CN117971019A - Water-cooled radiator and radiating method thereof - Google Patents

Abstract

The invention relates to the technical field of radiators, and provides a water-cooled radiator and a radiating method thereof. According to the invention, the air-entraining structure is arranged, the circulating liquid enters the shell to drive the axle center and the external rotating plate to rotate, so that the pressing plate overturns by taking the support as a fulcrum, the connecting rod and the piston are driven to move up and down, the air in the cavity is extruded upwards or downwards, enters the cavity through the vent pipe, then the air is blown from the spray head to cool the air exhaust, and the dust on the surface of the radiating fin is blown off, so that the water-cooled radiator can have a dust removing function, the heat radiating effect of the radiating fin is prevented from being influenced by accumulated dust, and the blown air can accelerate the cooling effect of the circulating liquid and the radiating fin.

Description

Water-cooled radiator and radiating method thereof

Technical Field

The present invention relates to a heat sink, and more particularly to a water-cooled heat sink and a heat dissipation method thereof.

Background

The basic principle of the water-cooled radiator is that the water pump is used for driving the liquid circulation, the heat is taken away from a heating source through a heat exchanger in the radiator, and then the heat is emitted into the surrounding air, so that the heat is always low-temperature liquid in contact with the high-heating device, and the heat dissipation effect of the radiator is enhanced;

The conventional prior art solutions have the following drawbacks: in long-time use, radiating fin can accumulate the dust, and when circulating fluid flows through to cold the department of arranging and dispel the heat, the dust can influence radiating fin's radiating effect for circulating fluid cooling effect is poor, reduces the radiating cooling effect to equipment then, can't guarantee the normal use of equipment, and the practicality is not enough.

Disclosure of Invention

The invention aims to provide a water-cooled radiator and a radiating method thereof, which are used for solving the defect of poor radiating effect of the existing water-cooled radiator and the radiating method thereof.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a water-cooled radiator and heat dissipation method thereof, includes cold row and cold head, the inside of cold row is provided with the radiating fin, the both sides of cold row all fixedly connected with support, the intermediate position department fixedly connected with cavity of support, and the bottom of cavity installs the shower nozzle, one side fixedly connected with casing on cavity top, and the inside of casing is provided with the linkage structure, the top of casing is connected with first hot-water line, the bottom of casing is connected with the second hot-water line, the top fixedly connected with cold head of support, and the bottom of cold head installs the water pump, the bottom of water pump is connected with the cold-water line, one side fixedly connected with bleed air structure of support, bleed air structure includes cavity, breather pipe, clamp plate, discharge valve, admission valve, pillar, connecting rod and piston, the cavity is fixed in one side of support, the both ends of cavity all are connected with the breather pipe, and the junction of breather pipe all installs the admission valve, the inside of cavity is provided with the piston, and the top fixedly connected with the clamp plate, the top of clamp plate is connected with the pillar, and one side fixedly connected with the piston.

Preferably, one end of one side of the cold row is provided with a water outlet, the other end of one side of the cold row is provided with a water inlet, the other end of the cold water pipe is fixedly connected with the water outlet, and the other end of the second hot water pipe is fixedly connected with the water inlet.

Preferably, the heat radiating fins are provided with a plurality of groups, and the heat radiating fins are distributed at equal intervals with respect to the inside of the cold row. The heat dissipation fins accelerate the heat dissipation and cooling effects of the circulating liquid.

Preferably, the other end of the vent pipe is fixedly connected with two ends of the cavity, and the vent pipe is positioned at the top and the bottom of the two ends of the cavity. By moving the piston up and down, the air entraining in the chamber is realized.

Preferably, the pressing plate overturns by taking the top of the support column as a fulcrum, and the support column is movably connected with the support. The pressing plate turns over with the fulcrum to realize the up-and-down displacement of the connecting rod.

Preferably, the linkage structure comprises a rotating plate, a connecting plate, an axle center, a support plate and a groove body, wherein the axle center is fixed in the shell, and one end of the axle center is fixedly connected with the rotating plate. The axle center and the rotating plate are driven to rotate by the circulating liquid, so that the operation is simplified.

Preferably, one end of the rotating plate is fixedly connected with a connecting plate, the other end of the connecting plate is fixedly connected with one end of the pressing plate, and a rotating structure is formed between the rotating plate and the connecting plate. Through the rotation of the rotating plate, the up-and-down movement of the connecting plate is realized.

Preferably, the support plate is fixedly connected to the outside of the axle center, the support plates are distributed in concentric circles with respect to the center point of the axle center, the tail ends of the support plates are fixedly connected with the groove bodies, and the positions of the groove bodies are symmetrical to the first hot water pipe connecting port. When circulating liquid flows in from the first hot water pipe, the groove body and the support plate are driven to rotate by gravity downward pressing, so that the axle center rotates.

Preferably, the cold head is internally provided with micro-water channels, and the spray heads are distributed at equal intervals relative to the bottom of the cavity. The gas is sprayed out from the spray head to uniformly blow the cooling fins, blow dust and cool.

A heat dissipation method of a water-cooled heat sink comprises the following steps:

S1, installing a radiator and equipment, connecting a cold head with a heating position, circulating a circulating liquid in the cold head, radiating and cooling the equipment, enabling the circulating liquid after temperature rise to flow into the shell through a first hot water pipe under the action of a water pump, conveying the cooled circulating liquid to the cold head through the cold water pipe by the water pump, and continuously radiating the equipment, so that the circulating liquid in the cold head is always in a low-temperature state;

S2, circulating liquid enters the shell, the groove body and the support plate are driven to overturn by gravity pressure of water flow of the circulating liquid, so that the axle center and the external rotating plate rotate, the rotating plate rotates to drive the other end of the connecting plate to move up and down, the pressing plate overturns by taking the support post as a fulcrum, and a connecting rod at one end is driven to drag up and down;

S3, when the connecting rod drives the piston to move upwards, the bottom air pressure of the cavity becomes low, air enters the cavity through the air inlet valve, air in the cavity is extruded upwards and enters the cavity through the top vent pipe, when the connecting rod drives the piston to move downwards, the air pressure at the top of the cavity becomes low, air enters the cavity through the air inlet valve at the top of the cavity, air in the cavity enters the cavity through the vent pipe at the bottom, and then the air is blown to the cold row through the spray nozzle at the bottom, so that dust on the surface of the radiating fin can be blown off, the radiating effect is prevented from being influenced, and the cooling effect of circulating liquid can be accelerated;

S4, circulating liquid flows into the cold row from the water inlet through the second hot water pipe after entering the shell, the effect of cooling the circulating liquid by radiating fins in the circulating liquid is achieved, heat is transferred to surrounding air to achieve the effect of cooling, the water pump pumps the cooled circulating liquid to the cold head from the water outlet through the cold water pipe, heat is radiated to the equipment, and the circulating liquid is repeatedly circulated.

The invention provides a water-cooled radiator and a radiating method thereof, which has the advantages that:

Through being provided with the bleed air structure, the inside of circulation liquid entering casing drives axle center and outside rotor plate through the gravity pressure of self rivers and rotates, make the clamp plate overturn with the pillar as the fulcrum, the connecting rod of drive one end pulls from top to bottom, when the connecting rod drives piston upward movement, air in the cavity upwards extrudees, inside entering the cavity through the breather pipe, when the connecting rod drives piston downward movement, air in the cavity gets into the cavity inside through the breather pipe of bottom again, then blow the shower nozzle through its bottom to the cold row, can blow the dust on radiating fin surface, and the discharge valve on the breather pipe can avoid the gaseous backward flow in the cavity, thereby make water-cooled radiator can have the dust removal function, avoid the deposition to influence radiating fin's radiating effect, and the wind of blowing can accelerate circulation liquid and radiating fin's cooling effect.

Drawings

FIG. 1 is a schematic top view of a three-dimensional structure of the present invention;

FIG. 2 is a schematic view of a three-dimensional structure of the present invention;

FIG. 3 is a schematic view of a left three-dimensional structure of a connection state of a pressing plate and a connecting plate according to the invention;

FIG. 4 is a schematic view of a three-dimensional structure of the right side of the connection state of the pressing plate and the connecting plate;

FIG. 5 is a schematic view of a three-dimensional structure of a cavity in a half-cut state according to the present invention;

FIG. 6 is a schematic view of a three-dimensional structure of the housing in a half-cut state according to the present invention;

FIG. 7is a schematic top view of a three-dimensional structure of a chamber in a semi-sectioned state according to the present invention;

FIG. 8 is a schematic view showing a three-dimensional structure of a chamber in a half-cut state according to the present invention;

Fig. 9 is a schematic view of a three-dimensional structure of a cold row in a half-cut state according to the present invention.

Reference numerals in the drawings illustrate: 1. a bracket; 2. cold row; 3. a heat radiation fin; 4. a cold water pipe; 5. a bleed air structure; 501. a cavity; 502. a vent pipe; 503. a pressing plate; 504. an exhaust valve; 505. an intake valve; 506. a support post; 507. a connecting rod; 508. a piston; 6. a housing; 7. a linkage structure; 701. a rotating plate; 702. a connecting plate; 703. an axle center; 704. a support plate; 705. a tank body; 8. a chamber; 9. a cold head; 10. a water pump; 11. a first hot water pipe; 12. a second hot water pipe; 13. a spray head; 14. a water outlet; 15. and a water inlet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the water-cooled radiator and the heat dissipation method thereof provided by the invention comprise a cold row 2 and a cold head 9, wherein heat dissipation fins 3 are arranged in the cold row 2, the heat dissipation fins 3 are provided with a plurality of groups, the heat dissipation fins 3 are distributed at equal intervals about the inside of the cold row 2, two sides of the cold row 2 are fixedly connected with a bracket 1, a chamber 8 is fixedly connected at the middle position of the bracket 1, a spray head 13 is arranged at the bottom of the chamber 8, one side of the top end of the chamber 8 is fixedly connected with a shell 6, a linkage structure 7 is arranged in the shell 6, the linkage structure 7 comprises a rotating plate 701, a connecting plate 702, an axle center 703, a support plate 704 and a groove body 705, the axle center 703 is fixed in the shell 6, one end of the axle center 703 is fixedly connected with the rotating plate 701, one end of the rotating plate 701 is fixedly connected with the connecting plate 702, the other end of the connecting plate 702 is fixedly connected with one end of the pressing plate 503, a rotating structure is formed between the rotating plate 701 and the connecting plate 702, the outer part of the support plate 704 is in concentric circle about the center point of the axle center 703, the groove body 705 is fixedly connected with the groove body 705, and the end of the groove body 705 is fixedly connected with the groove body 705, and the position of the groove body 705 is symmetrical with the first connecting port 11;

referring to fig. 4 and 6, the circulating liquid enters the inside of the housing 6, and the gravity pressure of the water flow drives the trough 705 and the support plate 704 to turn over, so that the axle center 703 and the external rotating plate 701 rotate, and the rotating plate 701 rotates to drive the other end of the connecting plate 702 to move up and down;

The top end of the shell 6 is connected with a first hot water pipe 11, the bottom end of the shell 6 is connected with a second hot water pipe 12, the top end of the bracket 1 is fixedly connected with a cold head 9, a micro water channel is arranged in the cold head 9, the spray head 13 is distributed at equal intervals relative to the bottom of the cavity 8, a water pump 10 is installed at the bottom end of the cold head 9, the bottom of the water pump 10 is connected with a cold water pipe 4, one end of one side of the cold row 2 is provided with a water outlet 14, the other end of one side of the cold row 2 is provided with a water inlet 15, the other end of the cold water pipe 4 is fixedly connected with the water outlet 14, the other end of the second hot water pipe 12 is fixedly connected with the water inlet 15, one side of the bracket 1 is fixedly connected with a bleed air structure 5, the bleed air structure 5 comprises a cavity 501, a vent pipe 502, a pressure plate 503, an exhaust valve 504, an air inlet valve 505, a strut 506, a connecting rod 507 and a piston 508, the cavity 501 is fixedly arranged on one side of the bracket 1, the cavity 501 is connected with the vent valve 502, the two ends of the vent pipe 502 are all installed at the connecting positions, the top and the bottom of the cavity 501 are respectively provided with an air inlet valve 505, the piston 508 is fixedly connected with the connecting rod 507, the connecting rod 506 is fixedly connected with the strut 506, the top end of the two ends of the cavity 506 is fixedly connected with the strut 506, and the top end of the cavity 506 is fixedly connected with the strut 503, and the top end of the top is fixedly connected with the strut 503, and the top 1 is connected with the strut, and the two end is fixedly connected with the strut and is connected with the top and is connected with the strut and is connected with the compression;

Referring to fig. 4, 5 and 8, the connecting plate 702 moves up and down, the pressing plate 503 is driven to turn over with the supporting post 506 as a supporting point, the connecting rod 507 at one end is driven to move up and down, when the connecting rod 507 drives the piston 508 to move up in the cavity 501, the bottom air pressure of the cavity 501 becomes low, air enters the cavity 501 through the air inlet valve 505, air in the cavity 501 is extruded up, air enters the cavity 8 through the top vent pipe 502, when the connecting rod 507 drives the piston 508 to move down, air enters the cavity 501 through the air inlet valve 505 at the top of the connecting rod 507, air in the cavity 501 enters the cavity 8 through the air inlet pipe 502 at the bottom, and then the air is blown to the cold row 2 through the spray nozzle 13 at the bottom, so that dust on the surface of the radiating fin 3 can be blown down, the radiating effect is avoided, the cooling effect of circulating liquid can be accelerated, and the air outlet valve 504 on the vent pipe 502 can avoid air backflow in the cavity 8.

A heat dissipation method of a water-cooled heat sink comprises the following steps:

S1, installing a radiator and equipment, connecting a cold head 9 with a heating position, circulating a circulating liquid in the cold head 9, radiating and cooling the equipment, enabling the heated circulating liquid to flow into the shell 6 through a first hot water pipe 11 under the action of a water pump 10, and conveying the cooled circulating liquid to the cold head 9 through a cold water pipe 4 by the water pump 10, and continuously radiating the equipment, so that the circulating liquid in the cold head 9 is always in a low-temperature state;

S2, circulating liquid enters the shell 6, the trough body 705 and the support plate 704 are driven to overturn by gravity pressure of water flow of the circulating liquid, so that the axle center 703 and the external rotating plate 701 rotate, the rotating plate 701 rotates to drive the other end of the connecting plate 702 to vertically displace, the pressing plate 503 overturns by taking the support 506 as a fulcrum, and the connecting rod 507 at one end is driven to vertically pull;

s3, when the connecting rod 507 drives the piston 508 to move upwards, the bottom air pressure of the cavity 501 becomes low, air enters the cavity 501 through the air inlet valve 505, air in the cavity 501 is extruded upwards and enters the cavity 8 through the top vent pipe 502, when the connecting rod 507 drives the piston 508 to move downwards, the air pressure at the top of the cavity 501 becomes low, air enters the cavity 501 through the air inlet valve 505 at the top of the connecting rod, air in the cavity 501 enters the cavity 8 through the air inlet pipe 502 at the bottom, and then the air is blown to the cold row 2 through the spray head 13 at the bottom, so that dust on the surface of the radiating fin 3 can be blown off, the influence on the radiating effect is avoided, and the cooling effect of circulating liquid can be accelerated;

S4, circulating liquid enters the shell 6 and flows to the cold row 2 from the water inlet 15 through the second hot water pipe 12, the effect of cooling the circulating liquid by heat dissipation is achieved through the heat dissipation fins 3 in the circulating liquid, the effect of cooling is achieved by transferring heat to surrounding air, the cooled circulating liquid is pumped to the cold head 9 from the water outlet 14 through the cold water pipe 4 by the water pump 10, heat is dissipated to the equipment, and the circulating liquid is repeatedly circulated.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. A water-cooled radiator comprises a cold row (2) and a cold head (9);

The method is characterized in that:

The cooling device is characterized in that radiating fins (3) are arranged in the cooling row (2), the two sides of the cooling row (2) are fixedly connected with a bracket (1), a cavity (8) is fixedly connected to the middle position of the bracket (1), a spray head (13) is arranged at the bottom of the cavity (8), a shell (6) is fixedly connected to one side of the top end of the cavity (8), and a linkage structure (7) is arranged in the shell (6);

The air-entraining device comprises a shell (6), wherein the top end of the shell (6) is connected with a first hot water pipe (11), the bottom end of the shell (6) is connected with a second hot water pipe (12), the top end of the support (1) is fixedly connected with a cold head (9), the bottom end of the cold head (9) is provided with a water pump (10), the bottom of the water pump (10) is connected with a cold water pipe (4), and one side of the support (1) is fixedly connected with an air-entraining structure (5);

the air entraining structure (5) comprises a cavity (501), a vent pipe (502), a pressing plate (503), an exhaust valve (504), an air inlet valve (505), a support (506), a connecting rod (507) and a piston (508), wherein the cavity (501) is fixed on one side of the support (1), the two ends of the cavity (501) are respectively connected with the vent pipe (502), the exhaust valve (504) is respectively installed at the joint of the vent pipe (502), the air inlet valve (505) is respectively installed at the top and the bottom of the cavity (501), the piston (508) is arranged in the cavity (501), the connecting rod (507) is fixedly connected with the top of the piston (508), the pressing plate (503) is connected with the top of the connecting rod (507), and the support (506) is fixedly connected with one side of the pressing plate (503).

2. A water-cooled heat sink as claimed in claim 1, wherein: one end of one side of the cold row (2) is provided with a water outlet (14), the other end of one side of the cold row (2) is provided with a water inlet (15), the other end of the cold water pipe (4) is fixedly connected with the water outlet (14), and the other end of the second hot water pipe (12) is fixedly connected with the water inlet (15).

3. A water-cooled heat sink as claimed in claim 1, wherein: the heat dissipation fins (3) are provided with a plurality of groups, and the heat dissipation fins (3) are distributed at equal intervals relative to the inside of the cold row (2).

4. A water-cooled heat sink as claimed in claim 1, wherein: the other end of the vent pipe (502) is fixedly connected with the two ends of the cavity (8), and the vent pipe (502) is positioned at the top and the bottom of the two ends of the cavity (501).

5. A water-cooled heat sink as claimed in claim 1, wherein: the pressing plate (503) is turned over by taking the top of the support (506) as a fulcrum, and the support (506) is movably connected with the bracket (1).

6. A water-cooled heat sink as claimed in claim 1, wherein: the linkage structure (7) comprises a rotating plate (701), a connecting plate (702), an axle center (703), a support plate (704) and a groove body (705), wherein the axle center (703) is fixed in the shell (6), and one end of the axle center (703) is fixedly connected with the rotating plate (701).

7. The water-cooled heat sink as set forth in claim 6, wherein: one end of the rotating plate (701) is fixedly connected with a connecting plate (702), the other end of the connecting plate (702) is fixedly connected with one end of the pressing plate (503), and a rotating structure is formed between the rotating plate (701) and the connecting plate (702).

8. The water-cooled heat sink as set forth in claim 6, wherein: the outside fixedly connected with extension board (704) of axle center (703), and extension board (704) are concentric circle distribution about the central point of axle center (703), the end of extension board (704) is all fixedly connected with cell body (705), and the position of cell body (705) is symmetrical with first hot-water line (11) connector department.

9. A water-cooled heat sink as claimed in claim 1, wherein: the inside of cold head (9) is provided with little water course, shower nozzle (13) are equidistant distribution about the bottom of cavity (8).

10. A heat dissipation method using a water-cooled heat sink as set forth in claim 6, comprising the steps of:

s1, installing a radiator and equipment, connecting a cold head (9) with a heating position, circulating a circulating liquid in the cold head, radiating and cooling the equipment, enabling the heated circulating liquid to flow into the shell (6) through a first hot water pipe (11) under the action of a water pump (10), and conveying the cooled circulating liquid to the cold head (9) through a cold water pipe (4) by the water pump (10), and continuously radiating the equipment, so that the circulating liquid in the cold head (9) is always in a low-temperature state;

S2, circulating liquid enters the shell (6), the groove body (705) and the support plate (704) are driven to overturn by gravity pressure of water flow, so that the axle center (703) and the external rotating plate (701) rotate, the rotating plate (701) rotates to drive the other end of the connecting plate (702) to move up and down, the pressing plate (503) overturns by taking the support post (506) as a fulcrum, and the connecting rod (507) at one end is driven to drag up and down;

S3, when the connecting rod (507) drives the piston (508) to move upwards, the bottom air pressure of the cavity (501) becomes low, air enters the cavity (501) through the air inlet valve (505), air in the cavity (501) is extruded upwards and enters the cavity (8) through the top vent pipe (502), when the connecting rod (507) drives the piston (508) to move downwards, the air pressure at the top of the cavity (501) becomes low, air enters the cavity (501) through the air inlet valve (505) at the top of the connecting rod, air in the cavity (501) enters the cavity (8) through the vent pipe (502) at the bottom, and then air is blown to the cold row (2) through the spray nozzle (13) at the bottom, so that dust on the surface of the radiating fin (3) can be blown off, the influence on the radiating effect is avoided, and the cooling effect of circulating liquid can be accelerated;

S4, circulating liquid enters the shell (6) and flows to the cold row (2) from the water inlet (15) through the second hot water pipe (12), the effect of cooling the circulating liquid by heat dissipation is achieved through the heat dissipation fins (3) in the circulating liquid, the effect of cooling is achieved by transferring heat to surrounding air, the water pump (10) pumps the cooled circulating liquid to the cold head (9) from the water outlet (14) through the cold water pipe (4), heat is dissipated to the equipment, and the circulating liquid is repeatedly circulated.