A ring-shaped or plate-like element, in particular for a metal-sealing material-feedthrough, for example for devices which are subjected to high pressures, such as igniters for airbags or belt tensioning devices, includes a feedthrough opening, whereby the feedthrough opening is located substantiall
A ring-shaped or plate-like element, in particular for a metal-sealing material-feedthrough, for example for devices which are subjected to high pressures, such as igniters for airbags or belt tensioning devices, includes a feedthrough opening, whereby the feedthrough opening is located substantially in the center of the ring-shaped or plate-like element and whereby the ring-shaped or plate-like element has a thickness. The ring-shaped or plate-like element has a relief region in the area of the feedthrough opening. Further, the ring-shaped or plate-like element in the relief region has at least one thickness which is reduced by the height of the relief region and which is selected so that the feedthrough opening can be punched out of the ring-shaped or plate like element having the reducing thickness.
대표청구항▼
1. A base body for a metal-sealing material-feedthrough subject to high pressures in an igniter for one of an airbag and a belt tensioning device, said base body for said metal-sealing material feedthrough being an element formed by a process of cold forming and having one of a ring-shape and a plat
1. A base body for a metal-sealing material-feedthrough subject to high pressures in an igniter for one of an airbag and a belt tensioning device, said base body for said metal-sealing material feedthrough being an element formed by a process of cold forming and having one of a ring-shape and a plate-like shape, the element comprising a feedthrough opening located substantially in a center of the element and extending from a front side of the element toward a rear side of the element, and a relief region in an area of said feedthrough opening at said rear side of the element and located on a side of said base body distal to said high pressures of said igniter, said relief region having a diameter that is greater than a diameter of said feedthrough opening in a region adjacent to said relief region, the element having an entire thickness (D) and at least one reduced thickness (DR) in said relief region, said at least one reduced thickness (DR) being said entire thickness (D) reduced by a height (HF) of said relief region and selected so that said feedthrough opening is formed by the process of punching said base body through said at least one reduced thickness (DR). 2. The base body according to claim 1, wherein said entire thickness is reduced in said relief region by between approximately 20% and 90%. 3. The base body according to claim 2, wherein said entire thickness is reduced in said relief region by between approximately 30% and 70%. 4. The base body according to claim 3, wherein said entire thickness is reduced in said relief region by between approximately 40% and 50%. 5. The base body according to claim 1, wherein at least one of said entire thickness of the element is greater than approximately 3.5 millimeters (mm), said reduced thickness is in a range between approximately 1.5 mm and 4.5 mm and a remaining thickness is in a range between approximately 0.35 mm and 4.2 mm. 6. The base body according to claim 5, wherein at least one of said entire thickness of the element is in a range between 3.5 mm and 6.0 mm, said reduced thickness is in a range between 2.0 mm and 2.6 mm and said remaining thickness is in a range between 1.1 mm and 3.0 mm. 7. The base body according to claim 1, wherein the element is formed from steel. 8. The base body according to claim 7, wherein the element is formed of a high grade steel with a copper content of between 1 and 5 weight %. 9. The base body according to claim 8, wherein said copper content is between 2 and 4 weight %. 10. The base body according to claim 1, wherein the element has an essentially round outer contour formed from one of a forming process and a reshaping process. 11. The base body according to claim 10, wherein said round outer contour is a circular outer contour and said forming process is a cold-forming process from a wire-like element. 12. The base body according to claim 11, wherein said feedthrough opening comprises a means to avoid relative movements, said means being at least partially an essentially conical progression. 13. The base body according to claim 1, wherein said element has a metallurgic structure with a plurality of serpentine shaped stress lines surrounding said relief region and said feedthrough opening. 14. A base body for a metal-sealing material-feedthrough subject to high pressures in an igniter for one of an airbag and a belt tensioning device, said base body for said metal-sealing material feedthrough being an element formed by a process of cold forming and having one of a ring-shape and a plate-like shape, the element being formed of a high grade steel with a copper content of between 1 and 5 weight % and having a feedthrough opening located substantially in a center of the element and extending from a front side of the element toward a rear side of the element and a relief region in an area of said feedthrough opening at said rear side of the element, said relief region having a diameter that is greater than a diameter of said feedthrough opening in a region adjacent to said relief region, the element having an entire thickness (D) and at least one reduced thickness (DR) extending between an edge of said relief region and said front side of said element, said at least one reduced thickness (DR) being said entire thickness (D) reduced by a height (HF) of said relief region and selected so that said feedthrough opening is formed by the process of punching said base body through said at least one reduced thickness (DR). 15. A metal-sealing material-feedthrough subject to high pressures in an igniter for one of an airbag and a belt tensioning device, the metal-sealing material-feedthrough comprising: a base body defining an element formed by a process of cold forming and having one of a ring-shape and a plate-like shape, the element having a feedthrough opening at a location substantially in a center of said element and extending from a front side of said element toward a rear side of said element and a relief region formed in an area of said feedthrough opening at said rear side of said element, said relief region having a diameter that is greater than a diameter of said feedthrough opening in a region adjacent to said relief region, the element having an entire thickness (D) and at least one reduced thickness (DR) extending between an edge of said relief region and said front side of said element, said at least one reduced thickness (DR) being said entire thickness (D) reduced by a height (HF) of said cold-formed relief region and selected so that said feedthrough opening can be formed by the process of punching said base body through said at least one reduced thickness (DR);a sealing material positioned in said feedthrough opening;a first metal insulated pin at least partly in said sealing material and positioned in said feedthrough opening; anda second metal pin, said second metal pin being a grounded pin conductively connected with said base body and not extending into said feedthrough opening. 16. A base body for a metal-sealing material-feedthrough subject to high pressures in an igniter for one of an airbag and a belt tensioning device, said base body for said metal-sealing material feedthrough being an element formed by a process of cold forming and having one of a ring-shape and a plate-like shape, the element comprising a feedthrough opening located substantially in a center of the element and extending from a front side of the element toward a rear side of the element, and a relief region in an area of said feedthrough opening at said rear side of the element and located on a side of said base body distal to said high pressures of said igniter, said relief region being formed by a reshaping process and having a diameter that is greater than a diameter of said feedthrough opening in a region adjacent to said relief region, the element having an entire thickness (D) and at least one reduced thickness (DR) in said relief region, said at least one reduced thickness (DR) being said entire thickness (D) reduced by a height (HF) of said relief region and selected so that said feedthrough opening is formed by the process of punching said base body through said at least one reduced thickness (DR), wherein said cold forming process, said reshaping process and said punching process provide said element with a metallurgic structure providing corresponding visible indicia surrounding said relief region and said feedthrough opening.
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