KR20090097557A - Computer cooling system by water-circulation having single body of reservior and fan - Google Patents

Abstract

A computer cooling system by water-circulation having a single body of a reservoir and a fan is provided to minimize the installation space of a cooling system in a computer by using a fan case as a reservoir tank. A pump(120) circulates cooling water, and a reservoir tank(130) discharges the bubbles occurring inside a system and stores the cooling water. A radiator(140) cools down the high temperature of cooling water that passes a water block(110), and a fan(150) is formed by a fan wing(151) and a fan case(152) for the air cooling of the radiator. A pipe(160) provides a flow path of the cooling water, and the internal space(152a) for the storage of the cooling water is formed inside the fan case.

Description

Computer Cooling System By Water-Circulation Having Single Body Of Reservior and Fan}

The present invention relates to a water-cooled computer cooling system having an integrated structure of a storage tank and a fan, and more particularly, to a structure in which the storage tank and a fan are integrated, thereby minimizing the installation space of the cooling system in a complex computer system. A water cooling computer cooling system having an integrated structure of a storage tank and a fan.

In general, a computer used for home or industrial use consists of a combination of numerous semiconductors and other peripherals, and a cooling system that uses atmospheric circulation, such as a fan, to dissipate heat generated by the operation of these components to the outside. Is being applied.

In particular, components that generate relatively high heat such as CPUs, graphics cards, and power supplies have a cooling device that is a combination of a heat sink and a fan independently, and other parts may be equipped with a cooling device such as a heat sink.

In the conventional computer cooling system, a fan is usually attached to a heat sink or a fin is attached to a heat sink heat pipe to remove heat generated from a CPU of the computer. It is common to remove the CPU heat with a fan by bonding.

However, as the computer's high performance increases, CPU heat is increasing, and accordingly, there is a limit in removing heat of the CPU by only a heat pipe. In order to solve this problem, a water-cooled computer cooling system using water and a steam compression cooling system using refrigerant have been developed and sold in the market.

Water-cooled computer cooling system has a complicated structure, and due to the leakage of the cooling water is used by some users only for special purposes, such as tuning (tuning) or server system cooling. Therefore, the water-cooled cooling system sold enough to be applied to a general home computer while maintaining heat dissipation performance and stability has a problem that it cannot be mounted on an expensive or slim computer.

Referring to FIG. 1 of the accompanying drawings, the water-cooled computer cooling system 10 as described above is largely divided into three parts, which is a water block having a passage for performing heat transfer with coolant while directly contacting the CPU 11. a water block 12), a radiator 13 for cooling the high temperature cooling water passing through the water block 12, and a pump 14 for circulating the cooling water.

The radiator portion includes a radiator for widening the heat dissipation area and a fin for air cooling. Recently, many attempts have been made to save and utilize space, such as combining the radiator unit and the pump unit into one case or including the radiator unit on the power supply side of a computer.

However, in addition to the three parts described above, the most necessary part of the water cooling system is the reservoir 15, which plays two roles in the water cooling system. This serves as a coolant reservoir for initial coolant injection and replenishment and the release of bubbles generated inside the system during operation.

On the other hand, the conventional air-cooled cooling system simply consists of a fan and a heat sink, so it may be mounted on the CPU side. In complex systems, there is a need for a way to save space by reducing the number of components or by combining components.

The present invention according to the necessity as described above constitutes a structure in which the storage tank and the fan are integrated, a water-cooled computer cooling system having an integrated structure of the storage tank and the fan to minimize the installation space of the cooling system in a complex computer system. The purpose is to provide.

The water-cooled computer cooling system having an integrated structure of a storage tank and a fan according to the present invention for achieving the above object is a water block (contact) in contact with the heat source of the computer, a pump for circulating the cooling water, and storage of the cooling water And a fan including a reservoir tank for discharging bubbles generated in the system, a radiator for cooling the high temperature coolant passing through the water block, and a fan blade and a fan case for air cooling of the radiator. (fan) and the pipe for providing a flow path of the coolant; wherein the fan case has an internal structure for storing the cooling water therein has a structure in which the storage tank and the fan case integrally formed It is done.

Preferably, the fan case is characterized in that a port for cooling water injection is formed through the upper one side corner portion, the port plug is coupled to the port.

In addition, preferably, the fan case includes a motor for driving the fan blades and a support on which the blades are supported, and the support has a structure that can be separated and detached from the fan case.

More preferably, the fan case has a fan coupling portion to which the fan blades are coupled, a pump coupling portion to which the pump is coupled is formed at the bottom, and the first pipe connecting the fan case and the radiator and the The second pipe connecting the pump and the fan case is characterized in that it has a structure located on each side of the pump coupling portion that is the lower portion of the fan case.

According to the water-cooled computer cooling system having an integrated structure of the storage tank and the fan according to the present invention, by using the fan case as a storage tank there is an effect that can minimize the installation space of the cooling system in the computer.

In addition, when the initial cooling water in the cooling system is charged into the system, the head of the cooling water can be secured in the fan case, which is a storage tank, and thus the amount of filling in the cooling system is large, thereby ensuring the initial operation safety of the cooling system. It is possible to easily remove the air (air) formed in the initial cooling system has the effect of easy cooling water filling.

1 shows a schematic structure of a conventional water-cooled computer cooling system;

2 is a perspective view showing the configuration of a water-cooled computer cooling system according to an embodiment of the present invention; And

3 is an exploded perspective view of FIG. 2.

※ Explanation of symbols for main parts of drawing

100: water-cooled computer cooling system 110: water block

120: pump 130: storage tank

140: radiator 150: fan

151: fan blade 151a: motor

152: Fan case 152a: Internal space

152b: port 153: port plug

154: support 160: piping

161: first pipe 162: second pipe

163: third pipe 164: fourth pipe

152c: pump coupling portion 152d: fan coupling portion

Hereinafter, a water-cooled computer cooling system having an integrated structure of a storage tank and a fan according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 2 is a perspective view showing the configuration of a water-cooled computer cooling system according to an embodiment of the present invention, and FIG. 3 is an exploded perspective view of FIG.

Referring to the drawings, the water-cooled computer cooling system 100 according to the present invention is a water block (Water Block, 110) in contact with the heat source of the computer, a pump 120 for circulating the coolant, the storage of the coolant and the system interior Reservoir tank (130) for discharging bubbles generated in the air, a radiator (140) for cooling the high temperature cooling water passing through the water block 110, and a fan for air cooling of the radiator 140 Fan (150) consisting of the wing (151) and the fan case 152 and a pipe 160 for providing a flow path of the coolant is configured, the fan case 152 therein for storing the coolant therein The space 152a is formed to form an integral structure of the storage tank and the fan case.

That is, the fan case 152 simultaneously serves as a storage tank, and an inner space 152a in which cooling water is stored is formed in the fan case 152.

In addition, a port 152b for injecting cooling water is formed through a corner portion of the upper side of the fan case 152, and a port cap 153 is coupled to the port 152b. A port 152b is formed at one upper corner of the fan case 152 to secure the head of the cooling water in the storage tank when the initial operation of the cooling system is charged into the cooling system. As the filling amount increases, the initial operation stability can be ensured, and the air inside the cooling system generated when the cooling water is injected can be easily taken out, so that the cooling water can be easily charged into the initial cooling system.

That is, when the coolant is injected through the port 152b, the coolant is generated by the hydraulic pressure generated by the head due to the port 152b being located at the upper portion of the pipe 160, the radiator 140, and the water block 110. It can be sufficiently injected into the interior.

Referring to the process of filling the initial cooling water into the cooling system, when the cooling water is first injected into the port 152b, the cooling water is connected through the first pipe 161 connected between the fan case 152 and the radiator 140. The radiator 140 is charged.

In addition, when filled in the flow path (not shown) formed inside the radiator 140, the internal flow path of the water block 110 through the third pipe 163 connecting the radiator 140 and the water block 110. While not shown), the cooling water is entirely charged inside the cooling system.

At this time, when the coolant is charged from the fan case 152 to the radiator 140, the radiator 140 is not completely charged, and air remains in the upper layer of the radiator 140. When the pump 120 is driven to extract the air, the air of the radiator 140 moves to the fan case 152 through the pipe 160 by the flow of the coolant, and the pipe 160 and the fan case which are circulation paths of the coolant are moved. Only the coolant is filled in the pump coupling part 152c, the radiator 140, and the water block 110 of 152.

When the cooling system is driven after the initial cooling water is charged as described above, the cooling water is transferred from the water block 110 to the third pipe 163, the third pipe 163 to the radiator 140, and the radiator 140. The first pipe 161, the first pipe 161 to the fan case 152, the fan case 152 to the pump 120, and the pump 120 to the fourth pipe 164 along the water block ( The cooling system is driven while undergoing a circulation process at 110.

On the other hand, the fan blade 151 side is provided with a motor 151a for driving the motor 151a and the fan blade 151 by the support 154 detachably coupled to the fan case 152. Supported. Since the support 154 can be separated from the fan case 152, the support 154 can be separated and repaired or replaced in the event of a failure of the fan blade 151 and the motor 151a, thereby making it easy to maintain. There is.

The support 154 is coupled to the screw 155 to the coupling hole 152e formed in the corner portion of the fan case 152 described above, the radiator 140 and the fan case 152 and the support 154 is a screw ( 155 has a structure that is integrally coupled.

The fan case 152 according to the present invention has a fan coupling portion 152d to which the fan blades 151 are coupled to the upper portion, and a pump coupling portion 152c to which the pump 120 is coupled to the lower portion. In addition, a first pipe 161 connecting the fan case 152 and the radiator 140 and a second pipe 162 connecting the pump 120 and the fan case 152 may include the fan case 152. It has a structure located respectively at the pump coupling portion 152c side which is a lower part.

In this way, the coupling position of the first pipe 161 and the second pipe 162 can ensure the maximum head for the cooling water storage of the fan case 152, which is a storage tank, and also in the system when the cooling system is driven. It is possible to minimize the amount of stagnant coolant.

According to the water-cooled computer cooling system having an integrated structure of the storage tank and the fan according to the present invention, by using the fan case 152 as a storage tank, there is an effect that can minimize the installation space of the cooling system in the computer, When the initial operation of the cooling system is charged into the system, the head of the cooling water can be secured in the fan case 152, which is a storage tank, so that the amount of internal cooling of the cooling system is large, thereby ensuring the initial operation safety of the cooling system. Since the air formed therein can be easily removed, the cooling water can be easily charged into the initial cooling system.

Claims (4)

In a water-cooled computer cooling system, A water block in contact with the heat source of the computer, a pump for circulating the coolant, a reservoir tank for storing the coolant and for discharging bubbles generated in the system, and a high temperature through the water block. A radiator for cooling the cooling water, and a fan consisting of a fan blade and a fan case for air cooling of the radiator, and a pipe providing a flow path of the cooling water. The fan case has an integrated structure of the storage tank and the fan, characterized in that the storage tank and the fan case has an integral structure to form an internal space for cooling water storage therein. The method of claim 1, The fan case is a water cooling computer cooling system having an integrated structure of a storage tank and a fan, characterized in that a port for cooling water injection is formed through the upper one side corner portion, the port plug is coupled to the port. The method of claim 1, The fan case includes a motor for driving the fan blade and a support on which the blade is supported, The support is a water-cooled computer cooling system having an integrated structure of the storage tank and the fan, characterized in that the removable structure from the fan case. The method according to claim 1, wherein The fan case has a fan coupling portion to which the fan blades are coupled is formed at the top, and a pump coupling portion to which the pump is coupled is formed at the bottom, The storage tank and the fan, characterized in that the first pipe connecting the fan case and the radiator and the second pipe connecting the pump and the fan case are located on the side of the pump coupling portion which is a lower part of the fan case. Water-cooled computer cooling system having an integral structure of.