Abstract: A removable power supply that can be manually inserted and removed from a computer cabinet is disclosed. The power supply includes typical power supplying circuitry that can easily be connected to the computer circuitry thereby supplying necessary power. The power supply further includes an interlocking system that locks the power supply top a computer cabinet and provides a further power switch.
Abstract: A removable power supply that can be manually inserted and removed from a computer cabinet is disclosed. The power supply includes typical power supplying circuitry that can easily be connected to the computer circuitry thereby supplying necessary power. The power supply further includes an interlocking system that locks the power supply top a computer cabinet and provides a further power switch.
Abstract: A computer cabinet cooling system comprising an upright tower cabinet having a front panel with an equipment bay for holding heat producing components, a lower aperture and a plurality of air openings. A fan unit having a fan plenum is mounted within the lower aperture of the front panel below the equipment bay near the air openings. An inner door is provided having a plurality of air inlet ports, a plurality of air outlet ports, a plurality of spaced apart horizontal air ingress slots and a fan shroud. When the inner door is closed against the front panel, the air outlet ports will align with the air openings in the front panel, the air ingress slots will align with the heat producing components in the equipment bay and the fan shroud will contact the fan unit. An outer door is also provided having an air plenum, a lower orifice with air deflector, and a plurality of spaced apart horizontal air ingress slots.
Abstract: A computer hard drive heat sink assembly 14 having an interior hard drive receiving channel 23 which fits closely adjacent heat transfer surfaces 24, 26 and 32. Connected to one end of the heat sink assembly is a fan enclosure and panel closure member 17. The fans 16 pull ambient air through the front panel access apertures 18 and supply the ambient air across the heat dissipating surfaces of the heat sink assembly.