CN220326138U - Double-cold-head integrated water-cooling radiator - Google Patents

Abstract

The utility model discloses a double-cold-head integrated water-cooling radiator, which comprises a water-cooling radiating component, wherein the water-cooling radiating component is circularly connected with a first cold head component and a second cold head component through pipelines, the first cold head component and the second cold head component can respectively conduct water-cooling radiating on two heating components, cooling liquid with lower temperature is respectively provided for the first cold head component and the second cold head component through the water-cooling radiating component, the temperature of the cooling liquid rises after absorbing heat and then flows back into the water-cooling radiating component for cooling, the first cold head component and the second cold head component share one water-cooling radiating component, so that space can be effectively saved, a good radiating effect can be provided for a video card VGA in a water-cooling mode, and a radiating fan is not required to be arranged for the video card VGA.

Description

Double-cold-head integrated water-cooling radiator

Technical Field

The utility model belongs to the technical field of heat dissipation equipment, and particularly relates to a double-cold-head integrated water-cooling radiator.

Background

Entertainment by using electronic equipment in life is an option of more and more people, and the power of the electronic equipment is also larger and larger, so that a water cooling system, such as a water cooling system for cooling a CPU (central processing unit) or a display card by a computer, is generated, wherein cooling liquid is used as a medium for taking away heat, and then the cooling liquid is cooled by an external radiator and then enters circulation; with the higher and higher requirements on performance, the 3D drawing or electronic competition game is required to be equipped with a graphics card, the higher the performance of the graphics card, the higher the power of the graphics card, the higher the temperature of the graphics card, and the heat dissipation of the graphics card at present usually adopts an air cooling mode, the pure air cooling heat dissipation effect is limited, and a fan can generate noise when rotating, and the existing water cooling system for dissipating heat of a CPU is also provided with fan heat dissipation, and the wind noise of the heat dissipation of the graphics card and the wind noise of the water cooling system are superposed to generate huge noise, so that the user experience is affected.

Disclosure of Invention

The utility model aims to provide a double-cold-head integrated water-cooling radiator so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a two cold head integral type water-cooling radiator, includes the water-cooling heat dissipation subassembly, the water-cooling heat dissipation subassembly is connected with cold head subassembly one and cold head subassembly two through the pipeline circulation.

According to a further technical scheme, the water outlet end of the water cooling heat dissipation assembly is connected with the water inlet end of the first cold head assembly, the water outlet end of the first cold head assembly is connected with the water inlet end of the second cold head assembly, and the water outlet end of the second cold head assembly is connected with the water inlet end of the water cooling heat dissipation assembly.

According to a further technical scheme, the water cooling heat dissipation assembly comprises a first water chamber frame and a second water chamber frame which are communicated through a heat dissipation part, a first partition plate is arranged in the first water chamber frame to divide the interior of the first water chamber frame into a first water inlet chamber and a first water outlet chamber, the first water inlet chamber is provided with a first water inlet, and the first water outlet chamber is provided with a first water outlet.

According to a further technical scheme, the water inlet end of the first cold head assembly is connected with the first water outlet, and the water outlet end of the second cold head assembly is connected with the first water inlet.

According to a further technical scheme, a second partition plate is arranged in the second water chamber frame and divides the interior of the second water chamber frame into a second water inlet chamber and a second water outlet chamber, the second water inlet chamber is provided with a second water inlet port, the second water outlet chamber is provided with a second water outlet port, the second water outlet chamber is communicated with the first water inlet chamber, and the second water inlet chamber is communicated with the first water outlet chamber;

the water inlet end of the first cold head assembly is connected with the first water outlet, the water outlet end of the first cold head assembly is connected with the first inlet, the water inlet end of the second cold head assembly is connected with the second water outlet, and the water outlet end of the second cold head assembly is connected with the first water inlet.

According to a further technical scheme, a water injection hole is formed in one position of the water chamber frame, and a one-way valve is arranged at the water injection hole.

Further technical scheme, cold head subassembly one is the same with cold head subassembly two structures, cold head subassembly two includes the base, the base bottom surface is equipped with heat conduction portion, form the stock solution chamber between heat conduction portion and the base, the stock solution chamber is connected with the feed liquor mouth, the pump body is installed to the base top, the water inlet end of the pump body extends to in the stock solution chamber, the water outlet end of the pump body is connected with the play liquid mouth.

The utility model has the beneficial effects that:

according to the utility model, the first cold head component and the second cold head component can respectively conduct water cooling heat dissipation on the two heating components, cooling liquid with lower temperature is respectively provided for the first cold head component and the second cold head component through the water cooling heat dissipation components, the temperature of the cooling liquid rises and then flows back to the water cooling heat dissipation components for cooling after absorbing heat, the first cold head component and the second cold head component share one water cooling heat dissipation component, so that space can be effectively saved, a good heat dissipation effect can be provided for the video card VGA in a water cooling mode, in addition, a heat dissipation fan is not required to be arranged for the video card VGA, low noise is effectively generated, and user experience is improved.

Additional features and advantages of the utility model will be set forth in the detailed description which follows.

Drawings

Fig. 1: the use state diagram of the utility model.

Fig. 2: the first three-dimensional structure diagram of the utility model.

Fig. 3: the second three-dimensional structure diagram of the utility model.

Fig. 4: one embodiment of the water cooled heat sink assembly of the present utility model is shown.

Fig. 5: another embodiment of the water cooled heat sink assembly of the present utility model is shown.

Fig. 6: the cold head assembly II structure diagram of the utility model.

Reference numerals: 1-water cooling heat dissipation component, 11-hydroecium frame one, 111-water inlet one, 112-delivery port one, 12-hydroecium frame two, 121-water inlet two, 122-delivery port two, 13-radiating part, 14-check valve, 2-cold head component one, 3-cold head component two, 31-base, 32-heat conduction part, 33-liquid inlet, 34-pump body, 35-liquid outlet.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Please refer to fig. 1-6;

the utility model discloses a double-cold-head integrated water-cooling radiator, which comprises a water-cooling radiating component 1, wherein the water-cooling radiating component 1 is circularly connected with a cold head component I2 and a cold head component II 3 through pipelines, the cold head component I2 and the cold head component II 3 can respectively conduct water-cooling radiating on two heating components, such as a CPU and a video card VGA, cooling liquid with lower temperature is respectively provided for the cold head component I2 and the cold head component II 3 through the water-cooling radiating component 1, the temperature of the cooling liquid rises after absorbing heat and then flows back to the water-cooling radiating component 1 for cooling, the space can be effectively saved by sharing one set of water-cooling radiating component 1 by the cold head component I2 and the cold head component II 3, a good radiating effect can be provided for the video card VGA in a water-cooling mode, and in addition, a radiating fan is not required to be arranged for the video card VGA, so that low noise is generated effectively, and user experience is improved.

One connection manner between the first cold head assembly 2 and the second cold head assembly 3 and the water cooling heat dissipation assembly 1 is listed herein, and refer to fig. 4;

the first cold head component 2 and the second cold head component 3 are respectively provided with an inlet and an outlet, the water cooling heat dissipation component 1 is provided with two inlets and outlets, the inlets of the first cold head component 2 and the second cold head component 3 are respectively connected with the two outlets of the water cooling heat dissipation component 1, the outlets of the first cold head component 2 and the second cold head component 3 are respectively connected with the two inlets of the water cooling heat dissipation component 1, cooling liquid cooled by the water cooling heat dissipation component 1 is conveyed by the two cold head components of which the outlets are respectively arranged, and the cooling liquid after passing through the two cold head components rises in temperature and then uniformly flows back to the water cooling heat dissipation component 1 for cooling treatment.

The above embodiment can realize the simultaneous supply of the cooling liquid to the first and second header assemblies 2 and 3, but a larger delivery amount of the cooling liquid is required for the simultaneous supply of the cooling liquid to the two header assemblies, and a larger volume is required for the water-cooled heat sink assembly 1 to store the cooling liquid.

On the premise of not increasing the delivery quantity of the cooling liquid and the volume of the water-cooling heat dissipation assembly 1, another connection mode of the water-cooling heat dissipation assembly 1, the first cold head assembly 2 and the second cold head assembly 3 is provided, and referring to fig. 2 and 3;

the water outlet end of the water-cooling heat dissipation assembly 1 is connected with the water inlet end of the first cold head assembly 2, the water outlet end of the first cold head assembly 2 is connected with the water inlet end of the second cold head assembly 3, and the water outlet end of the second cold head assembly 3 is connected with the water inlet end of the water-cooling heat dissipation assembly 1; the cooling liquid cooled by the water cooling heat dissipation assembly 1 firstly enters the first cold head assembly 2, at the moment, the CPU can be subjected to heat absorption and cooling, then the cooling liquid is discharged from the first cold head assembly 2 and enters the second cold head assembly 3, the cooling liquid absorbs heat and cools the video card VGA when passing through the second cold head assembly 3, and finally the cooling liquid is discharged from the second cold head assembly 3 and flows back to the water cooling heat dissipation assembly 1 for cooling;

it should be noted that, the flowing speed of the cold head liquid is relatively fast, which is favorable for the temperature reduction of the cooling liquid, but because the flowing speed is fast, the cooling liquid in the same part can not absorb too much heat when passing through the cold head component I2, namely, the temperature of the cooling liquid after the temperature increase is still lower than the temperature of the CPU and the graphics card VGA, so that the cooling liquid enters the cold head component II 3 to absorb heat and cool the graphics card VGA by utilizing the characteristics, namely, the cooling liquid in the part absorbs heat twice in the circulating process, the utilization rate of the cooling liquid is improved, and meanwhile, the volume of the water cooling and radiating component 1 is not increased.

The utility model relates to one embodiment of a water-cooling radiating assembly 1, which particularly comprises a radiating part 13, wherein the radiating part 13 in the embodiment is composed of a plurality of conveying pipes, radiating fins are attached between the adjacent conveying pipes, when a cooling liquid with higher temperature flows through, heat is transferred to the conveying pipes, the primary radiating is performed at the moment, the conveying pipes are required to be radiated for maintaining the primary radiating effect, and for this reason, the heat of the conveying pipes is transferred to the radiating fins again, and the heat is radiated to the air through the radiating fins;

the two ends of the radiating part 13 are respectively connected with a first water chamber frame 11 and a second water chamber frame 12, a first partition plate is arranged in the first water chamber frame 11 to divide the interior of the first water chamber frame into a first water inlet chamber and a first water outlet chamber, the first water inlet chamber is provided with a first water inlet port 111, the first water outlet chamber is provided with a first water outlet port 112, the water inlet end of the first cold head assembly 2 is connected with the first water outlet port 112, and the water outlet end of the second cold head assembly 3 is connected with the first water inlet port 111.

Referring to fig. 5, regarding another embodiment of the water-cooling heat dissipation assembly 1, two ends of the heat dissipation part 13 are respectively connected with a first water chamber frame 11 and a second water chamber frame 12, a first partition board is arranged in the first water chamber frame 11 to divide the interior of the first water chamber frame into a first water inlet chamber and a first water outlet chamber, a first water inlet opening 111 is formed in the first water inlet chamber, a first water outlet 112 is formed in the first water outlet chamber, a second partition board is arranged in the second water chamber frame 12 to divide the interior of the first water chamber into a second water inlet chamber and a second water outlet chamber, a second water inlet opening 121 is formed in the second water inlet chamber, a second water outlet 122 is formed in the second water outlet chamber, the second water inlet chamber is communicated with the first water inlet chamber, and the second water inlet chamber is communicated with the first water outlet chamber;

the water inlet end of the first cold head component 2 is connected with the first water outlet 112, the water outlet end is connected with the first inlet, the water inlet end of the second cold head component 3 is connected with the second water outlet 122, and the water outlet end is connected with the first water inlet 111;

the cooling liquid is delivered to the water inlet end of the first cold head assembly 2 from the water outlet 112 of the water-cooling heat dissipation assembly 1, then enters the first water inlet 111 from the water outlet end of the first cold head assembly 2, the temperature of the cooling liquid at the moment is increased, the cooling liquid enters the first water inlet and then is delivered to the second water outlet through the heat dissipation part 13, the cooling liquid can emit heat into the air to cool in the flowing process of the heat dissipation part 13, the heat dissipation effect of the second cold head assembly 3 is improved, then flows into the second cold head assembly 3 from the second water outlet 122, then flows out of the second cold head assembly 3 into the second water inlet, the temperature of the cooling liquid is increased again at the moment, the cooling liquid flows into the first water inlet through the heat dissipation part 13 again, the cooling liquid can emit heat into the air to cool in the flowing process of the heat dissipation part 13, and finally the first water outlet 112 is delivered to the water inlet end of the first cold head assembly 2;

through the design, the process of radiating heat to lower temperature is carried out once before cooling liquid flows into the first cold head assembly 2 and the second cold head assembly 3, and the subsequent radiating effect is improved.

In actual use, the cooling liquid has some loss in the long-time use process, so the total amount of the cooling liquid in the circulating space becomes smaller, therefore, the first water chamber frame 11 is provided with a water injection hole, the water injection hole is provided with a one-way valve 14, the cooling liquid can be injected from the one-way valve 14 through corresponding equipment, and meanwhile, the seepage of the cooling liquid is avoided by utilizing the principle of the one-way valve 14

In this embodiment, referring to fig. 6, the first cold head assembly 2 has the same structure as the second cold head assembly 3, the second cold head assembly 3 includes a base 31, a heat conducting portion 32 is disposed on the bottom surface of the base 31, a liquid storage cavity is formed between the heat conducting portion 32 and the base 31, the liquid storage cavity is connected with a liquid inlet 33, a pump body 34 is installed above the base 31, a water inlet end of the pump body 34 extends into the liquid storage cavity, a water outlet end of the pump body 34 is connected with a liquid outlet 35, and power is provided by the pump body 34 to drive cooling liquid to circulate.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the embodiments of the disclosure may be suitably combined to form other embodiments as will be understood by those skilled in the art.

Claims (5)

1. The utility model provides a two cold head integral type water-cooling radiator, includes water-cooling heat dissipation subassembly (1), its characterized in that: the water-cooling heat dissipation assembly (1) is circularly connected with a first cold head assembly (2) and a second cold head assembly (3) through pipelines;

the water outlet end of the water cooling heat dissipation assembly (1) is connected with the water inlet end of the first cold head assembly (2), the water outlet end of the first cold head assembly (2) is connected with the water inlet end of the second cold head assembly (3), and the water outlet end of the second cold head assembly (3) is connected with the water inlet end of the water cooling heat dissipation assembly (1);

the water cooling heat dissipation assembly (1) comprises a first water chamber frame (11) and a second water chamber frame (12), wherein the first water chamber frame (11) and the second water chamber frame (12) are communicated through a heat dissipation part (13), a first partition plate is arranged in the first water chamber frame (11) to divide the interior of the first water chamber frame into a first water inlet chamber and a first water outlet chamber, the first water inlet chamber is provided with a first water inlet (111), and the first water outlet chamber is provided with a first water outlet (112).

2. The double-cold-head integrated water-cooled radiator as recited in claim 1, wherein: the water inlet end of the first cold head component (2) is connected with the first water outlet (112), and the water outlet end of the second cold head component (3) is connected with the first water inlet (111).

3. The double-cold-head integrated water-cooled radiator as recited in claim 1, wherein: a second partition plate is arranged in the second water chamber frame (12) and divides the interior of the second water chamber frame into a second water inlet chamber and a second water outlet chamber, the second water inlet chamber is provided with a second water inlet (121), the second water outlet chamber is provided with a second water outlet (122), the second water outlet chamber is communicated with the first water inlet chamber, and the second water inlet chamber is communicated with the first water outlet chamber;

the water inlet end of the first cold head assembly (2) is connected with the first water outlet (112), the water outlet end is connected with the first inlet, the water inlet end of the second cold head assembly (3) is connected with the second water outlet (122), and the water outlet end is connected with the first water inlet (111).

4. The double-cold-head integrated water-cooled radiator as recited in claim 1, wherein: the first water chamber frame (11) is provided with a water injection hole, and the water injection hole is provided with a one-way valve (14).

5. The double-cold-head integrated water-cooled radiator as recited in claim 1, wherein: the cold head assembly I (2) and the cold head assembly II (3) are identical in structure, the cold head assembly II (3) comprises a base (31), a heat conducting part (32) is arranged on the bottom surface of the base (31), a liquid storage cavity is formed between the heat conducting part (32) and the base (31), the liquid storage cavity is connected with a liquid inlet nozzle (33), a pump body (34) is arranged above the base (31), the water inlet end of the pump body (34) extends into the liquid storage cavity, and the water outlet end of the pump body (34) is connected with a liquid outlet nozzle (35).