A sensor component housing includes at least one tube section with a tube wall, wherein the tube wall has an opening and the tube section has a diameter and a first and second end. The first and/or the second end has tilted areas such that the diameter tapers to an end diameter toward the first and/
A sensor component housing includes at least one tube section with a tube wall, wherein the tube wall has an opening and the tube section has a diameter and a first and second end. The first and/or the second end has tilted areas such that the diameter tapers to an end diameter toward the first and/or the second end of the tube section.
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1. A sensor component housing, comprising: at least one tube section having a diameter and at least one thickening formed by a shaping process, a first end and a second end and a tube wall having an opening, said tube section defining an interior volume bounded by at least one interior surface of sa
1. A sensor component housing, comprising: at least one tube section having a diameter and at least one thickening formed by a shaping process, a first end and a second end and a tube wall having an opening, said tube section defining an interior volume bounded by at least one interior surface of said tube wall, at least one of said first end and said second end having a tilt such that said diameter of said at least one tube section tapers towards at least one of said first end and said second of said tube section to an end diameter, said tilt having been shaped, said opening being at least one opening configured to accommodate a feedthrough for a sensor component, said feedthrough for said sensor component being connected with said tube wall through one of a soldered connection and a welded connection, said at least one opening accommodating said feedthrough for said sensor component further comprising a reinforcing component surrounding said at least one opening and being connected with at least one exterior surface of said tube wall through one of a soldered connection and a welded connection such that said reinforcing component does not contact said at least one interior surface of said tube wall. 2. The sensor component housing according to claim 1, wherein said tilt has been compressed. 3. The sensor component housing according to claim 1, wherein said reinforcing component is formed of a material compatible with a stable and optimum glazed seal with said glass material or said glass ceramic material. 4. The sensor component housing according to claim 1, said sensor component being a tube section. 5. The sensor component housing according to claim 4, said sensor component being an inside tube for one of a capacitance measurement and an optical sensor. 6. The sensor component housing according to claim 1, wherein the sensor component housing is at least one of: selected to be compatible with a medium which flows through the sensor component or said medium to be detected; andthe sensor component housing includes at least one of steel, a high grade steel, a Nickel-Iron-Cobalt (NiFeCo) alloy and a Nickel-Iron (NiFe) alloy. 7. A method to produce a sensor component housing, the method comprising the steps of: providing a tube section having a diameter and a tube wall, said tube section defining an interior volume bounded by at least one interior surface of said tube wall;introducing at least one opening into said tube wall;surrounding said opening with a reinforcing component which is connected with at least one exterior surface of said tube wall such that said reinforcing component does not contact said at least one interior surface of said tube wall;producing a tilt by shaping at least one of a first end and a second end of said tube section such that said diameter of said tube section is reduced; andproviding said tube wall with a thickening having material with bent flow lines. 8. The method according to claim 7, wherein said at least one opening is introduced into said tube wall through punching. 9. The method according to claim 7, said thickening being provided through compression. 10. The method according to claim 7, further comprising the step of connecting a feedthrough for a sensor component with said tube wall. 11. A device for at least one of accommodating and conducting a fluid or gaseous medium, the device comprising: a sensor component housing including at least one tube section having a diameter and at least one thickening formed by a shaping process, a first end and a second end and a tube wall having an opening, said tube section defining an interior volume bounded by at least one interior surface of said tube wall, at least one of said first end and said second end having a tilt such that said diameter of said at least one tube section tapers towards at least one of said first end and said second of said tube section to an end diameter, said tilt having been shaped; anda sensor component compatible with the fluid or gaseous medium and including a feedthrough, the fluid or gaseous medium being one of natural gas, hydrogen, nitrogen, oxygen, exhaust from combustion engines, industrial process gasses, liquid petroleum gas, air, water, oils, alcohols, gasoline, diesel fuel, rapeseed oil, methyl ester, fuel for aircraft turbines, urea, urea solutions, and hydrofluorocarbons, said opening being at least one opening accommodating said feedthrough, said feedthrough being connected with said tube wall through one of a soldered connection and a welded connection, said at least one opening accommodating said feedthrough further comprising a reinforcing component surrounding said at least one opening and being connected with at least one exterior surface of said tube wall through one of a soldered connection and a welded connection such that said reinforcing component does not contact said at least one interior surface of said tube wall. 12. The device according to claim 11, said water being salt water. 13. The device according to claim 12, said oils being for at least one of engines, transmission and hydraulic applications. 14. The device according to claim 13, said alcohol being one of methanol and ethanol.
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이 특허에 인용된 특허 (10)
Wichmann Franz-Josef,DEX, Apparatus and method for producing a metallic tube for light waveguides.
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