DE20304194U1 - Adapter system for liquid coolers for cooling a processor carried on a base plate - Google Patents

Abstract

The heat energy generating electronic module [1] is plugged into a socket [3] on a base [2]. The heat energy is dissipated by a fluid cooling unit [4] of high thermal conductivity that has fluid bore [6]. The heat sink is held firmly against the module surface by a frame [8] secured with clamps [11].

Description

Richard Wöhr GmbH

Graefenau 58 - 60

75339 Hofen

Adapter system for liquid coolers for cooling a base plate-mounted Processors

The present invention relates to an adapter system for liquid coolers for cooling a processor carried on a base plate, with a base device which consists of at least one heat-absorbing plate and a support frame which holds the heat-absorbing plate, wherein the support frame is fastened to the base plate and/or the processor and/or the processor socket by means of different fastening systems, and the underside of the heat-absorbing plate sits tightly and without gaps on the processor surface.

Many electronic components, especially CPU processors, operate within a limited temperature range and will malfunction if the temperature is outside this range. They also generate heat during operation. In order to maintain the correct operating temperature, the heat generated during operation of the electronic components must be dissipated.

To cool electronic components, numerous aluminum heat sinks with and/or without fans have been proposed and developed. The disadvantages of these solutions are the noise level and the limited lifespan of the fans. In addition, this type of cooling requires a lot of space, is very expensive to manufacture and allows the dissipated heat to be dissipated by convection in the housing, so that additional fans are required to dissipate the heat generated from the housing. Coolers with liquid coolers and fans integrated into the cooling fins are also known. The disadvantage of these coolers is that, because the liquid cooler needs a certain length to function properly, which is not possible with the known coolers, it is not possible to keep the cold zone of the liquid cooler cold. This is because the cooling block of the cooler heats up quickly and the fan cools the cooling fins even less well. The cold zone therefore heats up and the desired effect is not achieved. These coolers also require fans to dissipate heat from the housing.

Most cooling devices for processors are based on an aluminum heat sink with fins and a flanged fan. Heat sinks made of copper would be much better in terms of heat conduction, but they are very heavy and expensive. Other types of aluminum heat sinks with a copper core, e.g. a screwed copper plate on an aluminum heat sink or an extruded aluminum profile with a copper inlet, are also known, with the copper inside ensuring better heat dissipation and the aluminum ensuring a good transition to the air. Aluminum heat sinks with fans are always used here. The use of fans is also a disadvantage here.

To date, only simple adapter systems are known for attaching liquid coolers to processors. These consist of two halves that have direct contact with the processor and have a hole the same diameter as the liquid cooler into which the liquid cooler is attached. The halves are made of aluminum and are much larger than the processor. The low thermal conductivity of aluminum is a disadvantage. When these halves are made of copper, they are very heavy and difficult to attach due to their great weight.

Furthermore, a large number of cooling devices are known. For example, DE 201 12 851 U1 describes a cooling unit for a central processing unit in which a frame and a seat are connected to one another, between which a set of cooling fins is arranged and which is pressed onto the processor and has an integrated fan. The disadvantage of this system is that the heat is only dissipated by means of the fan. In addition, it is not sufficient for high-performance processors.

DE 195 09 904 C2 describes a cooling device for dissipating heat from electronic components by means of a fan with a base device which has first ribs on its edge and second ribs on its middle area and a support part for the fan in the middle part.

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is present and the fan is attached to the base unit by means of fastening elements, whereby the base unit is made of only one material, in this case aluminum. Here too, the cooling performance is only achieved through the use of the fan.

The invention is based on the object of creating an adapter system for liquid coolers for cooling a processor of the type mentioned above which is carried on a base plate, which enables an optimal fit of the heat-absorbing plate on the processor and which allows the heat generated in the processor to be dissipated without a fan, which is inexpensive to manufacture and does not have a high weight.

This object is achieved with the features of claim 1. In this case, it is therefore provided that the heat-absorbing end of the liquid cooler is fastened in a heat-absorbing plate made of copper, which is adapted to the size of the processor, and the plate is fastened to the base plate with the processor and/or to the base of the processor and/or to the processor by means of a support frame made of metal and/or plastic, wherein the smooth underside of the heat-absorbing plate rests directly on the surface of the processor.

A preferred embodiment of the invention has a support frame made of aluminum, which has a central cylindrical holder for the heat-absorbing plate made of copper, and in which round openings on the sides for the liquid cooler are integrated in the holder. The heat-absorbing plate, the underside of which rests on the processor surface, has a smooth surface. The external shape of this plate corresponds to the external dimensions of the processor, and it can be the same size or larger than the processor, and preferably has a cylindrical shape. In addition, this plate has a hole, the diameter of which is designed so that the liquid cooler is mounted in the hole by means of a press fit. The press fit ensures good heat transfer from the plate to the liquid cooler by means of process-safe pressing. This plate is placed in the cylindrical holder of the support frame, and the liquid cooler is mounted after the plate has been inserted into the support frame. The support frame is attached to the base plate and/or processor and/or processor socket by means of appropriate brackets and/or fastening systems.

It is also beneficial for heat transfer if the one-piece heat-absorbing plate is designed as a clamping element for the liquid cooler using a slot.

Another variant that is favorable for heat transfer involves gluing and/or soldering the heat-absorbing part of the liquid cooler to the heat-absorbing plate. The reliable soldering and/or gluing results in a high level of heat transfer.

For assembly, it is advantageous if the frame is also designed as a mounting frame and can thus be attached directly to the processor socket and/or the processor and/or the base plate.

A further preferred embodiment has a support frame as a punched and embossed part, wherein the frame simultaneously has the fastening integrated and the heat-absorbing plate is designed in the shape of a cuboid.

A weight reduction is achieved by a conical design of the heat-absorbing plate.

The invention is explained in more detail below using an embodiment with reference to the drawings.

Fig. 1: Section through an adapter system for liquid coolers for cooling a processor carried on a base plate

Fig. 2: one-piece heat-absorbing plate with pressed-in liquid cooler

Fig. 3: One-piece heat-absorbing plate designed as a clamping element to accommodate the liquid cooler

Fig. 4: one-piece heat-absorbing plate with soldered liquid cooler

Fig. 5: Support frame as a punched and embossed part

Figure 1 shows a section through an adapter system for liquid coolers for cooling a processor carried on a base plate. The processor 1 is fastened to the base plate 2 in a socket 3. The round, heat-absorbing plate 4 made of copper with a smooth underside 5 is slightly larger than the processor 1 and has an integrated hole 6 for the liquid cooler 7, the diameter of which is designed so that the liquid cooler 7 is mounted by means of a press fit. The support frame 8 made of aluminum has a central cylindrical holder 9 for the heat-absorbing plate 4, as well as round openings 10 on the sides for the liquid cooler. The heat-absorbing plate 4 is placed in the cylindrical holder 9 of the support frame 8, and the liquid cooler 7 is mounted after the plate has been placed in the support frame. The support frame 7 is fixed to the processor socket 3 by means of the retaining clip 11, so that the smooth underside 5 of the heat-absorbing plate 4 is pressed tightly and gap-free onto the surface of the processor 1.

Figure 2 shows a one-piece heat-absorbing plate 15 with a pressed-in liquid cooler 12. The heat-absorbing plate 15 made of copper has a smooth underside 23 and a bore 16, wherein the bore 16 is designed such that the liquid cooler 12 is pressed in by means of a press fit.

Figure 3 shows a one-piece heat-absorbing plate 17 as a clamping element for receiving the liquid cooler 12. The heat-absorbing plate 17 made of copper has a bore 16, wherein the liquid cooler 12 is clamped in place by the plate having a slot 18 and this is pressed together by means of screws 19.

Figure 4 shows a one-piece heat-absorbing plate 20 with a soldered liquid cooler 12. The soldering area 22 is larger than the liquid cooler.

Figure 5 shows a support frame as a punched and embossed part. The support frame has a receptacle in the form of a recess for the heat-absorbing plate, as well as 4 tabs for fastening 20 the support frame to the base plate, whereby the tabs have stiffeners 21, as well as corresponding reinforcements and recesses for the liquid cooler.

Claims (20)

1. Adapter system for liquid coolers for cooling a processor carried on a base plate with a basic device consisting of a support frame and a heat-absorbing plate, characterized in that the heat-absorbing plate is made of a material which has a higher thermal conductivity coefficient than aluminum and is the same size and/or larger than the processor in terms of external dimensions and that the heat-absorbing part of the liquid cooler is fastened in the heat-absorbing plate and the heat-absorbing plate is pressed tightly and without gaps onto the processor surface by means of the support frame. 2. Adapter system for liquid coolers for cooling a processor carried on a base plate according to claim 1, characterized in that the support frame, which serves to fix the heat-absorbing plate, is made of metal and/or plastic. 3. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the heat-absorbing plate is made of copper and/or its alloy. 4. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the shape of the heat-absorbing plate is cylindrical or cuboid-shaped or has another spatial shape. 5. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the support frame has a flat outer edge surface with a central elevation, wherein the heat-absorbing plate is placed in the elevation. 6. Liquid cooler adapter system for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the shape of the elevation in the support frame corresponds to the shape of the heat-absorbing plate. 7. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the support frame is attached to the processor socket and/or to the processor and/or to the base plate. 8. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the support frame is fastened to the processor socket and/or to the processor and/or to the base plate by means of screws and/or tension springs and/or other fastening elements. 9. Liquid cooler adapter system for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the support frame has tabs for fastening to the base plate. 10. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the support frame is manufactured as a stamped and embossed part and has integrated reinforcements and stiffeners. 11. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the support frame has bores and/or recesses for the liquid cooler. 12. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the heat-absorbing plate is in one and/or multiple parts. 13. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the heat-absorbing plate is in two parts and has a groove whose depth and width correspond to the diameter of the liquid cooler and that the clamping plate also has a groove like the heat-absorbing plate. 14. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the heat-absorbing end of the liquid cooler is pressed into the groove of the heat-absorbing plate by means of a clamping plate. 15. Liquid cooler adapter system for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the heat-absorbing plate has a bore into which the heat-absorbing end of the liquid cooler is pressed. 16. Liquid cooler adapter system for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the heat-absorbing end is glued and/or soldered to the heat-absorbing plate. 17. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the heat-absorbing plate has a bore with a clamping slot and the liquid cooler is fastened by means of clamping. 18. Adapter system for liquid coolers for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that a heat pipe is used as the liquid cooler. 19. Liquid cooler adapter system for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the surface of the heat-absorbing plate resting on the processor is smooth and free of grooves. 20. Liquid cooler adapter system for cooling a processor carried on a base plate according to one of the preceding claims, characterized in that the surface of the heat-absorbing plate resting on the processor is polished.