Container seal over-pressure vent mechanism

What is claimed is: 1. A beverage container comprising: a vessel; a lid removably coupled to the vessel, the lid comprising a drinking spout defining a passage for dispensing liquid into and out of an internal reservoir of the vessel, and a circumferential rim at an interface with the vessel, wherein the rim is separated from the vessel by a gap, wherein the gap is open to the atmosphere outside the container; and an annular gasket disposed at a sealing position between the vessel and the lid to seal the internal reservoir of the vessel from the gap, wherein in response to the internal reservoir of the vessel reaching a threshold pressure, a portion of the gasket moves from the sealing position through the gap such that fluid held in the reservoir is vented through the gap to reduce the pressure of the reservoir. 2. The beverage container of claim 1 , wherein the rim comprises a recess extending circumferentially along a first portion of the rim, and the recess forms a portion of the gap and defines a venting zone extending circumferentially along the first portion of the rim, wherein the portion of the gasket is located along the venting zone such that the fluid vented through the gap is directed through the venting zone. 3. The beverage container of claim 2 , wherein the recess comprises a first end located forward of an inner edge of the rim and a second end located at an outer edge of the rim. 4. The beverage container of claim 3 , wherein the recess has a first height proximate to the first end and a second height proximate to the second end, and the second height is greater than the first height. 5. The beverage container of claim 1 , wherein in response to the internal reservoir of the vessel reaching the threshold pressure, a second portion of the gasket remains in the sealed position along a second portion of the rim to maintain the seal between the reservoir of the vessel and the gap along the second portion of the rim. 6. The beverage container of claim 1 , wherein the lid comprises an upper sidewall and a lower sidewall together defining a chamber, and the rim extends in a radial direction between the lower sidewall and the upper sidewall, and wherein the upper sidewall extends above a sidewall of the vessel, and the lower sidewall projects into the vessel such that the chamber of the lid opens into the reservoir of the vessel. 7. The beverage container of claim 6 , wherein the lower sidewall comprises a helical-shaped thread configured to engage the sidewall of the vessel, and the thread includes a plurality of breaks defining a fluid passage. 8. The beverage container of claim 6 , wherein the drinking spout is projected from an upper end of the upper sidewall of the lid, and the passage of the drinking spout opens into the chamber of the lid. 9. The beverage container of claim 1 , wherein the vessel is formed of stainless steel, and the lid is formed of a polymer-based material. 10. The beverage container of claim 1 , wherein the lid is transparent. 11. A container assembly comprising: a vessel; a lid removably coupled to the vessel, the lid comprising: an upper sidewall and a lower sidewall defining a chamber, wherein the upper sidewall extends above a sidewall of the vessel, and the lower sidewall projects into the vessel such that the chamber of the lid opens into the reservoir of the vessel, and a circumferential rim extending in a radial direction between the upper sidewall and the lower sidewall and located at an interface with the vessel, wherein the rim is separated from the vessel by a gap, wherein the gap is open to the atmosphere outside the container; and an annular gasket disposed at a sealing position between the vessel and the lid to seal an internal reservoir of the vessel from the gap, wherein in response to the internal reservoir of the vessel reaching a threshold pressure, a portion of the gasket moves from the sealing position through the gap such that fluid held in the reservoir is vented through the gap to reduce the pressure of the reservoir. 12. The container assembly of claim 11 , wherein the interface defines a venting zone extending circumferentially along a first portion of the interface and a non-venting zone extending circumferentially along a second portion of the interface, and the gap along the venting zone is greater in a vertical direction than the gap along the non-venting zone, wherein the portion of the gasket is located along the venting zone such that the fluid vented through the gap is directed through the venting zone. 13. The container assembly of claim 12 , wherein the rim comprises a recess located along the venting zone of the interface, and the recess comprises a first end located forward of an inner edge of the rim and a second end located at an outer edge of the rim. 14. The container assembly of claim 13 , wherein the recess has a first height proximate to the first end and a second height proximate to the second end, and the second height is greater than the first height. 15. The container assembly of claim 12 , wherein in response to the internal reservoir of the vessel reaching the threshold pressure, a second portion of gasket remains in the sealed position along the non-venting zone of the interface to maintain the seal between the reservoir of the vessel and the gap along the non-venting zone. 16. The container assembly of claim 11 , wherein the lower sidewall comprises a helical-shaped thread configured to engage the sidewall of the vessel, and the thread includes a plurality of breaks defining a fluid passage. 17. The container assembly of claim 11 , wherein the vessel comprises a bottom, and the sidewall of the vessel extends from the bottom defining the reservoir. 18. The container assembly of claim 17 , wherein an upper end of the sidewall of the vessel comprises a recess located along the venting zone of the interface, and the recess comprises a first end located forward of an interior surface of the sidewall of the vessel and a second end located at an exterior surface of the sidewall of the vessel. 19. The container assembly of claim 18 , wherein the recess defines a first height proximate to the first end and a second height proximate to the second end, and the second height is greater than the first height. 20. The container assembly of claim 11 , wherein the vessel is comprised of a metal-based material, and the lid is comprised of a transparent polymer-based material.