Igniter case

The invention claimed is: 1. A metallic case for a pyrotechnical igniter of a gas generator for a vehicle safety device, the metallic case comprising: a peripheral side wall; a closed end; and a weak zone in the peripheral side wall, the weak zone extending along a continuous trace having a first end portion, a second end portion, and an intermediate portion between the first and second end portions, the first and second end portions of the continuous trace both transitioning from a first point, having a first side wall depth, to a second point, having a second side wall depth, the second side wall depth being greater than the first side wall depth, wherein the weak zone is configured for opening a vent in the peripheral side wall in response to an increase of pressure within the metallic case, wherein the first and second end portions of the continuous trace both have the first side wall depth adjacent to the intermediate portion, and both transition from the first side wall depth to the second side wall depth in a direction away from the intermediate portion, wherein the first and second end portions of the continuous trace are first and second U-shaped portions, both having a first leg proximate the intermediate portion at the first point and a second end, the depth of both of the first and second portions of the continuous trace continuously transitioning from a minimum side wall depth at the first point to a maximum side wall depth at the second end, such that the first and second end portions function to slow tearing of the peripheral side wall, as the tearing propagates from the intermediate portion of the continuous trace along the first and second end portions to thereby retain a hinged portion defining the vent. 2. The metallic case for a pyrotechnical igniter of claim 1 , wherein the peripheral side wall is a generally cylindrical side wall. 3. The metallic case for a pyrotechnical igniter of claim 1 , wherein the first and second end portions of the continuous trace both continually transition from the first side wall depth to the second side wall depth. 4. The metallic case for a pyrotechnical igniter of claim 1 , wherein the first side wall depth is no greater than about 0.1 mm. 5. The metallic case for a pyrotechnical igniter of claim 1 , wherein the peripheral side wall has a nominal wall thickness and the second side wall depth is approximately equivalent to the nominal wall thickness. 6. The metallic case for a pyrotechnical igniter of claim 5 , wherein the nominal wall thickness of the peripheral side wall is approximately 0.45 mm to approximately 0.7 mm. 7. The metallic case for a pyrotechnical igniter of claim 1 , wherein the intermediate portion of the continuous trace has a uniform side wall depth. 8. The metallic case for a pyrotechnical igniter of claim 7 , wherein the uniform side wall depth of the intermediate portion of the continuous trace is no greater than about 0.1 mm. 9. The metallic case for a pyrotechnical igniter of claim 1 , wherein the intermediate portion of the continuous trace is a third U-shaped portion, the first and second U-shaped portions of the continuous trace open in a first direction, and the third U-shaped portion of the continuous trace opens in a second direction, the first direction being opposite to the second direction. 10. The metallic case for a pyrotechnical igniter of claim 1 , further comprising at least one additional weak zone, such that the peripheral side wall includes a plurality of weak zones, each extending along a respective continuous trace having a respective first end portion, a respective second end portion, and a respective intermediate portion between the first and second respective end portions, the respective first and second end portions of the respective continuous trace both transitioning from the first side wall depth to the second side wall depth. 11. The metallic case for a pyrotechnical igniter of claim 1 , in combination with the pyrotechnical igniter. 12. A method of manufacturing the metallic case for a pyrotechnical igniter of claim 1 , the method comprising: positioning the metallic igniter case on a die; and striking the peripheral side wall with a punch to, in a single movement of striking, define the first and second end portions of the continuous trace to transition from the first point having the first side wall depth to the second point having the second side wall depth. 13. A metallic case for a pyrotechnical igniter of a gas generator for a vehicle safety device, the metallic case comprising: a peripheral side wall having an axis; a closed end; and a weak zone in the peripheral side wall, the weak zone extending along a continuous trace having a first U-shaped portion, a second U-shaped portion, and a third U-shaped portion between the first and second U-shaped portions, the first and second U-shaped portions generally open in a first direction parallel to the axis and extend through approximately 180 degrees, the third U-shaped portion generally opens in a second direction parallel to the axis, the second direction being opposite the first direction, wherein the weak zone is configured for opening a vent in the peripheral side wall in response to an increase of pressure within the metallic case, such that the vent opens along the weak zone. 14. The metallic case for a pyrotechnical igniter of claim 13 , wherein a shape of the continuous trace forms a hinge zone, allowing displaced side wall material and creating a corresponding vent hole in the peripheral side wall to remain integral with the peripheral side wall upon opening. 15. The metallic case for a pyrotechnical igniter of claim 13 , further comprising one or more additional weak zones in the peripheral side wall, such that the peripheral side wall includes a plurality of weak zones. 16. The metallic case for a pyrotechnical igniter of claim 15 , wherein weak zones of the plurality of weak zones are equally spaced about a perimeter of the peripheral side wall. 17. The metallic case for a pyrotechnical igniter of claim 13 , in combination with the pyrotechnical igniter. 18. A metallic case for a pyrotechnical igniter of a gas generator for a vehicle safety device, the metallic case comprising: a peripheral side wall; a closed end; and a weak zone in the peripheral side wall, the weak zone extending along a continuous trace having a first curved end portion, a second curved end portion, and an intermediate U-shaped portion between the first and second curved end portions, the first and second curved end portions of the continuous trace both transitioning away from the intermediate U-shaped portion from a first point, having a first side wall depth, to a second point, having a second side wall depth, the second side wall depth being greater than the first side wall depth, wherein the weak zone is configured for opening a vent in the peripheral side wall in response to an increase of pressure within the metallic case. 19. The metallic case for a pyrotechnical igniter of a gas generator for a vehicle safety device of claim 18 , the weak zone has a general triangular profile. 20. The metallic case for a pyrotechnical igniter of a gas generator for a vehicle safety device of claim 19 , wherein the weak zone defines an opening angle between 50 degrees and 70 degrees. 21. The metallic case for a pyrotechnical igniter of a gas generator for a vehicle safety device of claim 19 , wherein the generally triangular profile of the weak zone is truncated