DE29612980U1 - Safety cooling system for microprocessors in personal computers - Google Patents

Description

1 L:..: : ^: ..|· ^: »::": FrankRöttger

Description

The safety cooling system for microprocessors in personal computers is characterized by the fact that a bimetal switch (2) is installed on the side of the heat sink of the microprocessor (1), which monitors the temperature of the heat sink and interrupts the power supply to the on/off switch of the computer with an accuracy of ± 3% if the temperature exceeds 75° Celsius. After the heat sink has cooled down to a temperature of 65° Celsius, the circuit is automatically closed again. This prevents thermal overload of the processor if the fan (3) fails or its performance drops. The bimetal switch used is designed for a maximum contact load of 250 volts and amperes. The bimetal switch is connected via a 6.35 mm flat plug.

The use of an alternative bimetal switch with different switching temperatures is possible at any time if the requirements of the processor manufacturers change and is provided for in the context of this invention.

State of the art: Heat sinks with conventional fans regulate the temperature

household of the microprocessor under normal conditions, but they offer no further protection against overheating of the processor if the fan fails or its performance drops. Unforeseeable environmental conditions (extreme sunlight, temperature development on other components, etc.) can also lead to excessive heat development inside the computer and thus destroy the processor and the mainboard or at least severely affect the average life expectancy of these components.

For this reason, so-called alarm fans have recently become available on the market, which emit a warning signal when the maximum temperature is exceeded. The PC user is thus informed that his processor has reached too high a temperature and can switch the computer off manually. However, this warning device does not protect against the processor burning out if the user is absent at the time of the warning signal or misinterprets the alarm signal.

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Frank Röttger Reference number: 296 12 980.1

Description

Problem:

The invention specified in the protection claim is based on the problem of creating a heat sink with a fan that ensures effective protection against overheating or burning of the processor and the mainboard even if the fan fails or for other reasons of excessive heat development on the processor's heat sink. Sustainable and permanent protection for the microprocessor can only be provided if, when the maximum temperature permitted for the processor is exceeded (depending on the manufacturer and type), the power supply to the system is immediately interrupted and the computer is automatically switched off. Conventional alarm fans do offer additional protection against excessive heat development inside the computer, but they only indicate a malfunction of the computer system acoustically without eliminating the cause of the heat development. Since a manual shutdown of the computer by a person is required at this point, this is only limited protection with the weaknesses mentioned above.

Solution:

The problem is solved with the help of a commercially available bimetal switch that is attached to the heat sink. Such temperature switches have been used for a long time to monitor the temperature of components. They have not yet been used on microprocessor heat sinks with the corresponding switching temperatures for interrupting and restoring the circuit in computer cases.

This temperature switch monitors the temperature of the heat sink that is attached to the microprocessor and interrupts the power supply at the on/off switch if the maximum permissible temperature of the heat sink is exceeded. This means that the computer is immediately switched off and can cool down. When a certain safe temperature is reached, the circuit is automatically closed and the system is supplied with power again. Even if there is a fault in the cooling system, the system remains operational until the upper limit is reached. Troubleshooting, which must be carried out immediately by a specialist, must determine and eliminate the reason for the excessive temperature development. Consequential damage to the processor and mainboard due to heat development can thus be largely ruled out.

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: ·..' Reference number: 296 12 980.1

Description

Achieved advantages: The invention increases the average lifespan of the microprocessor, which is heavily dependent on the average operating temperature and a functioning cooling system of the processor. Since the system is automatically switched off and the computer user has no influence on this, this additional safety aspect can have a positive effect, especially when computer manufacturers grant guarantee periods, and can mean an extension of the warranty claims for end users.

Example: Figure 1 shows a heat sink (1) with fan (3) in side view, on

to which a bimetal switch (2) is attached by screwing it into the cooling fins of the heat sink. The bimetal switch interrupts the circuit when a temperature of 75° Celsius is reached with an accuracy of + 3% on the computer's on/off switch. After cooling down, the switch automatically closes the circuit again at a temperature of 65° Celsius. The bimetal switch used is designed for a maximum contact load of 250 volts and 6 amps. The connection is made via a 6.35 mm flat plug.

Claims (1)

'·.;♦.: :*..: · '···:": FrankRöttger : *..* ··' ·· " Reference number: 296 12 980,1 Protection claims Safety cooling system for microprocessors in personal computers, characterized, that a bimetal switch (2) is installed on the heat sink of the microprocessor (1) which monitors the temperature of the heat sink (1) and interrupts the power supply to the computer's on/off switch if the temperature exceeds 75° Celsius (± 3%) and automatically closes the circuit again once the heat sink has cooled down to a temperature of 65° Celsius. The bimetal switch (2) is designed for a maximum contact load of 250 volts and 6 amps. The power supply to be interrupted is connected to the bimetal switch via a 6.35 mm flat plug. A fan (3) attached to the heat sink provides additional ventilation of the heat sink.