Thermal management for patient monitor

What is claimed is: 1 . A patient monitor device, comprising: an outer housing having a rear housing portion and a front housing portion; an inner case at least partially disposed within the rear housing portion of the outer housing and enclosed by the front housing portion, wherein the inner case includes a plurality of ports adapted to receive cables from a plurality of physiological sensors; a processor disposed within the inner case, the processor being adapted to interpret signals received from the plurality of physiological sensors; and a heat sink disposed between the front housing portion of the outer housing and the inner case, wherein the heat sink includes an outer heat dissipation channel around an outer periphery of the heat sink, wherein the heat dissipation channel is in direct contact with ambient air to dissipate from the processor within the inner case. 2 . The patient monitor device of claim 1 , wherein the rear housing portion, the front housing portion, and the outer heat dissipation channel define a heat dissipation opening, wherein the heat dissipation opening is sized and shaped to prevent a human finger from coming into contact with the outer heat dissipation channel. 3 . The patient monitor device of claim 1 , wherein the front housing portion comprises an outer wall formed with a channel and a distal end of the heat sink fits into the channel of the front housing portion. 4 . The patient monitor device of claim 3 , wherein the outer heat dissipation channel of the heat sink is adjacent to the distal end of the heat sink. 5 . The device of claim 1 , further comprising a support bracket that is adapted to receive the patient monitoring device and engage the heat sink to facilitate removal of heat from the patient monitoring device, wherein the support bracket includes at least one support structure that is sized and shaped to fit into and engage the outer heat dissipation channel of the heat sink. 6 . The device according to claim 1 , wherein the outer housing comprises a thermally insulating material. 7 . The device according to claim 6 , wherein the thermally insulating material comprises a thermally insulating plastic. 8 . The device according to claim 1 , wherein the inner case, the heat sink, or a combination thereof comprises a thermally conductive material. 9 . The device according to claim 8 , wherein the thermally conductive material comprises a thermally conductive metal. 10 . An apparatus, comprising: a user interface module comprising a user interface enclosure that at least partially contains a display, the user interface enclosure having a rear user interface edge; a computer comprising a processor and memory, the computer being electrically connected to the user interface module, the computer being adapted to display information on the display; a thermal enclosure having a heat sink attached to a rear enclosure, the computer being located within the rear enclosure, the heat sink being positioned between the rear enclosure and the user interface module, the heat sink being thermally connected to the processor, the heat sink having an outer heat sink wall extending around at least a portion of a perimeter of the heat sink; and a cover that at least partially envelops the rear enclosure, the cover having a front cover edge; and a plurality of sensor ports, each of the plurality of sensor ports being capable of being connected to a physiological sensor and to receive signals from the physiological sensor that are presentative of a physiological parameter of a patient; wherein the computer is electrically connected to the plurality of ports and is adapted to receive the signals, store data representative of the received signals and display information on the display representative of the received signals; wherein the outer heat sink wall is positioned between and recessed below the front cover edge and the rear user interface edge, the heat sink wall, the front cover edge, and the rear user interface edge defining a heat sink channel that is exposed to ambient air surrounding the apparatus; wherein the thermal enclosure is formed of materials having greater thermal conductivity than the cover and user interface enclosure. 11 . The apparatus of claim 10 , wherein the outer heat sink channel is adapted to prevent a human finger from touching the outer heat sink wall. 12 . The apparatus of claim 10 , wherein the outer heat sink wall is the only portion of the heat sink that is exposed to the ambient air. 13 . The apparatus of claim 10 , wherein the outer heat sink wall is concave. 14 . The apparatus of claim 10 , further comprising a thermal gap pad and a heat spreader positioned between the processor and the heat sink.