Multistage aspirator for inflatable assemblies

What is claimed is: 1. A multistage aspirator for an inflatable assembly, comprising: a first end defining a primary gas inlet; a second end defining a gas outlet; an internal surface defining a flow path extending from the primary gas inlet to the gas outlet; an external surface opposite the internal surface; a first stage including a first internal diameter, the first internal diameter being measured along a first portion of the internal surface, wherein the first portion of the internal surface is located within the first stage and is parallel to a center axis of the multistage aspirator; a second stage downstream of the first stage and including a second internal diameter greater than the first internal diameter, the second internal diameter being measured along a second portion of the internal surface, wherein the second portion of the internal surface is located in the second stage and is parallel to the center axis of the multistage aspirator; a first stage orifice formed between the first stage and the second stage, the first stage orifice having a first inlet defined by the external surface and a first outlet defined by the internal surface, wherein a diameter of the internal surface as measured at an upstream edge of the first outlet is less than the first internal diameter; and a second stage orifice located downstream of the first stage orifice and extending from the external surface to the internal surface. 2. The multistage aspirator of claim 1 , wherein the diameter of the internal surface as measured at a downstream edge of the first outlet is less than the second internal diameter. 3. The multistage aspirator of claim 2 , wherein the second stage orifice includes a second inlet defined by the external surface and a second outlet defined by the internal surface, and wherein the diameter of the internal surface as measured at an upstream edge of the second outlet is less than the second internal diameter. 4. The multistage aspirator of claim 3 , further including a third stage downstream of the second stage and including a third internal diameter greater than the second internal diameter and a third stage orifice located downstream of the second stage orifice, the third internal diameter being measured along a third portion of the internal surface, wherein the third portion of the internal surface is located in the third stage and is parallel to the center axis of the multistage aspirator. 5. The multistage aspirator of claim 4 , wherein a diameter of the external surface in the third stage is greater than a diameter of the external surface in the second stage. 6. The multistage aspirator claim 4 , further including a fourth stage downstream of the third stage and including a fourth internal diameter greater than the third internal diameter and a fourth stage orifice located downstream of the third stage orifice, the fourth internal diameter being measured along a fourth portion of the internal surface, wherein the fourth portion of the internal surface is located in the fourth stage and is parallel to the center axis of the multistage aspirator. 7. The multistage aspirator claim 4 , wherein the diameter of the internal surface as measured at a downstream edge of the second outlet is less than the third internal diameter. 8. The multistage aspirator claim 7 , wherein the diameter of the internal surface as measured at a upstream edge of a third outlet of the third stage orifice is less than the third internal diameter. 9. An evacuation assembly, comprising: an inflatable; a gas supply; and a multistage aspirator fluidly coupled between the inflatable and the gas supply, the multistage aspirator including: an internal surface defining a flow path through the multistage aspirator; an external surface opposite the internal surface; a first stage including a first internal diameter and a first stage orifice extending from the external surface to the internal surface; and a second stage including a second internal diameter greater than the first internal diameter and a second stage orifice located downstream of first stage orifice and extending from the external surface to the internal surface, wherein a first portion of the external surface defines an upstream end of the second stage and radially overlaps a second portion of the external surface, the second portion of the external surface defining a downstream end of the first stage, wherein a first portion of the internal surface is parallel to a center axis of the multistage aspirator, the first portion of the internal surface being located in the first stage, and wherein a second portion of the internal surface located in the second stage is parallel to the center axis of the multistage aspirator, the first portion of the internal surface including the first internal diameter, and the second portion of the internal surface including the second internal diameter. 10. The evacuation assembly of claim 9 , wherein the gas supply includes a solid gas generating material. 11. The evacuation assembly of claim 10 , wherein the internal surface defines a first outlet of the first stage orifice, and wherein a diameter of the internal surface as measured at an upstream edge of the first outlet is less than the first internal diameter as measured in the first stage. 12. The evacuation assembly of claim 11 , wherein the internal surface as measured at a downstream edge of the first outlet is less than the second internal diameter. 13. The evacuation assembly of claim 9 , wherein the multistage aspirator further includes a third stage including a third internal diameter greater than the second internal diameter and a third stage orifice located downstream of the second stage orifice, the third stage orifice extending from the external surface to the internal surface. 14. The evacuation assembly of claim 13 , wherein the multistage aspirator further includes a fourth stage including a fourth internal diameter greater than the third internal diameter and a fourth stage orifice located downstream of the third stage orifice, the fourth stage orifice extending from the external surface to the internal surface. 15. The evacuation assembly of claim 9 , wherein a diameter of the external surface in the second stage is greater than a diameter of the external surface in the first stage. 16. An inflation system, comprising: a gas supply comprising a solid gas generating material; and a multistage aspirator fluidly coupled to the gas supply, the multistage aspirator including: an internal surface defining a flow path between a primary gas inlet and a gas outlet of the multistage aspirator; an external surface opposite the internal surface; a first stage including a first internal diameter, the first internal diameter being measured along a first portion of the internal surface, wherein the first portion of the internal surface is located within the first stage and is parallel to a center axis of the multistage aspirator; and a second stage downstream of the first stage and including a second internal diameter greater than the first internal diameter, the second internal diameter being measured along a second portion of the internal surface, wherein the second portion of the internal surface is located within the second stage and is parallel to the center axis of the multistage aspirator; a first stage orifice formed between the first stage and the second stage, the first stage orifice having a first inlet defined by the external surface and a first outlet defined by the internal surface, wherein a diameter of the internal surface as measured a