Fume evacuation system

The invention claimed is: 1. An evacuation system comprising: an air handling system for drawing components comprising air, fumes, smoke, or particulate, or a combination thereof, from a metal working applications; an air conduit coupled to the air handling system for conveying suctioned air and the components from the metal working applications towards the air handling system, wherein the air conduit comprises a first diameter; and a hood coupled to the air conduit and configured to be positioned at the metal working application, the hood comprising: a structure defining a circuitous path for particulate that, in operation, allows the airborne components to pass through the hood to the air conduit and causes the particulate to cool, wherein the structure comprises an inner deflector with a rounded edge creating an opening defined by a third diameter, the opening corresponding to a first sharp turn through which suctioned air flows through the circuitous path; and an inlet tube extending into the structure, the inlet tube with an edge defining a second diameter that is smaller than the first diameter and the third diameter, the edge corresponding to a second sharp turn through which suctioned air flows through the circuitous path, the inlet tube comprising one or more baffles arranged within an interior of the inlet tube, each baffle having a plurality of apertures through which the suctioned air from the metalworking applications is drawn prior to being conveyed through the air conduit, wherein the inner deflector comprises a solid flat surface oriented perpendicular to a direction of air flowing into the hood, wherein the solid flat surface is defined by a fourth diameter greater than the second diameter at the opening of the inner deflector. 2. The system of claim 1 , wherein the structure defining the circuitous path comprises an outer shroud, the inner deflector disposed in the outer shroud and defining the first sharp turn for fumes drawn between the outer shroud and the inner deflector, and wherein the inlet tube is disposed in the inner deflector and defines within the inner deflector the second sharp turn for the components. 3. The system of claim 2 , wherein the baffles are disposed in the inlet tube that allows passage of the airborne components but that interferes with passage of the particulate matter. 4. The system of claim 3 , wherein each baffle has a plate-like structure. 5. A fume evacuation system comprising: a plurality of hoods configured to be coupled to a common air conduit, wherein each hood of the plurality of hoods is positioned at a respective metal working application, each hood comprising a structure comprises an inner deflector with a rounded edge creating an opening defined by a third diameter, the opening corresponding to a first sharp turn through which suctioned air flows defining a circuitous path for the components that, in operation, allows airborne components from the metal working applications to pass through each hood to the common air conduit and causes particulate matter from the metal working applications to cool; and an inlet tube arranged within each hood and configured to convey air components from the structure to the common air conduit, wherein each inlet tube has an edge defining a second diameter that is smaller than the third diameter, the edge corresponding to a second sharp turn through which suctioned air flows through the circuitous path, and wherein each inlet tube comprises one or more baffles, each baffle having a plurality of apertures through which the suctioned air from the metalworking applications is drawn prior to being conveyed through the air conduit, wherein the inner deflector comprises a solid flat surface oriented perpendicular to a direction of air flowing into the hood, wherein the solid flat surface is defined by a fourth diameter greater than the second diameter at the opening of the inner deflector. 6. The system of claim 5 , wherein the structure defining the circuitous path comprises an outer shroud, the inner deflector disposed in the outer shroud and defining the first sharp turn for the components drawn between the outer shroud and the inner deflector, and the inlet tube disposed in the inner deflector and defining with the inner deflector the second sharp turn for the components. 7. The system of claim 6 , comprising a deflecting structure disposed in the inlet tube that allows passage of the airborne components but that interferes with passage of particulate matter. 8. The system of claim 5 , wherein the baffles include a plate-like structure with a plurality of apertures through which the components may pass. 9. The system of claim 1 , wherein a first baffle comprises a plurality of apertures of a first size and a second baffle comprises a plurality of apertures of a second size different from the first size. 10. The system of claim 1 , wherein the plurality of apertures on a respective baffle are of a different alignment from the plurality of apertures on another baffle. 11. The system of claim 1 , wherein the first sharp turn at the rounded edge of the inner deflector is between 90 degrees and 180 degrees.