DE20311701U1 - Cooling system for e.g. personal computer, uses flowing water to absorb heat and emit heat via radiator inside computer casing - Google Patents

Abstract

The computer components are cooled by water flowing along a conduit and the heat is then emitted via a radiator (4) inside the computer casing.

Description

State of the art / problem:

Water cooling of a conventional type can only after modification of housing and other components because the heat to a radiator outside of the housing is derived. A modification always means a loss of warranty. The Thermaltake water cooling can be installed in any server or desktop PC without it in having to modify and is therefore universally applicable.

The water cooling is used to cool the server and desktop peripherals of all kinds.

Utility model description

It is a complete system with all the necessary components for a server or desktop PC. The system consists of a pump, cooling block, reserve tank, radiator (heat exchanger) with fan, hoses with kink protection and hose clamps, fastening system for all CPU types (AMD; Intel, Via), coolant additive, magnets for fastening the pump and radiator as well 2 self-adhesive steel plates.

1 The pump ( 1 ) with a 3pin Molex connector ( 2 ) connected to the CPU fan connector on the mainboard. This conveys the water continuously through the system and thus ensures a constant temperature of the components to be cooled. The heat is in the cooling block ( 3 ) recorded through the water to the radiator ( 4 ) transported and released back into the environment. The water cooled in this way returns to the pump through the circuit ( 1 ). The radiator ( 4 ) itself is used for better convection by an 80mm fan ( 5 ), which is connected to the case fan connector on the mainboards, also with a 3pin Molex connector ( 6 ). The individual components are interconnected with highly flexible silicone hoses ( 8th ) connected. In the silicone hoses ( 8th ) becomes an oxidation-free steel spiral ( 9 ), which prevents the hoses from kinking. At the pump ( 1 ) is still a reserve container ( 7 ) connected. This ensures that there is always the optimal amount of water in the cooling circuit and is used to fill the empty system. Pump ( 1 ), Reserve container ( 7 ) and radiator ( 4 ) using very strong magnetic plates ( 10 ) attached to and in the housing. For housings made of non-magnetic materials (e.g. aluminum) there are self-adhesive steel plates ( 12 ) included in the set, which are attached to the corresponding attachment points. All components, with the exception of the reserve tank, are located in the housing. The hoses to the reserve tank are routed to the outside through openings in the housing (so-called slot openings) for expansion cards. In order not to influence the EMC properties of the housing, the set has a so-called slot cover ( 11 ), which closes the hole created in this way and only has recesses for the hoses. So no modification of the housing or other components is necessary, which would result in a loss of warranty. Depending on the thermal output of the components to be cooled, cooling blocks, radiators, fans and pumps of different sizes with different delivery rates are used.

Functional sequence:

The pump continuously pumps water through the entire cooling system. The heat is on the cooling block recorded, through the water to the radiator (heat exchanger) transported and released there to the environment.

Application examples:

Water cooling is used to cool the server and desktop peripherals such as central processors (CPU), graphics processors (GPU), chipsets from Mainboards and controllers, memory modules, power supplies, hard drives, and other components that need active cooling. The water cooling is with good cooling performance extremely quiet and allows such a pleasant, concentrated work on the server or desktop PC.

Claims (1)

Active water cooling for PC and workstation systems, which is characterized in that the heat is removed from the microprocessor or other heat-sensitive components by a liquid-carrying heat sink and the heat is released again via a radiator inside the housing.