DE10157555A1 - Heat sink for a computer system is in computer housing with connections to a separate pump - Google Patents

Abstract

Within the computer housing (5) is a heat sink (1) that contains a number of flow channels for cooling fluid. The heat sink is in contact with a microprocessor chip. The inlet and outlet pipes (3,4) are connected to a pump module (13) that is in a separate unit.

Description

The invention relates to a cooling device, in particular for computers that in essentially consisting of a cooling channels that can be connected to the microprocessor and one Coolant inlet and outlet cooling body, a coolant tank, lines and Pump, heat exchanger and fan exist.

At first, the cooling of computers required air cooling consisting essentially of a heat sink with a rib structure and a fan duration. The heat sink was clamped on the microprocessor or on the Microprocessor receiving plate attached. Such a cooling device is under Taking into account the limited size due to lack of space in the computer case Cooling fins very limited in performance. Even the use of For example, two fans can hardly do the performance that disturbs the workflow However, increase the volume to an unbearable level.

The evolution of computer cooling is in liquid cooling, the main component of which is water. The heat sink, primarily made of thermally conductive Material such as copper is sent to the microprocessor or the in a known manner corresponding, the microprocessor receiving plate flanged and is in one closed system via a coolant inlet and outlet with the required Coolant supplied. The heat sink made of copper has milled, meandering Cooling channels. The components required for the system such as liquid containers, The heat exchanger and fan as well as the pump are inside the computer case Installed. Such a development is, however, regarding Cooling without great importance. On the one hand, the design of the heat sink, due to the few surfaces of the serpentine duct for heat absorption due to the cooling medium, no significant improvement and on the other hand Overall construction, which is within the cramped space in the computer case Bringing is complicated, time-consuming and requires a great deal of installation and removal craftsmanship taking into account appropriate tools. Farther Another disadvantage is that no active ventilation is provided in the system is what degrades cooling efficiency and that even careful Filling no control allowed.

In contrast, the invention has for its object, a simple means to provide optimized cooling for computers that are a consumer friendly system represents, which is adaptable to the corresponding cooling needs, which no spatial conditional remodeling of the computer that is quiet and that allows that System overclock and overall capable of extending the life of a computer extend.

This object is achieved in that the on the heat sink Lines with components supplying coolant in an adapter-like manner to the Computer case connectable, box-shaped unit that are detachable with the Computer housing is designed to be modular.

Such cooling is not only suitable for every computer, but also offers a solution for cooling wherever, for example due to electricity, heat confined space must be removed. The cooling or the required complete Unit can be just as easily taken into account in the manufacture of the computer as as a complete replica kit. The overall construction is good manageable and quick and easy to assemble without much manual knowledge.

A particular advantage of the invention lies in the design and execution a performance-enhancing heat sink. Due to its and drainage channels or due to its forming a correspondingly large area Cooling channels the possibility of a large increase in performance. The position of the invention Cooling channels to the microprocessor at an arcuate distance enables one increased heat dissipation and on the other hand allows a low pressure of 0.6-0.8 bar what again hardly poses a risk for leaks in the system.

Another advantage of the invention is given a known one Clamp attachment of the heat sink to the microprocessor in that by an additional Guide pin and a locking screw for quick and centrally secured installation of the heat sink can take place.

In the context of the invention it proves to be particularly advantageous that the box-shaped Unit adapted to the cross section of the computer case and below the Computer case and is detachably connected to this. Establishes a quick connection for example a clamp connection. Likewise lies in the movability of the the computer case a construction forming a common unit underestimating advantage. The unit provided for cooling has a control unit, which ensures that the cooling is switched on when the computer is running and that simultaneously triggers an operating display. To increase operational safety, the Pump supplied with a current of 220 V within the unit.

An embodiment of the invention is shown in the drawings and is in explained in more detail below. Show it:

Fig. 1 is a schematic representation of a heat sink in section,

Fig. 2 is a partial section through a heat sink connected to the microprocessor,

Fig. 3 is a side view of a related cooling computer casing, partly in section and

Fig. 4 is a plan view of the essential components of a cooling unit in a schematic form.

In Fig. 1, an embodiment of a heat sink 1 is indicated in a section, which is made of copper in the lower region of a feed channel 27 with a diameter of z. B. 12 mm and a one-sided inlet 25 . An outlet channel 28 with an outlet 26 is provided in the upper area as a collecting channel. A plurality of drilled cooling channels 29 are arranged between the feed channel 27 and the outlet channel 28 . As can be seen from the sectional plan view in FIG. 2, the cooling channels 29 are arranged in an arc around the microprocessor 2 which is in contact with the flat-ground rear wall of the heat sink and is connected to a plate 32 and forms a unit through a surrounding bracket 30 . In order to ensure a central arrangement when installing the heat sink 1 , on the one hand a guide pin 31 and on the other hand a locking screw 34 is provided, the blunt or rounded end of which is accommodated in a semicircular recess 33 .

In Fig. 3, the computer housing 5 is shown in connection with the attached unit 6 for cooling in a partially sectioned side view. The housing 13 provided with a chassis in the form of rollers 14 is connected to the computer housing 5 by means of releasable clamps 35 . Furthermore, the line routing is indicated, the inlet line 3 of the unit 6 leading to the inlet 25 of the heat sink 1 and from the outlet 26 the outlet line 4 to the unit 6 . Furthermore, as an exemplary embodiment, the filling 18 and the ventilation line 19 are attached laterally to the computer housing 5 .

There is an optical operating display 17 on the unit 6 and below this a cooling circuit breaker and an operating switch for continuous operation and first filling or automatic.

In FIG. 4 in schematic form a plan view is shown on the unit 6. The housing containing the essential components is designated by 13. The control device 16 for the pump 12 and the fan 15 has a connection 24 for a power connection of 220 V and a connection 21 to the PC power supply unit. The heated liquid coming back from the heat sink 1 passes into a continuous tank 7 and from there through the tubes 10 of the heat exchanger 8 with cooling fins 9 into the coolant tank 11 . The fan 15 draws in cool air via through openings from the direction of the arrows B and thus cools the heated liquid in the heat exchanger 8 . The heated air is discharged in the direction of arrow A through the fan 15 , which is arranged in an opening 36 in the housing 13 . The cooled liquid from the coolant container 11 is returned to the heat sink 1 via the pump 13 . The container 11 is filled by means of the line 18 and the venting by means of the line 19 . REFERENCE LIST 1 heat sink
2 microprocessor
3 inlet pipe
4 drain pipe
5 computer cases
6 unit
7 throughput tanks
8 heat exchangers
9 ribs
10 pipes
11 coolant tank
12 pump
13 Housing of the unit
14 landing gear
15 fan
16 control unit
17 Operating display
18 filling line
19 vent line
20 power connection (coolant pump)
21 Connection to PC power supply
22 power supply
23 switching cable ( 220 V)
24 switching line (5/12 V - fan)
25 inflow
26 procedure
27 feed channel (bottom)
28 drain channel (top)
29 cooling channels
30 brackets
31 guide mandrel
32 mounting plate
33 recess
34 screw
35 brackets
36 opening (for fan)

Claims (10)

1.Cooling devices, in particular for computers, which consist essentially of a heat sink which can be connected to the microprocessor and has cooling channels and a coolant inlet and outlet, a coolant tank, lines and pump, and heat exchanger and fan, characterized in that the heat sink ( 1 ) via lines ( 3 , 4 ) with components supplying coolant ( 7 , 10 , 11 , 12 , 15 , 16 ) are combined in a box-shaped unit ( 6 ) which can be connected to the computer housing ( 5 ) in an adapter-like manner and which is detachably connected to the computer housing ( 5 ) is designed to be connectable in a modular manner. 2. Cooling device according to claim 1, characterized in that the vertically arranged and on the coolant inlet and outlet ( 25 , 26 ) facing away and face ground with the microprocessor ( 2 ) connectable heat sink ( 1 ) between the lower, with the coolant inlet ( 25 ) connected and extending across the width of the feed channel ( 27 ) and also across the width of the upper outlet channel ( 28 ) has a plurality of vertically extending cooling channels ( 29 ) which, in a plan view of the channels ( 29 ), are arranged in an arc to the centrally arranged one Microprocessor ( 2 ) run. 3. Cooling device according to claim 2, characterized in that the heat sink ( 1 ) which can be connected to the microprocessor ( 2 ) via an encompassing chamber ( 30 ) by means of a guide mandrel ( 31 ) provided in the bracket ( 30 ) and a locking screw ( 34 ) in its position relative to the microprocessor ( 2 ) is arranged so that the rounded end of the screw ( 34 ) which can be screwed through the clamp ( 30 ) has a centrally arranged, semicircularly rounded recess ( 33 ) in the side of the heat sink facing away from the microprocessor ( 2 ) 1 ) corresponds. 4. Cooling device according to claim 1, characterized in that the box-shaped unit ( 6 ) is adapted to the cross section of the computer housing ( 5 ) and below the computer housing ( 5 ) is designed to be releasably connectable to the latter. 5. Cooling device according to claim 1, characterized in that the box-shaped unit ( 6 ) with the computer housing ( 5 ) via clamps ( 35 ) is detachably connectable. 6. Cooling device according to claim 1, characterized in that the box-shaped unit ( 6 ) is designed to be movable by means of a chassis ( 14 ) attached on the underside, for example rollers. 7. Cooling device according to claim 1, characterized in that within the box-shaped unit ( 6 ) a control device ( 16 ) with a power connection ( 24 ) and a connection ( 21 ) to the power supply ( 22 ) of the computer is provided. 8. Cooling device according to claim 1, characterized in that the waste heat from the unit ( 6 ) receiving the housing ( 13 ) extracting fan ( 15 ) is arranged in an opening ( 36 ) of the housing ( 13 ) and the heat exchanger ( 8 ) is provided with air passage openings on the side of the housing ( 13 ) facing away from the opening ( 36 ). 9. Cooling device according to claim 1, characterized in that the lines provided for filling and venting the coolant container ( 11 ) ( 18 , 19 ) are releasably attached to the side of the computer housing ( 5 ). 10. Cooling device according to claim 1, characterized in that an optical operating display ( 17 ) can be provided on the side of the housing ( 13 ) accommodating the unit ( 6 ) in the viewing direction.