CN220105657U - Water-cooling radiator with curved surface 3D glass screen - Google Patents

Abstract

The utility model belongs to the technical field of radiators, and particularly discloses a water-cooling radiator with a curved surface 3D glass screen, which comprises a water-cooling row and a cold head shell, wherein the curved surface 3D glass screen is arranged on the top cover of the cold head shell, a heat dissipation plate is arranged on the bottom cover of the cold head shell, a water pumping pool and a water storage pool are arranged in the cold head shell, the water pumping pool and the water storage pool are arranged in parallel and are mutually communicated, an impeller is accommodated in the water pumping pool, a plurality of fins of the heat dissipation plate are positioned in the water storage pool, and two water pipes of the water-cooling row are respectively communicated with the water pumping pool and the water storage pool in a one-to-one correspondence manner. According to the utility model, the water pumping tank and the water reservoir are arranged in the cold head shell at intervals, heat-conducting fluid in the water reservoir continuously absorbs heat on the heat-radiating plate, the impeller in the water pumping tank is utilized to rapidly extract heat-conducting fluid absorbed in the water reservoir, the heat-radiating speed is increased, the heat-radiating effect is improved, and meanwhile, the curved surface 3D glass screen at the top of the cold head shell is utilized to display hardware parameters and improve the visual effect and touch feeling.

Description

Water-cooling radiator with curved surface 3D glass screen

Technical Field

The utility model belongs to the technical field of radiators, and particularly relates to a water-cooling radiator with a curved surface 3D glass screen.

Background

It is well known that high temperature is a major challenge for integrated circuits. The high temperature not only can cause unstable operation of the system and shorten the service life, but also can cause burning of certain parts. The heat that causes the high temperature is not from outside the computer but inside the computer. The radiator is used for absorbing the heat and ensuring the temperature of computer components to be normal. The types of heat sinks are very many, and the heat sinks are required for a CPU, a graphics card, a motherboard chipset, a hard disk, a chassis, a power supply, and even an optical drive and a memory, and these different heat sinks are not mixed, but the heat sinks of the CPU are the most commonly contacted. The CPU water-cooling radiator is driven by the pump to forcedly circulate by using liquid to take away the heat of the radiator, and has the advantages of quietness, stable cooling, small dependence on environment and the like compared with air cooling.

The existing water-cooling radiator generally utilizes heat conduction fluid to directly enter a heat dissipation cavity in a cold head under the drive of a water pump, absorbs heat generated by a heating device and then is discharged to a cold row, the cold row converts the heat conduction fluid from high temperature to low temperature to realize heat dissipation, and the heat dissipation effect of the water-cooling radiator is poor because the heat dissipation cavity is limited in space, so that the heat conduction fluid is difficult to continuously absorb the heat generated on a heating element, meanwhile, in order to monitor hardware (such as CPU temperature, fan rotating speed, voltage, frequency and the like), a screen with a common plane glass cover plate is generally adopted on the existing CPU water-cooling radiator, and the common plane glass screen can display various parameters of the hardware, but has poor visual effect and touch feeling.

Accordingly, the inventors have devised a water-cooled radiator to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims at: the water-cooling radiator with the curved surface 3D glass screen is good in radiating effect, visual effect and touch sense.

In order to achieve the above purpose, the utility model adopts a technical scheme that:

the utility model provides a water-cooling radiator with curved surface 3D glass screen, includes water-cooling row and cold head shell, the top lid of cold head shell is equipped with curved surface 3D glass screen, the bottom lid of cold head shell is equipped with the heating panel, the inside of cold head shell is equipped with pumping basin and cistern, pumping basin with the cistern top-down separates the setting side by side and communicates each other, the impeller has been acceptd in the pumping basin, a plurality of fins of heating panel are located in the cistern, two water pipes of water-cooling row respectively with pumping basin with cistern one-to-one intercommunication.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, the water-way cover plate is accommodated in the water reservoir, and the water reservoir is communicated with the corresponding water pipe on the water-cooling row through the water-way cover plate.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, the bottom of the waterway cover plate is provided with a water passing groove along the width direction of the fins, and the water passing groove is communicated with gaps among a plurality of fins.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, two opposite edges of the waterway cover plate are respectively provided with side grooves, the water pumping pool is separated from the water reservoir by the water-stop plate, two water outlets are arranged on the water-stop plate, and the two water outlets are communicated with the two side grooves in a one-to-one correspondence manner.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, rubber is clamped between the waterway cover plate and the fins, the water passing groove is exposed out of the rubber, the heat dissipation plate is provided with grooves, and the grooves are arranged outside the fins in a surrounding manner and are positioned in the reservoir.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, the top of the impeller is provided with the motor, a PCB main board is arranged between the motor and the curved surface 3D glass screen, the motor and the curved surface 3D glass screen are electrically connected with the PCB main board, the motor drives the impeller to rotate, and the motor is a nine-stage three-phase motor.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, the curved surface 3D glass screen comprises a curved surface 3D glass cover plate and a display screen, a bracket is clamped at the top opening of the cold head shell, the display screen is arranged in the bracket, and the curved surface 3D glass cover plate is covered on the display screen.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, the cold head shell comprises an upper cover, a lower cover and a bottom shell, wherein the heat dissipation plate is covered at the bottom of the bottom shell, and the upper cover and the lower cover are sequentially overlapped on the bottom shell from top to bottom.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, the side wall of the bottom shell is provided with the water outlet hole and the water inlet hole in a penetrating way, the water pumping pool is communicated with the water outlet pipe of the water-cooling row through the water outlet hole, and the water reservoir is communicated with the water inlet pipe of the water-cooling row through the water inlet hole.

As an improvement of the water-cooling radiator with the curved surface 3D glass screen, the upper cover and the lower cover are both cylindrical, and the top of the lower cover is matched with the bottom of the upper cover in a V-shaped concave-convex manner.

Compared with the prior art, the water-cooling radiator with the curved surface 3D glass screen has the advantages that the water pumping tank and the water storage tank are arranged in the cold head shell at intervals, heat on the heat dissipation plate is continuously absorbed by heat conduction fluid in the water storage tank, the impeller in the water pumping tank is utilized to rapidly extract heat conduction fluid absorbed in the water storage tank, the heat dissipation speed is increased, the heat dissipation effect is improved, and meanwhile, the curved surface 3D glass screen at the top of the cold head shell is utilized to display hardware parameters and improve the visual effect and the touch feeling.

Description of the drawings:

FIG. 1 is an enlarged perspective view of a water-cooled heat sink with a curved 3D glass screen of the present utility model;

FIG. 2 is an exploded perspective view of a water-cooled heat sink with curved 3D glass screen of the present utility model;

FIG. 3 is an exploded perspective view of a water-cooled heat sink with curved 3D glass screen according to another aspect of the present utility model;

FIG. 4 is an enlarged cross-sectional view of the water-cooled head of the present utility model;

FIG. 5 is another enlarged cross-sectional view of the water-cooled head of the present utility model;

FIG. 6 is yet another enlarged cross-sectional view of the water-cooled head of the present utility model;

fig. 7 is an enlarged perspective assembly view of the bottom case, the lower cover and the motor of the present utility model;

fig. 8 is an enlarged perspective view of the heat radiating plate, the waterway cover plate, the water blocking plate and the impeller of the present utility model;

FIG. 9 is an enlarged exploded perspective view of the impeller, waterway cover, rubber, seal ring and heat sink of the present utility model;

fig. 10 is an enlarged perspective exploded view of the impeller, waterway cover plate, rubber, seal ring and heat dissipating plate of the present utility model from another perspective.

Illustration of:

1. water-cooling rows; 11. a water outlet pipe; 12. a water inlet pipe; 2. a heat dissipation plate; 21. fins; 22. a groove; 23. a seal ring; 24. rubber; 3. a waterway cover plate; 31. a side groove; 32. a water passing tank; 321. a water inlet; 4. an impeller; 41. a water-stop plate; 411. a water outlet; 42. a water pumping pool; 43. a reservoir; 5. a bottom case; 51. a motor; 52. a water outlet hole; 53. a water inlet hole; 6. a lower cover; 7. an upper cover; 71. a coldhead housing; 8. a PCB motherboard; 81. a fixing frame; 82. a bracket; 83. a display screen; 831. curved 3D glass screen; 84. curved surface 3D glass apron.

Detailed Description

Embodiments of the present utility model will now be described in detail with reference to the drawings, which are intended to be used as references and illustrations only, and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 10, a water-cooled radiator with a curved 3D glass screen includes a water-cooled row 1, a cold head housing 71, a curved 3D glass screen 831 and a heat dissipating plate 2, the curved 3D glass screen 831 covers the top of the cold head housing 71, the heat dissipating plate 2 covers the bottom of the cold head housing 71, a water pumping pool 42 and a water reservoir 43 are provided in the cold head housing 71, the water pumping pool 42 and the water reservoir 43 are arranged in parallel and spaced from each other from top to bottom and are communicated with each other, a plurality of fins 21 of the heat dissipating plate 2 are located in the water reservoir 43, and two water pipes of the water-cooled row 1 are respectively communicated with the water pumping pool 42 and the water reservoir 43 in a one-to-one correspondence.

Referring to fig. 1, the water cooling row 1 is used for assisting water cooling and radiating, and a plurality of copper pipes are adopted to transfer heat to wavy radiating fins welded between two adjacent copper pipes, and finally a fan blows the heat on the radiating fins into the air. In the heat exchange process, the heat energy in the water cooling liquid is reduced, the temperature is reduced, and the purpose of heat dissipation is achieved.

Referring to fig. 2, 3, 5, 6 and 7, the cold head casing 71 includes an upper cover 7, a lower cover 6 and a bottom shell 5, where the upper cover 7 and the lower cover 6 are sequentially stacked on the bottom shell 5 from top to bottom, the bottom of the bottom shell 5 is hollowed out, a water outlet hole 52 and a water inlet hole 53 are perforated on the side wall of the bottom shell 5, one end of the water outlet pipe 11 far from the water cooling row 1 is inserted into the water outlet hole 52 from the outside of the bottom shell 5, so that the water outlet pipe 11 is communicated with the water outlet hole 52, one end of the water inlet pipe 12 far from the water cooling row 1 is inserted into the water inlet hole 53 from the outside of the bottom shell 5, so that the water inlet pipe 12 is communicated with the water inlet hole 53; the upper cover 7 and the lower cover 6 are both square cylinders, the lower cover 6 is positioned between the upper cover 7 and the bottom shell 5, the lower cover 6 is fixed on the bottom shell 5 through screws, the upper cover 7 is overlapped and arranged at the top of the lower cover 6, the top of the lower cover 6 is in V-shaped concave-convex fit with the bottom of the upper cover 7 (namely, the top surface of the lower cover 6 is concave-concave at two opposite corners to form a V shape, and the bottom surface of the upper cover 7 is convex at two opposite corners to form a V shape, so that the top of the lower cover 6 is in V-shaped concave-convex fit with the bottom of the upper cover 7).

Referring to fig. 5, 6, 8 and 9, the heat dissipation plate 2 is plate-shaped, a plurality of elongated fins 21 are vertically disposed at the center of the heat dissipation plate 2, the fins 21 are disposed at intervals, a groove 22 is disposed on the heat dissipation plate 2, the groove 22 is disposed around the fins 21, a sealing ring 23 is disposed between the heat dissipation plate 2 and the bottom shell 5, and the heat dissipation plate 2 is sealed and disposed at the bottom of the bottom shell 5.

Referring to fig. 5, 6, 9 and 10, a circular water-stop plate 41 is disposed in the bottom shell 5, two water outlets 411 are perforated on the water-stop plate 41, the hollow portion at the bottom of the bottom shell 5 is separated by the water-stop plate 41 to form the water pumping pool 42 and the water reservoir 43, in the utility model, the space below the water-stop plate 41 is surrounded by the heat dissipation plate 2, the bottom shell 5 and the water-stop plate 41 to form the water pumping pool 42, the water pumping pool 42 is located right above the water reservoir 43, the water-stop plate 41 forms the bottom of the water pumping pool 42, and the fins 21 and the grooves 22 on the heat dissipation plate 2 are all located in the water reservoir 43.

Referring to fig. 5, 6, 8, 9 and 10, a water channel cover plate 3 and a rubber 24 are accommodated in the reservoir 43, the water channel cover plate 3 and the rubber 24 are used for adjusting water inlet and outlet functions, the rubber 24 is plate-shaped and hollow in the center, the rubber 24 is used for adjusting the balance function of the heat dissipation plate 2, the rubber 24 is clamped between the water channel cover plate 3 and the fins 21, a water passing groove 32 is arranged at the bottom of the water channel cover plate 3 along the width direction of the fins 21, the water passing groove 32 is exposed to the rubber 24, the hollow parts of the water passing groove 32 and the rubber 24 are communicated with gaps between the fins 21, one end of the water passing groove 32 upwards passes through the water channel cover plate 3 to form a water inlet 321, the water inlet 321 is positioned right below the water inlet 53 and is in butt joint communication with the water inlet 53, so that the reservoir 43 sequentially passes through the water channel cover plate 3 and the water inlet pipe 12 on the water cooling drain 1, two opposite edges of the water channel cover plate 3 are respectively provided with side grooves 31, the two side grooves 31 are trapezoid, the water passing grooves 32 are positioned between the two side grooves 31, the water outlet 411 are correspondingly positioned on the water outlet grooves 31 and the water drain hole 52 of the water drain plate 1, and the water drain hole 52 is positioned on the water drain hole 52.

Referring to fig. 4 to 8, in order to drive the water in the water pumping tank 42 to flow, an impeller 4 is accommodated in the water pumping tank 42, a motor 51 is disposed at the top of the impeller 4, a stator of the motor 51 is disposed in a circular groove at the top of the bottom shell 5, the motor 51 is specifically a nine-stage three-phase motor, and the motor 51 drives the impeller 4 to rotate, so that the water in the water pumping tank 42 is accelerated.

Referring to fig. 2, 3, 5 and 6, a fixing frame 81 is clamped at the top opening of the upper cover 7, a PCB main board 8 is fixed below the fixing frame 81, the PCB main board 8 is located between the motor 51 and the curved 3D glass screen 831, and the motor 51 is electrically connected with the PCB main board 8.

Referring to fig. 2, 3, 5 and 6, the curved surface 3D glass screen 831 includes a curved surface 3D glass cover 84 and a display screen 83, a bracket 82 is clamped at the top opening of the upper cover 7, the fixing frame 81 is located below the bracket 82, the display screen 83 is specifically a TFT-LCD liquid crystal display screen, the display screen 83 is installed in the bracket 82, the curved surface 3D glass cover 84 is covered on the display screen 83, and the display screen 83 is electrically connected with the PCB main board 8.

Referring to fig. 1 to 10, in the present utility model, a water cooling head of a water cooling radiator of the present utility model is formed by a heat dissipation plate 2, a bottom case 5, a lower cover 6, an upper cover 7, a curved surface 3D glass screen 831 and other parts inside, and when in use, the water cooling head needs to be mounted on a CPU, so that the heat dissipation plate 2 contacts the CPU to dissipate heat for the CPU, and the working principle of the water cooling radiator with the curved surface 3D glass screen of the present utility model is as follows: the heat-conducting fluid with lower temperature in the water cooling row 1 enters the water inlet hole 53 of the bottom shell 5 through the water inlet pipe 12 (shown in fig. 4), then enters the water passing groove 32 from the water inlet 321 of the waterway cover plate 3 (shown in fig. 5), then enters the gaps of the fins 21 downwards through the water passing groove 32 and flows outwards along the length direction of the fins 21 (shown in fig. 6), heat on the fins 21 is taken away, the temperature of the heat-conducting fluid rises and enters the two side grooves 31 around the waterway cover plate 3, the motor 51 drives the impeller 4 to rotate, the heat-conducting fluid in the water pumping groove 42 is accelerated, the heat-conducting fluid in the two side grooves 31 of the waterway cover plate 3 is pumped into the water pumping groove 42 through the two water outlets 411, and then enters the water cooling row 1 through the water outlet pipe 11 to cool down, so that the heat is continuously circulated, and the curved surface 3D glass screen 831 can synchronously display all hardware parameters in the heat dissipation process.

According to the water-cooling radiator with the curved surface 3D glass screen, the water pumping tank 42 and the water storage tank 43 are arranged in the cold head shell 71 in a separated mode, heat conduction fluid in the water storage tank 43 continuously absorbs heat on the heat dissipation plate 2, the impeller 4 in the water pumping tank 42 is used for rapidly pumping heat conduction fluid absorbed in the water storage tank 43, the heat dissipation speed is increased, the heat dissipation effect is improved, and meanwhile, the curved surface 3D glass screen 831 at the top of the cold head shell 71 is used for displaying hardware parameters and improving the visual effect and the touch feeling.

The above disclosure is illustrative of the preferred embodiments of the present utility model and should not be construed as limiting the scope of the utility model, which is defined by the appended claims.

Claims (10)

1. The utility model provides a water-cooling radiator with curved surface 3D glass screen, includes water-cooling row and cold head shell, its characterized in that, the top lid of cold head shell is equipped with curved surface 3D glass screen, the bottom lid of cold head shell is equipped with the heating panel, the inside of cold head shell is equipped with pumping basin and cistern, pumping basin with cistern top-down separates the setting side by side and communicates each other, the impeller has been acceptd in the pumping basin, a plurality of fins of heating panel are located in the cistern, two water pipes of water-cooling row respectively with pumping basin with cistern one-to-one intercommunication.

2. The water-cooled radiator with curved 3D glass screen according to claim 1, wherein the water reservoir is accommodated with a water channel cover plate, and the water reservoir is communicated with the corresponding water pipe on the water-cooled row through the water channel cover plate.

3. The water-cooled radiator with the curved 3D glass screen according to claim 2, wherein the bottom of the waterway cover plate is provided with a water passing groove along the width direction of the fins, and the water passing groove is communicated with gaps among a plurality of the fins.

4. The water-cooled radiator with the curved surface 3D glass screen according to claim 3, wherein side grooves are respectively arranged at two opposite edges of the waterway cover plate, the water pumping pool is separated from the water reservoir by a water-stop plate, two water outlets are arranged on the water-stop plate, and the two water outlets are communicated with the two side grooves in a one-to-one correspondence manner.

5. The water-cooled radiator with the curved surface 3D glass screen according to claim 3, wherein rubber is clamped between the waterway cover plate and the fins, the water passing groove is exposed to the rubber, a groove is formed in the heat dissipation plate, and the groove is arranged outside the fins in a surrounding mode and located in the reservoir.

6. The water-cooling radiator with the curved surface 3D glass screen according to claim 1, wherein a motor is arranged at the top of the impeller, a PCB main board is arranged between the motor and the curved surface 3D glass screen, the motor and the curved surface 3D glass screen are electrically connected with the PCB main board, the motor drives the impeller to rotate, and the motor is a nine-stage three-phase motor.

7. The water-cooled radiator with the curved surface 3D glass screen according to claim 1, wherein the curved surface 3D glass screen comprises a curved surface 3D glass cover plate and a display screen, a bracket is clamped at the top opening of the cold head shell, the display screen is installed in the bracket, and the curved surface 3D glass cover plate covers the display screen.

8. The water-cooled radiator with the curved 3D glass screen according to claim 1, wherein the cold head shell comprises an upper cover, a lower cover and a bottom shell, the heat dissipation plate is covered at the bottom of the bottom shell, and the upper cover and the lower cover are sequentially overlapped on the bottom shell from top to bottom.

9. The water-cooled radiator with the curved 3D glass screen according to claim 8, wherein water outlet holes and water inlet holes are formed in the side wall of the bottom shell in a penetrating mode, the water pumping pool is communicated with the water outlet pipe of the water cooling row through the water outlet holes, and the water reservoir is communicated with the water inlet pipe of the water cooling row through the water inlet holes.

10. The water-cooled heat sink with curved 3D glass screen of claim 8, wherein the upper cover and the lower cover are both cylindrical, and the top of the lower cover is V-shaped concave-convex fit with the bottom of the upper cover.