Aspirator with pressure relief flaps

What is claimed is: 1. An aspirator for an inflatable device assembly, the aspirator comprising: a housing; an inlet flap biased away from an interior of the housing; a pressure relief flap biased toward the interior of the housing and pivotably coupled to at the inlet flap, wherein the pressure relief flap is configured to be located exterior to the inflatable device, and wherein when the pressure relief flap is in an open vent position fluid may flow from the interior of the housing to an area exterior of the housing; a manifold located in the interior of the housing and configured to output a primary gas flow toward an outlet of the housing; and a nozzle fluidly coupled to the manifold, wherein the nozzle is configured to output the primary gas flow to the manifold. 2. The aspirator of claim 1 , wherein the inlet flap is configured to pivot relative to the housing. 3. The aspirator of claim 2 , wherein the inlet flap is configured to translate from an open inlet position to a closed inlet position in response to a pressure within the interior of the housing exceeding a predetermined closing pressure, and wherein the pressure relief flap is configured to translate to the open vent position in response to the pressure within the interior of the housing exceeding a predetermined pressure limit. 4. The aspirator of claim 1 , wherein the pressure relief flap is pivotably coupled to the inlet flap via a pivot joint. 5. The aspirator of claim 4 , wherein the pivot joint includes a torsion spring configured to bias the pressure relief flap toward the inlet flap. 6. The aspirator claim 1 , further comprising a seal located between the pressure relief flap and the inlet flap. 7. The aspirator of claim 6 , wherein the seal comprises a compressible material. 8. An evacuation assembly, comprising: an inflatable slide; and an aspirator fluidly coupled to the inflatable slide, the aspirator comprising: a housing; an inlet flap biased away from an interior of the housing; a pressure relief flap biased toward the interior of the housing and pivotably coupled to the inlet flap, wherein the pressure relief flap is located exterior to the inflatable slide, and wherein when the pressure relief flap is in an open vent position fluid may flow from an interior of the inflatable slide to an area exterior of the housing; a manifold located in the interior of the housing and configured to output a primary gas flow toward an outlet of the housing; and a nozzle fluidly coupled to the manifold, wherein the nozzle is configured to output the primary gas flow to the manifold. 9. The evacuation assembly of claim 8 , further comprising a compressed fluid source fluidly coupled to the aspirator. 10. The evacuation assembly of claim 8 , wherein the pressure relief flap is pivotably coupled to the inlet flap via a pivot joint. 11. The evacuation assembly of claim 10 , wherein the pivot joint comprises a torsion spring. 12. The evacuation assembly of claim 8 , wherein the aspirator further comprises a seal configured to form a sealing interface with the pressure relief flap. 13. The evacuation assembly of claim 12 , wherein the seal is located between the inlet flap and the pressure relief flap. 14. The evacuation assembly of claim 13 , wherein the seal comprises a compressible material. 15. The evacuation assembly of claim 8 , wherein the inlet flap is configured to translate from an open inlet position to a closed inlet position in response to a pressure within an interior volume of the inflatable slide exceeding a predetermined closing pressure, and wherein the pressure relief flap is configured to translate to the open vent position in response to the pressure within the interior volume of the inflatable slide exceeding a predetermined pressure limit. 16. A method of making an aspirator, comprising: pivotably coupling an inlet flap to a housing; biasing the inlet flap away from an interior of housing; pivotably coupling a pressure relief flap to the inlet flap, wherein the pressure relief flap is configured to cover an orifice in the inlet flap, and wherein when the pressure relief flap is in an open vent position fluid may flow through the orifice in the inlet flap and to an area exterior of the housing; and biasing the pressure relief flap towards the interior of the housing. 17. The method of claim 16 , further comprising configuring the inlet flap to translate from an open inlet position to a closed inlet position in response to a pressure within the interior of the housing exceeding a predetermined closing pressure. 18. The method of claim 17 , further comprising configuring the pressure relief flap to translate to the open vent position in response to the pressure within the interior of the housing exceeding a predetermined pressure limit. 19. The method of claim 16 , further comprising locating a seal between the inlet flap and the pressure relief flap. 20. The method of claim 19 , wherein the seal comprises a compressible material configured to form a sealing interface with the pressure relief flap in response to a biasing force applied to the pressure relief flap by a torsion spring.