Dust extraction device

What is claimed is: 1. A dust extraction device comprising: a body having a chamber; a first inlet communicating with the chamber extending along a first inlet axis and adapted for releasable connection to a source of pressurized gas; a second inlet communicating with the chamber extending along a second inlet axis and adapted for releasable connection to a dust source; and an outlet extending along an outlet axis and communicating with the chamber, the outlet adapted for releasable connection to a receptacle, wherein the outlet comprises at least one baffle that diverts flow of the gas within the outlet to create an air vortex within the outlet that results in a change from laminar flow to transient flow. 2. The dust extraction device of claim 1 , wherein the at least one baffle has a helical profile. 3. The dust extraction device of claim 1 , wherein the outlet has a cylindrical inner surface that is threaded. 4. The dust extraction device of claim 1 , wherein the first inlet axis and the outlet axis are mutually aligned. 5. The dust extraction device of claim 4 , wherein the second inlet axis is oriented perpendicular to the first inlet axis. 6. The dust extraction device of claim 1 further comprising a flexible hose having upstream and downstream ends, the upstream end being releasably coupled to the outlet and the downstream end being coupled to the receptacle. 7. The dust extraction device of claim 6 , wherein the flexible hose has a friction-reducing coating disposed on its inner surface. 8. The dust extraction device of claim 1 , wherein the first inlet comprises one or more tapered sections. 9. The dust extraction device of claim 8 , wherein the one or more tapered sections have an enlarged cross-sectional area defined perpendicular to the first inlet axis at its upstream end and a respective reduced cross-sectional area at its downstream end, the ratio of the enlarged cross-sectional area to the reduced cross-sectional area ranging from 6:5 to 10:1. 10. The dust extraction device of claim 1 , wherein the chamber comprises a primary region and a peripheral region in communication with the primary region whose cross-sectional area defined perpendicular to the first inlet axis is smaller than that of the primary region, the first and second inlets communicating with the primary region and the outlet communicating with the peripheral region. 11. The dust extraction device of claim 10 , wherein the ratio of the cross-sectional area of the primary region to that of the peripheral region ranges from 1:1 to 15:1. 12. The dust extraction device of claim 10 , wherein the outlet has an outlet cross-sectional area defined perpendicular to the first inlet axis and adjacent to the peripheral region, the outlet cross-sectional area being larger than that of the peripheral region. 13. The dust extraction device of claim 12 , wherein the ratio of the outlet cross-sectional area to that of the peripheral region ranges from 1:1 to 18:1. 14. The dust extraction device of claim 1 , wherein the dust extraction device has a unitary construction. 15. A method of reducing airborne dust when operating an abrading device using a dust extraction device, the method comprising: providing the dust extraction device comprising: a body having a chamber; a first inlet communicating with the chamber extending along a first inlet axis and adapted for releasable connection to a source of pressurized gas; a second inlet communicating with the chamber extending along a second inlet axis and adapted for releasable connection to a dust source; and an outlet extending along an outlet axis and communicating with the chamber, the outlet adapted for releasable connection to a receptacle, wherein the outlet comprises at least one baffle that diverts flow of the gas within the outlet to create an air vortex within the outlet that results in a change from laminar flow to transient flow; connecting the first inlet to the source of pressurized gas; connecting the second inlet to the abrading device; connecting the receptacle to the outlet; and flowing the gas through the chamber to induce a Venturi effect whereby dust is evacuated from the abrading device to the receptacle.