Power generating mechanism that has a duct, heat pipe, or...

Details Power generating mechanism that has a duct, heat pipe, or... Power generating mechanism that has a duct, heat pipe, or...

2001-03-23

2004-09-28

Lee, Thomas (Department: 2116)

Electrical computers and digital processing systems: support

Clock, pulse, or timing signal generation or analysis

C136S205000, C136S201000, C062S003200

Reexamination Certificate

active

06799282

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates generally to a power generating mechanism for use in electronic apparatus and in particular to a power generating mechanism for generating power using heat generated by a heat generating component provided in an electronic apparatus such as a computer.
BACKGROUND OF THE INVENTION
There has been a strong demand for a reduction in power consumption of electronic equipment due to environmental and ecological concerns. In addition, energy efficiency in terms of performance vs. power consumption is important to battery-driven portable equipment or the like, and is directly related to the amount of time available to operate the equipment. Thus, efforts are being made to further reduce power consumption. One way of doing this is to improve efficiency by reusing lost energy in equipment.
For example, notebook personal computers have a large amount of energy lost therefrom as heat because a semiconductor device therein such as a CPU or an electric circuit therein becomes hot. Further, many pieces of equipment include what is called a CPU cooler for preventing the CPU from malfunctioning due to heat, and excess power is consumed to drive a ventilation fan of the CPU cooler.
Techniques for generating power using heat generated by a heat generating component have been developed, as disclosed, for example, in U.S. Pat. No. 5,921,087. According to this patent, power is obtained by interposing a thermoelectric element using the Seebeck effect (the effect of generating power using heat), between a CPU and a diffusion cooling heat sink for the CPU, to change the temperature of the thermoelectric element.
This structure, however, has a thermal resistance between the CPU and the heat sink, thereby significantly reducing the effect of cooling the CPU. A structure for using a fan to cool a diffusion side of the heat sink has also been disclosed. In this case, however, the thermoelectric element is cooled via the heat sink, so that only a small difference occurs between a heated side of the thermoelectric element which is in contact with the CPU and a cooled side thereof which is in contact with the heat sink. Accordingly, only a small electromotive force is obtained through heat generation, and the extent to which this power is reused within the equipment is limited. As a result, this structure is still disadvantageous in the power generation efficiency and the reuse of power.
In view of the above described points, it is an object of the present invention to provide a power generating mechanism that efficiently obtains electric energy using thermal energy from a heat generating component provided in electronic equipment. It is another object to provide a computer apparatus and electronic equipment that can use energy more efficiently by reusing electric energy generated by the power generating mechanism.
SUMMARY OF THE INVENTION
To attain the above objects, according to one aspect of the present invention, there is provided a power generating mechanism for electronic equipment having a heat generating component inside, the mechanism comprising a diffusion member kept in contact with the heat generating component to diffuse heat generated by the heat generating component, a thermoelectric conversion module having one side kept in contact with the diffusion member, and a cooling device for cooling the other side of the thermoelectric conversion module.
In the power generating mechanism configured as described above, the diffusion member, formed of a high-heat-conductivity material such as aluminum, is in contact with the heat generating component provided in the electronic equipment, thereby diffusing heat generated by the heat generating component to improve the effect of cooling components.
The thermoelectric conversion module has the one side kept in contact with the diffusion member so as to be heated using heat emitted from the diffusion member. In addition, the other side of the thermoelectric conversion module is cooled by the cooling device.
Thus, a large difference in temperature (a difference in thermal energy) occurs between the opposite sides of the thermoelectric conversion module to increase an electromotive force (electric energy) generated by the thermoelectric conversion module. Additionally, since the thermoelectric conversion module is heated via the diffusion module, excess emitted heat (loss energy) can be absorbed without preventing the heat generating component from being cooled, thereby enabling efficient power generation (energy conversion).
Electronic equipment that already includes the diffusion member or cooling device to cool the heat generating component is preferred because this existing diffusion member or cooling device can be used for the above described effect. In addition, the diffusion member may comprise a heat sink that is shaped like a plate or has a plurality of diffusion fins, and the heat generating component may comprise a semiconductor device for actuating the electronic equipment or a heat generating component on an electric circuit (a transformer or a coil).
The thermoelectric conversion module may be configured by generating electricity using a difference in temperature between one side and the other side thereof, and may comprise a module for activating movement of electrons via dynamic energy or chemical reaction resulting from thermal energy to thereby generate electric energy (generate power).
The thermoelectric conversion module and the heat generating component may be located substantially symmetrically with respect to the diffusion member. If the thermoelectric conversion module and the heat generating component are located substantially symmetrically with respect to the diffusion member, that is, the thermoelectric conversion module is located close to the heat generating component, the one side of the thermoelectric conversion module becomes hotter.
Alternatively, according to another aspect of the present invention, there is provided a power generating mechanism for electronic equipment having a heat generating component inside, the structure comprising a duct having an outside surface kept in contact with the heat generating component to diffuse heat generated by the heat generating component, a thermoelectric conversion module located inside the duct and having one side kept in contact with an inside surface of the duct, and a fan for ventilating an interior of the duct to cool the other side of the thermoelectric conversion module.
In this power generating mechanism, the heat generating component provided in the electronic equipment is in contact with the outside surface of the duct formed of a high-heat-conductivity material such as aluminum, so that the thermoelectric conversion module, located inside the duct in such a manner that the one side thereof is in contact with the inside surface of the duct, has the other side cooled by the fan for ventilating the interior of the duct.
Thus, the thermoelectric conversion module has the one side heated by heat emitted from the duct and the other side directly cooled by means of ventilation by the fan, so that a large difference in temperature occurs between the opposite sides of the thermoelectric conversion module to increase an electromotive force generated by the thermoelectric conversion module.
Since this thermoelectric conversion module is also heated via the duct, power can be efficiently generated using heat while absorbing excess emitted heat without reducing the effect of cooling the heat generating component.
Since this thermoelectric conversion module and the heat generating component are also located substantially symmetrically with respect to the portion of the thermoelectric conversion module which is in contact with the duct, the one side of the thermoelectric conversion module becomes hotter.
According to an alternative aspect of the present invention, there is provided a power generating mechanism for electronic equipment having an internal structural member with a heat generating component disposed near the structural memb

Affiliated with

Also associated with

Rating

Power generating mechanism that has a duct, heat pipe, or... does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Power generating mechanism that has a duct, heat pipe, or..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Power generating mechanism that has a duct, heat pipe, or... will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-3246554