DE10360401A1 - Liquid cooling system for electronic device, especially computer, has filler and overflow devices at essentially lowest and highest points, radiator additionally acting as equalization container - Google Patents

Abstract

The system has at least one radiator (12), at least one cooling body (18) and at least one pump (16) connected together by lines to form a cooling circuit, a filler (41) and an overflow device (60). The filler and overflow devices are arranged at the essentially lowest and highest points respectively in the system when in proper use and the radiator additionally acts as an equalization container. AN Independent claim is also included for the following: (a) a computer with a microprocessor and a liquid cooling system.

Description

The invention relates to a liquid cooling system for one electronic device, in particular a computer, with a Radiator, at least one heat sink, one Pump, where radiator, heat sink and Pump for forming a cooling circuit via lines are connected to each other, a filling device, and an overflow device.

Liquid cooling systems of the aforementioned type are generally known. They are becoming increasingly special in the area of liquid cooling systems the aforementioned type are generally known. You will be increasing Dimensions in particular used in the field of data processing to meet the rapidly increasing heat generation due to the ever higher Performance. The usual air cooling is meanwhile no longer able to achieve high performance systems adequate cooling to achieve, or is in the desktop computers used in the office area or Workstation computers due to the large number of small-scale computers used Fans very loud.

Liquid cooling systems are based on the unpleasant noise even with usual Office PCs therefore in the future to reduce noise on a larger scale than previously used.

With the increasing use of such Liquid cooling systems the handling of such systems comes from the perspective of the user greater importance to. In particular, the filling and draining the liquid cooling system without further ado for be easily possible for the user of the computer.

The problem of existing liquid cooling systems is; that when filling adequate ventilation is often not achieved. This has the consequence that the pumps used do not work effectively, so the liquid only bad in the cooling circuit is circulated. This applies in particular if the systems are operated without a so-called expansion tank. Especially the very quiet pumps with gyroscopic principle and low pressure tend to have the fluid in the cooling circuit bad or at all not to circulate, when they suck in air. The situation is also getting worse if additives be used to stabilize the fluid. It gets stronger Foam formation with poor ventilation.

These systems usually give over hours and loud noises for days through the trapped air bubbles and serve the purpose of quiet running no more.

This is the reason why these days comparatively expensive, space-consuming and against leaks prone Expansion tank used become. Again, an hour-long run is necessary to get the system to get quiet. Industrial production is therefore not reasonably possible or increased the effort.

Against this background, the Object of the present invention therein, a liquid cooling system of the aforementioned type to further develop such that simple filling and emptying is possible, without the above-mentioned expansion tanks having to be used.

This task is the said Liquid cooling system thereby achieved that the filling device - with the intended use of the Liquid cooling system - on im Essentially lowest point and the overflow device at essentially highest Point are arranged, and the radiator also serves as an expansion tank.

Since the radiator serves as an expansion tank, i.e. is arranged so that it is used as intended of the liquid cooling system - is higher than the pump, is in the line between the radiator outlet and the inlet there is always a liquid column on the pump (suction side). This characteristic guaranteed so that the pump does not suck in air. Since also in the radiator the flow rate of the fluid is significantly reduced, this can be a good separation of Air and fluid take place. With the help of this separation of fluid and leaves air in the radrator a vent over the at essentially the highest point arranged overflow device perform very easily.

The liquid cooling system can be filled making it very easy to do that the intended filling device is arranged at the essentially lowest point. This prevents when filling the air bubbles remain in the system, especially the pump. Leaves in a few seconds fill a system without bubbles and is silent immediately after switching on.

In an advantageous further training the invention comprise the filling device and / or the overflow device one branch each arranged in a line.

Such branches in the piping system simplify the connection of lines for filling or emptying the cooling circuit. You can also use these branches attach shut-off devices, such as small ones Valves, plugs, blind plugs, ball valves or self-closing quick couplings, the handling for make the user even easier.

Of course, it is also possible to feed the Fluids over Additional openings provided on certain components (e.g. radiator) make.

The aforementioned liquid cooling system is preferably used in a computer, the cooling body being a microprocessor of the computer. assigned. Of course, other heat-generating components can also be operated in a computer via the liquid cooling system cool. For this it is only necessary to provide additional heat sinks with corresponding lines for expanding the cooling circuit.

To handle the liquid cooling system it is provided according to the invention in a particularly simple manner, connections Outside on the housing to provide the computer, the filling device or the overflow device assigned.

In other words, that means for filling or emptying the liquid cooling system opening the housing the computer is no longer required. Rather, the user can by connecting corresponding cables to the outside connections a filling or emptying. The connections can then be made very easily, for example using plugs after filling or emptying can be closed again.

In the end it should be pointed out that the liquid cooling system according to the invention not only have a radiator, pump or heat sink. Much more the system may include several of these components, all of which are so are arranged that a cooling circuit results.

Further advantages and configurations the invention will become apparent from the description and the accompanying Drawing.

It is understood that the above not only mentioned and the features to be explained below in the specified combination, but also in others Combinations or alone can be used without the frame to leave the present invention.

The invention is now based on a embodiment explained in more detail with reference to the drawing. there demonstrate:

1 a schematic block diagram of a liquid cooling system; and

2 this in 1 shown liquid cooling system built into a computer.

In 1 a liquid cooling system is shown schematically and with the reference numeral 10 characterized. The liquid cooling system 10 has a radiator 12 on which a fan 14 is appropriate. The structure and functioning of such a radiator 12 are generally known, so there is no need to go into them here.

To the liquid cooling system 10 also includes a pump 16 , for example a quietly running centrifugal pump, and at least one heat sink 18 , In the present in 1 Embodiment shown are a total of two heat sinks 18 intended.

The heat sink is a component which has a multiplicity of channels which are produced using microstructure technology and which are located between an inlet 21 and an outlet 23 run. Other heat sinks are of course also conceivable.

To form a cooling circuit, there is an outlet below 25 of the radiator 12 with an enema 27 the pump 16 over a line 29 connected. A run 31 the pump 16 is with the inlet 21 of the heat sink 18 via another line 33 connected. Finally, the outlet 23 of the heat sink 18 via another line 35 with an inlet at the top 37 connected to the radiator.

If the liquid cooling system is filled with a fluid, preferably distilled water, the pump 16 turns it into a heat sink 18 over the line 33 , from there via line 35 to the radiator 12 and from there again via the line 29 conveyed to the pump.

On the line 33 is a branch 40 provided that part of a filling device 41 is. At the branch 40 it is, for example, a T-shaped line piece that connects another line 43 allows.

On the line 43 is a shut-off element 45 provided, which can be, for example, a valve, a ball valve or a self-closing quick coupling. On the shut-off element 45 is another line 47 attached, the end of which is free and in the present example in a container 50 empties.

Another branch is on the line 35 provided and with the reference symbol 53 characterized. This branching too 53 is designed as a T-shaped line piece, at the third connection a line 55 connected. This line 55 ends in a shut-off element 57 , which can also be designed as a valve, ball valve or self-closing quick coupling. On the shut-off element 57 is again a line 56 connected.

The branch 53 is together with the shut-off element 57 and the lines 55 . 56 Part of an overflow device 60 ,

At this point it should be pointed out that those with the reference numerals 40 . 43 . 45 and 47 respectively. 53 . 55 . 56 and 57 specified components in each case to a single component 41 respectively. 60 can be integrated.

To ensure that the liquid cooling system functions properly, certain arrangement conditions must be observed. So it is required that the pump 16 in the intended use of the liquid cooling system is lower than the radiator 12 , In particular, make sure that the line 29 There is always a liquid column in operation so that no air enters the pump 16 arrives.

It must also be ensured that the branch 53 in the intended use of the entire liquid cooling system 10 at a highest point and the branching 40 on the line 33 is at a lowest point. Over the lower branch 40 the liquid cooling system 10 fill with a fluid while over the upper branch 53 the system can be vented.

The liquid cooling system 10 is now filled with a coolant, usually water, as follows:
The container 50 , for example a narrow-necked bottle, is filled with distilled water and a stabilizing concentrate, for example, and mixed well. Then the narrow-necked bottle 50 closed with a spray cap (a lid with a hole). Then the line, which is designed as a 6 mm thick hose, for example 47 into the narrow-necked bottle 50 plugged in.

In the next step, the two shut-off elements 45 . 57 opened and the narrow neck bottle 50 turned upside down and held higher than the highest point of the liquid cooling system. By squeezing the narrow-necked bottle very slowly 50 the cooling circuit is filled. Slow filling is absolutely necessary so that the air can escape, in particular from the pump and from the cavities of the radiator. The system is filled when over the lines 55 . 56 Water escapes without air bubbles.

The two shut-off elements 45 . 57 are then closed again and the pump started for about a minute. Then the narrow-necked bottle 50 brought back into the aforementioned filling position and the two shut-off elements 45 . 57 open. Now coolant is brought into the cooling circuit again to flush out any remaining air bubbles.

In the end, the two shut-off elements 45 . 57 closed again so that the cooling circuit is closed. If necessary, the lines used for filling 47 . 56 be removed.

In that the radiator 12 related to the pump with its inlet 37 above and its spout 25 Arranged below, it can take over the function of an expansion tank to keep a liquid column in the line 29 to keep. Because the flow rate in the radiator 12 even small, the air can separate well from the liquid and inside the radiator 12 hike up so they cross the branch 53 and the line 55 can flow out.

In 2 is the aforementioned liquid cooling system 10 shown built into a computer. The computer is with the reference number 70 characterized, in the figure the usual components of a computer, such as motherboard, power supply, drive, etc. are not shown for reasons of clarity. The drawn frame is only intended for the housing 71 symbolize the computer. The radiator 12 is at the back 73 of the housing 71 attached in such a way that air can flow through it well. It can be clearly seen that the pump 16 on the ground 75 the housing is attached, i.e. lower than the radiator 12 , At this point it should be noted that the information "higher" and "lower" refer to the intended use of the liquid cooling system. This intended use is in 2 shown that the computer 70 with his bottom 75 on a pad 77 , e.g. table or floor.

The handling of the liquid cooling system 10 Simplify for the user are at the back 73 two connections 81 . 83 provided, preferably with shut-off elements designed as simple plugs 45 respectively. 57 are connected. It is possible to use the lines 47 respectively. 56 for filling or emptying the liquid cooling system 10 with the respective connections 81 respectively. 83 to connect so the housing 71 of the computer 70 does not have to be opened.

At this point it should be noted that the arrangement of the two connections 81 . 83 was chosen purely by way of example. Of course, they can also be attached to other parts of the computer case. Especially at different heights. If the two connections are arranged, for example, at a highest point in the system, coolant can flow away.

In the 2 a further variant is shown of how the system can be filled in an industrial setting. This variant differs in that instead of the narrow-neck bottle, a container filled with the coolant 91 together with a pump 93 be used. By turning on this pump 93 the system can be filled very quickly without bubbles. In an analogous manner, it is also conceivable instead of connecting a pump to the connection 81 a vacuum pump on the connection 83 to draw the coolant from the tank into the system.

Overall, this results in a liquid cooling system that filled very easily can be done without problems due to poor ventilation during operation prepare. About that in addition, it is not necessary to provide an expansion tank.

Claims (8)

Liquid cooling system for an electronic device, in particular a computer, with - at least one radiator ( 12 ), - at least one heat sink ( 18 ), - at least one pump ( 16 ), where radiator ( 12 ), Heat sink ( 18 ) and pump ( 16 ) to form a cooling circuit via lines ( 29 . 33 . 35 ) are connected to each other, - a filling device ( 41 ), and - an overflow device ( 60 ), characterized in that the filling device ( 41 ) - when the liquid cooling system is used as intended - at the essentially lowest point and the overflow device ( 60 ) are arranged at the essentially highest point, and the radiator ( 12 ) also serves as an expansion tank. Liquid cooling system according to claim 1, characterized in that the filling device ( 41 ) and / or the overflow device ( 60 ) a branch arranged in a line ( 40 . 53 ) include. Liquid cooling system according to claim 2, characterized in that the branching ( 40 . 53 ) is provided as an opening in a component arranged in the cooling circuit. Liquid cooling system according to one of claims 1 to 3, characterized in that the radiator ( 12 ) - when used as intended - higher than the pump ( 16 ) is arranged. Liquid cooling system according to one of claims 1 to 4, characterized in that the filling device ( 41 ) and / or the overflow device ( 60 ) one shut-off device each ( 45 . 57 ) include. Liquid cooling system according to claim 5, characterized in that the shut-off device ( 45 . 57 ) is designed as a valve, plug, blind plug, ball valve or self-closing quick coupling. Computer with a microprocessor and a liquid cooling system according to one of claims 1 to 6, wherein the heat sink ( 18 ) is assigned to the microprocessor. Computer according to claim 7, characterized in that the filling device ( 41 ) and the overflow device ( 60 ) one connection each ( 81 . 83 ) which is arranged on a wall of the computer housing, so that the connections are accessible from the outside and the liquid cooling system can be filled and emptied from the outside without opening the computer housing.