cooling water tank 4-2 is cooled.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (8)

1. The utility model provides a strengthen water-cooling computer cooling arrangement, includes water supply mechanism (1), moisturizing mechanism (2), cooling body (3), heat transfer mechanism (4), its characterized in that: one end of the water supply mechanism (1) is connected with the cooling mechanism (3), the water replenishing mechanism (2) is connected with the water supply mechanism (1), the cooling mechanism (3) is connected with the heat exchange mechanism (4), and the heat exchange mechanism (4) is connected with the water replenishing mechanism (2).

2. An enhanced water-cooled computer cooling apparatus as set forth in claim 1, wherein: the water supply mechanism (1) comprises a driving mechanism (1-1), a support (1-2), a water inlet cover (1-3), a pump shell (1-4), a valve cover (1-5), a water outlet cover (1-6), a linkage frame (1-7), a plunger (1-8) and a shunt valve (1-9), wherein one end of the driving mechanism (1-1) is fixed on the pump shell (1-4), one side of the driving mechanism (1-1) is connected with the linkage frame (1-7), the support (1-2) is fixed on the pump shell (1-4), the water inlet cover (1-3) is positioned at one end of the pump shell (1-4), the valve cover (1-5) is positioned at one end of the pump shell (1-4), the water outlet cover (1-6) is positioned at one side of the valve cover (1-5), the middle of a linkage frame (1-7) is connected with a support (1-2), two ends of the linkage frame (1-7) are connected with two plungers (1-8), the two plungers (1-8) are arranged, the plungers (1-8) are positioned in a pump shell (1-4), and a shunt valve (1-9) is positioned on one side of a water inlet cover (1-3); the driving mechanism (1-1) comprises a driving motor (1-1-1), a driving sleeve (1-1-2) and a bearing (1-1-3), the driving motor (1-1-1) is fixed on the pump shell (1-4), the driving sleeve (1-1-2) is connected with the driving motor (1-1-1), and the bearing (1-1-3) is positioned at one end of the driving sleeve (1-1-2); the support (1-2) comprises a driving sleeve support (1-2-1), two reinforcing ribs (1-2-2), two linkage rod shafts (1-2-3) and two fixing holes (1-2-4), the driving sleeve support (1-2-1) is connected with the driving sleeve (1-1-2), the reinforcing ribs (1-2-2) are provided, the linkage rod shafts (1-2-3) are located in the middle of the support (1-2), the number of the fixing holes (1-2-4) is four, and the fixing holes (1-2-4) are connected with the pump shell (1-4) through screws; the water inlet cover (1-3) comprises two plunger holes (1-3-1), two water inlet cavities (1-3-2) and two water inlet holes (1-3-3) of the water inlet cover, the plunger holes (1-3-1) are in contact with the plunger (1-8), the number of the water inlet cavities (1-3-2) is two, the water inlet cavities (1-3-2) are located on the inner side of the water inlet cover (1-3), the number of the water inlet holes (1-3-3) of the water inlet cover is two, and the water inlet holes (1-3-3) of the water inlet cover are communicated with the water inlet cavities (1-3-2); the valve cover (1-5-1) comprises a valve cover plate (1-5-1) and two water outlet valves (1-5-2), wherein the valve cover plate (1-5-1) is a cuboid, two through holes are processed in the valve cover plate (1-5-1), the two water outlet valves (1-5-2) are arranged, and the valve cover plate (1-5-1) is positioned on the valve cover plate (1-5-1); the water outlet valve (1-5-2) comprises a water outlet valve bracket (1-5-2-1), a valve core (1-5-2-2), a valve plate (1-5-2-3) and a spring (1-5-2-4), wherein the water outlet valve bracket (1-5-2-1) is a cylinder, a through hole is processed in the middle of the water outlet valve bracket (1-5-2-1), the valve core (1-5-2-2) is positioned in the middle of the water outlet valve bracket (1-5-2-1), the valve plate (1-5-2-3) is positioned on one side of the water outlet valve bracket (1-5-2-1), the valve plate (1-5-2-3) is connected with the valve core (1-5-2-2), the spring (1-5-2-4) is sleeved on the valve core (1-5-2-2), and one side of the spring (1-5-2-4) is contacted with the water outlet valve bracket (1-5-2-1); the water outlet cover (1-6) comprises a communicating groove (1-6-1) and a water outlet hole (1-6-2) of the water outlet cover, the communicating groove (1-6-1) is rectangular, the water outlet cover (1-6) is positioned on the inner side of the water outlet cover (1-6), the water outlet hole (1-6-2) of the water outlet cover is positioned on the outer side of the water outlet cover (1-6), and the water outlet hole (1-6-2) of the water outlet cover is communicated with the cooling mechanism (3) through a pipe; the linkage frame (1-7) comprises two connecting blocks (1-7-1), two connecting frames (1-7-2), two rotating holes (1-7-3) and two sliding shafts (1-7-4), the connecting blocks (1-7-1) are square, the middle parts of the connecting blocks (1-7-1) are provided with through holes, the connecting blocks (1-7-1) are connected with plungers (1-8), the middle parts of the connecting frames (1-7-2) are provided with grooves, the rotating holes (1-7-3) are positioned in the middle parts of the linkage frame (1-7), the sliding shafts (1-7-4) are provided with two sliding shafts (1-7-4) which are positioned on the sliding blocks (1-7-1), the sliding shaft (1-7-4) is contacted with the connecting frame (1-7-2); the plunger (1-8) comprises a limit screw (1-8-1), a water outlet cap (1-8-2) and a piston (1-8-3), the water outlet device comprises a piston water inlet hole (1-8-4) and a piston rod (1-8-5), wherein one end of a limiting screw (1-8-1) is provided with a thread, the limiting screw (1-8-1) is in threaded fit with a piston (1-8-3), a water outlet cap (1-8-2) is a cylinder, the side surface of the water outlet cap (1-8-2) is provided with a through hole, the water outlet cap (1-8-2) is positioned at the end part of the piston (1-8-3), four piston water inlet holes (1-8-4) are arranged, and one end of the piston rod (1-8-5) is connected with a scouring block (1-7-1); the shunt valve (1-9) comprises two plugs (1-9-1), two shunt valve cores (1-9-2), two shunt valve inlets (1-9-3), two shunt valve outlets (1-9-4) and two shunt valve bodies (1-9-5), the plugs (1-9-1) are positioned at two ends of the shunt valve bodies (1-9-5), the shunt valve cores (1-9-2) are positioned inside the shunt valve bodies (1-9-5), the shunt valve inlets (1-9-3) are communicated with the water supplementing mechanism (2) through water pipes, the shunt valve outlets (1-9-4) are provided with two shunt valve bodies, the water outlet (1-9-4) of the water diversion valve is communicated with the water inlet cover (1-3); the shunt valve core (1-9-2) comprises a shunt valve support (1-9-2-1), a shunt valve plate (1-9-2-2) and a shunt valve spring (1-9-2-3), wherein the shunt valve support (1-9-2-1) is a cylinder, a through hole is formed in the shunt valve support (1-9-2-1), the shunt valve plate (1-9-2-2) is located on one side of the shunt valve support (1-9-2-1), and the shunt valve spring (1-9-2-3) is in contact with the shunt valve support (1-9-2-1).

3. An enhanced water-cooled computer cooling apparatus as set forth in claim 1, wherein: the water replenishing mechanism (2) comprises a ventilating cover (2-1), a water tank (2-2), a protective cover (2-3) and an impeller (2-4), the ventilating cover (2-1) is positioned at the upper part of the water tank (2-2), the water tank (2-2) is positioned at the upper part of the water supplying mechanism (1), the protective cover (2-3) is positioned at one side of the water tank (2-2), the impeller (2-4) is positioned at one side of the water tank (2-2), and the impeller (2-3) is positioned at the inner side of the protective cover (2-3); the ventilation cover (2-1) comprises a cover body (2-1-1), a ventilation plate (2-1-2), a sliding column (2-1-3) and a sliding block (2-1-4), the cover body (2-1-1) is a cuboid groove, the ventilation plate (2-1-2) is rectangular, a through hole is formed in the lower portion of the ventilation plate (2-1-2), the upper portion of the sliding column (2-1-3) is connected to the lower portion of the ventilation plate (2-1-2), the sliding block (2-1-4) is a hollow cylinder, and the sliding block (2-1-4) is located on the sliding column (2-1-3); the water tank (2-2) comprises a water tank water outlet (2-2-1), a water tank water return port (2-2-2), a heat dissipation plate (2-2-3) and a water tank body (2-2-4), wherein the water tank water outlet (2-2-1) is positioned at the lower part of the water tank body (2-2-4), the water tank water outlet (2-2-1) is communicated with a water diversion valve (1-9) through a water pipe, the water tank water return port (2-2-2) is positioned at the upper part of the water tank body (2-2-4), the water tank water return port (2-2-2) is communicated with the heat exchange mechanism (4) through a water pipe, and the heat dissipation plate (2-2-3) is positioned at one side of the water tank body (2-; the protective cover (2-3) comprises a protective cover body (2-3-1), four fixing frames (2-3-2) and shaft holes (2-3-3), the protective cover body (2-3-1) is cylindrical, the number of the fixing frames (2-3-2) is four, the fixing frames (2-3-2) are connected with the heat dissipation plate (2-2-3), and the shaft holes (2-3-3) are located in the middle of the protective cover (2-3); the impeller (2-4) comprises an impeller motor (2-4-1) and an eight-impeller (2-4-2), the impeller motor (2-4-1) is positioned at the outer side of the protective cover (2-3), and the eight-impeller (2-4-2) is sleeved on a rotating shaft of the impeller motor (2-4-1).

4. An enhanced water-cooled computer cooling apparatus as set forth in claim 1, wherein: the cooling mechanism (3) comprises a contact shell (3-1), a heat dissipation shell (3-2) and a cooling fan (3-3), wherein the contact shell (3-1) is connected with the heat dissipation shell (3-2), and the cooling fan (3-3) is connected with the heat dissipation shell (3-2);

the contact shell (3-1) comprises a ventilating screw (3-1-1), a contact shell (3-1-2) and a spiral groove (3-1-3), the water supply device comprises a contact shell water inlet hole (3-1-4) and four linking columns (3-1-5), wherein a breathable screw (3-1-1) is positioned at the top of the contact shell (3-1-2), a spiral groove (3-1-3) is positioned inside the contact shell (3-1-2), the contact shell water inlet hole (3-1-4) is positioned on the right side of the contact shell (3-1-2), the contact shell water inlet hole (3-1-4) is communicated with a water supply mechanism (1) through a water pipe, and the linking columns (3-1-5) are internally provided with threads; the heat dissipation shell (3-2) comprises a shell plate (3-2-1), screws (3-2-2), sealing grooves (3-2-3), shell plate water outlets (3-2-4) and cooling rib plates (3-2-5), wherein the shell plate (3-2-1) is square, the shell plate (3-2-1) is in contact with the contact shell (3-1-2), four screws (3-2-2) are arranged, the screws (3-2-2) are in threaded fit with the linking columns (3-1-5), the sealing grooves (3-2-3) are in contact with the spiral grooves (3-1-3), the shell plate water outlets (3-2-4) are located in the middle of the shell plate (3-2-1), the cooling rib plate (3-2-5) is positioned at the outer side of the shell plate (3-2-1); the cooling fan (3-3) comprises a fan protective shell (3-3-1), a fan motor (3-3-2), a fan impeller (3-3-3) and a connecting fixing plate (3-3-4), wherein the fan protective shell (3-3-1) is cylindrical, a through hole is formed in the fan protective shell (3-3-1), the fan motor (3-3-2) is located on the upper portion of the fan protective shell (3-3-1), the fan impeller (3-3-3) is connected with the fan motor (3-3-2), two connecting fixing plates (3-3-4) are arranged, and the connecting fixing plates (3-3-4) are located on the lower portion of the fan protective shell (3-3-1).

5. An enhanced water-cooled computer cooling apparatus as set forth in claim 1, wherein: the heat exchange mechanism (4) comprises a water outlet baffle (4-1), a cooling water tank (4-2), a deflation valve (4-3), a driving cooling tank (4-4), a wheel set mechanism (4-5) and a belt (4-6), the water outlet baffle (4-1) is positioned on the left side of the cooling water tank (4-2), the cooling water tank (4-2) is provided with a double-layer structure, the air release valve (4-3) is positioned on the upper part of the cooling water tank (4-2), the driving cooling tank (4-4) is positioned on the right side of the cooling water tank (4-2), the wheel set mechanism (4-5) is positioned in the middle of the cooling water tank, one end of the belt (4-6) is connected with the driving cooling tank (4-4), and one end of the belt (4-6) is connected with the wheel set mechanism (4-5); the cooling water tank (4-2) comprises a ventilation groove (4-2-1), a shaft hole (4-2-2), a water tank (4-2-3) and water through holes (4-2-4), the ventilation groove (4-2-1) is positioned at the upper part of the water tank (4-2-3), the ventilation groove (4-2-1) is communicated with the two water tanks (4-2-3), the shaft hole (4-2-2) is positioned at the middle part of the water tank (4-2-3), the number of the water tanks (4-2-3) is two, the number of the water through holes (4-2-4) is two, and the water through holes (4-2-4) are positioned at one side of the water tanks (4-2-3); the air release valve (4-3) comprises an air release groove (4-3-1), a threaded column (4-3-2) and an air release hole (4-3-3), the air release groove (4-3-1) is positioned at the upper part of the threaded column (4-3-2), the air release hole (4-3-3) is positioned inside the threaded column (4-3-2), and the air release hole (4-3-3) is communicated with the air release groove (4-3-1); the driving cooling box (4-4) comprises a groove box (4-4-1), a water inlet groove (4-4-2) and a water outlet groove (4-4-3), the water-driven wheel (4-4-4) and the belt wheel (4-4-5) are arranged, the groove box (4-4-1) is a cuboid, a groove is machined in the lower portion of the groove box (4-4-1), the water inlet groove (4-4-2) is located in the right side of the groove box (4-4-1), the water outlet groove (4-4-3) is located in the left side of the groove box (4-4-1), the water-driven wheel (4-4-4) is located in the groove in the lower portion of the groove box (4-4-1), and the belt wheel (4-4-5) is connected with the water-driven wheel (4-4-4); the wheel set mechanism (4-5) comprises two outer wheels (4-5-1) and two inner wheels (4-5-2), the outer wheels (4-5-1) are positioned at two sides of the cooling water tank (4-2), and the inner wheels (4-5-2) are positioned at the middle part of the cooling water tank (4-2).

6. An enhanced water-cooled computer cooling apparatus as set forth in claim 1, wherein: the bracket (1-2) is made of plastic.

7. An enhanced water-cooled computer cooling apparatus as set forth in claim 1, wherein: the water tank (2-2) is made of stainless steel.

8. An enhanced water-cooled computer cooling apparatus as set forth in claim 1, wherein: the cooling mechanism (3) is made of brass.

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