Electricity: electrical systems and devices – Housing or mounting assemblies with diverse electrical... – For electronic systems and devices
Reexamination Certificate
2003-05-30
2004-09-28
Vortman, Anatoly (Department: 2835)
Electricity: electrical systems and devices
Housing or mounting assemblies with diverse electrical...
For electronic systems and devices
C361S690000, C454S186000, C165S104340, C062S408000, C062S419000, C062S426000
Reexamination Certificate
active
06798657
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to cooling electrical equipment.
2. Description of the Related Art
FIGS. 1A-B
schematically show, respectively, a cut-away side view of an equipment cabinet
100
of the prior art and a perspective view of an array
106
of electrical fans
108
used in cabinet
100
. Cabinet
100
houses equipment components such as, for example, printed circuit boards
102
typically mounted on a rack
104
. During operation, boards
102
may generate a significant amount of heat. To protect boards
102
from overheating, cabinet
100
has a cooling system including two arrays
106
a-b
, with one array placed at the top and another array at the bottom of cabinet
100
. Fans
108
of arrays
106
a-b
provide cool air intake and/or hot air exhaust for cabinet
100
. In a typical configuration, relatively cool ambient air is drawn into cabinet
100
by rotating blades of fans
108
. The air then circulates within the cabinet before being exhausted through air vents
110
on the sides of cabinet
100
. The air heats up during the circulation as it cools down boards
102
. Alternatively, cabinet
100
can be connected to a heat exchanger to form a closed-loop system designed to circulate air without introducing ambient air into the system.
One problem with cabinet
100
is that each fan
108
is a source of electrical noise, which may interfere with electrical signals in boards
102
. In addition, fans
108
generate mechanical noise and vibrations, which can damage the circuitry on boards
102
. Furthermore, due to a relatively large number of continuously running fans in cabinet
100
, it is not unusual that at least one of the fans is broken and requires repair and/or replacement.
SUMMARY OF THE INVENTION
Problems in the prior art are addressed in accordance with the principles of the invention by a cooling system that can be used, for example, for cooling electrical circuit boards housed in an equipment cabinet. The cooling system includes a flow-rate-amplifying pump configured to introduce ambient air into the cabinet. The flow-rate-amplifying pump is a passive device, which has a primary intake and a secondary intake and is designed to produce a large flow of relatively cool ambient air into the cabinet through the primary intake using a small volume of compressed air applied to the secondary intake. In one embodiment, the cooling system has an auxiliary pump driven by a windmill device. Rotation of a propeller in the windmill device is converted into piston oscillation in the auxiliary pump, which oscillation is used to compress air and apply it to the secondary intake of the flow-rate-amplifying pump. A cooling system of the invention can provide efficient cooling while being self-sustaining and less expensive, more reliable, easier to install, and generating less noise and/or electrical interference than prior art cooling systems.
According to one embodiment, the present invention is a ventilated equipment cabinet for housing and cooling heat-generating electrical equipment, comprising: (a) an enclosure adapted to house the electrical equipment and having one or more air vents; and (b) a flow-rate-amplifying pump having a primary intake, a secondary intake, and an exhaust port, wherein: the primary intake is connected to an opening in the enclosure; the secondary intake is connected to receive compressed gas from a compressed-gas supply, such that, the compressed gas induces a flow of ambient air from the primary intake to the exhaust port; the exhaust port is configured to introduce the flow into the enclosure, such that the air heats up as it cools the electrical equipment and exits the enclosure through the one or more air vents; and the compressed-gas supply comprises an auxiliary pump actuated by a windmill device.
According to another embodiment, the present invention is an apparatus adapted to ventilate the interior of an enclosure having one or more air vents, the apparatus comprising: (a) a flow-rate-amplifying pump having a primary intake, a secondary intake, and an exhaust port, wherein: the primary intake is adapted to be connected to an opening in the enclosure; the secondary intake is adapted to be connected to receive compressed gas from a compressed-gas supply, such that, the compressed gas induces a flow of ambient air from the primary intake to the exhaust port; and the exhaust port is configured to introduce the flow into the enclosure, such that the air heats up as it cools equipment housed in the enclosure and exits the enclosure through the one or more air vents; and (b) the compressed-gas supply adapted to generate the compressed gas, wherein the compressed-gas supply comprises an auxiliary pump actuated by a windmill device.
According to yet another embodiment, the present invention is a method of cooling heat-generating electrical equipment housed in a ventilated equipment cabinet, comprising applying compressed gas to a secondary intake of a flow-rate-amplifying pump, wherein: the pump has a primary intake, the secondary intake, and an exhaust port; the primary intake is connected to an opening in the enclosure; the secondary intake is connected to receive compressed gas from a compressed-gas supply, such that, the compressed gas induces a flow of ambient air from the primary intake to the exhaust port; the exhaust port is configured to introduce the flow into the enclosure such that the air heats up as it cools the electrical equipment and exits the enclosure through the one or more air vents; and the compressed-gas supply comprises an auxiliary pump actuated by a windmill device.
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Clifton Mark B.
Pawlenko Ivan
Samson Larry
Lucent Technologies - Inc.
Vortman Anatoly
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