Smoke evacuation device inlet and outlet manifolds

What is claimed is: 1. A smoke evacuation system, comprising: a housing at least partially surrounding an enclosure; an airflow path extending inside the enclosure from an inlet port to an outlet port of the smoke evacuation system; a motor disposed inside the enclosure and having a work output; a pump disposed inside the enclosure; and a cooling mechanism configured to induce airflow through the enclosure to cool the enclosure, the induced airflow being proportional to the work output of the motor, the cooling mechanism comprising: a first rotary element disposed within the airflow path; a second rotary element disposed outside the airflow path and within the enclosure; and a rotary element coupler, the rotary element coupler coupling the first rotary element to the second rotary element such that a rotation of the first rotary element causes the second rotary element to rotate. 2. The smoke evacuation system of claim 1 , wherein the cooling mechanism comprises one or more openings in the housing of the smoke evacuation system. 3. The smoke evacuation system of claim 1 , further comprising a filter and an exhaust mechanism, wherein the cooling mechanism comprises an opening in an airflow path through which air from outside the airflow path may pass into the airflow path, the opening being disposed between the filter and the pump or between the pump and the exhaust mechanism. 4. The smoke evacuation system of claim 3 , wherein the exhaust mechanism reduces a velocity of a gas flowing through the airflow path. 5. The smoke evacuation system of claim 3 , wherein the exhaust mechanism comprises a diffuser. 6. The smoke evacuation system of claim 1 , wherein the cooling mechanism comprises an open juncture in the airflow path. 7. The smoke evacuation system of claim 6 , the open juncture comprising: a first portion of the airflow path having a first diameter; a second portion of the airflow path having a second diameter that is larger than the first diameter; and the first portion at least partially extends into the second portion; wherein a space between the diameters of the first and second portion allows air from outside the airflow path to enter into the airflow path at the open juncture through the space. 8. The smoke evacuation system of claim 1 , wherein: the first rotary element is configured to rotate in response to a pressurized gas flowing through the airflow path; and the rotation of the second rotary element is configured to circulate air throughout at least a portion of the enclosure to cool the motor and pump by convective heat transfer. 9. The smoke evacuation system of claim 8 , wherein the rotary element coupler comprises one or more ball bearings and wherein the rotary element coupler is disposed in-line with the airflow path so as to prevent leaking at the rotary element coupler. 10. The smoke evacuation system of claim 1 , further comprising a pressure release mechanism disposed at the inlet port or outlet port, the pressure release mechanism comprising a spring biased cover. 11. The smoke evacuation system of claim 10 , wherein the spring-biased cover is disposed over an outlet port of the smoke evacuation system. 12. The smoke evacuation system of claim 10 , wherein the spring-biased cover is disposed over an inlet port of the smoke evacuation system. 13. The smoke evacuation system of claim 1 , further comprising a controller, wherein the controller causes the pressure release mechanism to reduce a pressure in the airflow path when a pressure inside the airflow path is equal to or greater than a defined pressure limit. 14. A smoke evacuation system, comprising: an inlet port; an outlet port; an airflow path extending between the inlet port and the outlet port; a housing at least partially surrounding an enclosure; and an exhaust mechanism near the outlet port and configured to diffuse air exiting at the outlet port to reduce exit noise without baffling or redirecting flow causing an exit head pressure, the exhaust mechanism comprising one or more vanes that are angled such that the exhaust mechanism has an expanding cross-sectional area, the one or more vanes being configured to force air in various directions as air exits the exhaust mechanism through the one or more vanes. 15. The smoke evacuation system of claim 14 , wherein the exhaust mechanism comprises a diffuser. 16. The smoke evacuation system of claim 15 , wherein the exhaust mechanism further comprises a pressure relief mechanism. 17. A smoke evacuation system, comprising: an inlet port; an outlet port; an airflow path extending between the inlet port and the outlet port; and one or more pressure relief mechanisms configured to regulate a pressure inside the airflow path, at least one of the one or more pressure relief mechanisms comprising a cover and one or more biasing members, the one or more biasing members being configured to (i) prevent the cover from closing the airflow path, (ii) bias the cover to a first open position when a pressure within the airflow path is below a predetermined level, and (iii) allow the cover to move to a second open position when a pressure within the airflow path is above the predetermined level. 18. The smoke evacuation system of claim 17 , wherein at least one of the one or more pressure relief mechanisms is disposed at the inlet port. 19. The smoke evacuation system of claim 17 , wherein at least one of the one or more pressure relief mechanisms is disposed at the outlet port. 20. The smoke evacuation system of claim 17 , wherein the cover is a spring-biased cover.