A housing for a device operated under at least one of a vacuum and a protective gas includes at least one housing interior space, at least one receiving region configured to receive at least one getter material, and a connection between the at least one housing interior space and the at least one re
A housing for a device operated under at least one of a vacuum and a protective gas includes at least one housing interior space, at least one receiving region configured to receive at least one getter material, and a connection between the at least one housing interior space and the at least one receiving region. The connection includes a particle-impervious bond.
대표청구항▼
1. A housing for a device operated under at least one of a vacuum and a protective gas, the housing comprising: a capsule container;a cover configured to form a vacuum-tight connection with the capsule container;a housing interior space enclosed by a lower surface of the cover and by one or more int
1. A housing for a device operated under at least one of a vacuum and a protective gas, the housing comprising: a capsule container;a cover configured to form a vacuum-tight connection with the capsule container;a housing interior space enclosed by a lower surface of the cover and by one or more interior surfaces of the capsule container;a receiving region located in a hollow space formed within the cover and configured to receive at least one getter material;a connection between the housing interior space and the receiving region, the connection including a particle-hindering connection having at least one multilayer filter device including a plurality of mesh materials arranged in superimposed layers and extending over only a portion of the lower surface of the cover; anda detector electrical connection lead routed, in a vacuum tight manner, through the cover into the housing interior space and configured to supply electrical current to a detector. 2. The housing recited in claim 1, wherein the cover is a solidly constructed cover. 3. The housing recited in claim 1, further comprising the at least one getter material. 4. The housing recited in claim 3, further comprising: a getter electrical connection lead routed, in a vacuum-tight manner, through a portion of the cover into the receiving region located in the hollow space formed within the cover and to the at least one getter material in the receiving region, the getter electrical connection lead configured to energize the at least one getter material. 5. The housing recited in claim 3, wherein the at least one getter material is disposed in the at least one receiving region. 6. The housing recited in claim 5, Wherein the at least one getter material includes a thermally activable getter material. 7. The housing recited in claim 1, further comprising at least one thermal insulation device disposed in at least one join region in a vicinity of at least one material-to-material connection seam. 8. The housing recited in claim 7, wherein the at least one thermal insulation device includes a region of thinned material. 9. The housing recited in claim 8, wherein the region of thinned material is provided by a recess. 10. The housing recited in claim 9, wherein the region of thinned material is provided by at least one of a groove-type, recess and a web-type projection. 11. The housing recited in claim 1, wherein at least two joined together join regions differ in thickness, at least regionally. 12. The housing recited in claim 11, wherein the at least two join regions are joined together housing parts. 13. The housing recited in claim 1, wherein the housing includes at least two join regions, at least a region of the at least two join regions having at least one of a transition fit and a force fit. 14. The housing recited in claim 13, wherein the at least two join regions have an H7 fit. 15. The housing recited in claim 1, wherein the housing includes the capsule container and at least one of the cover and a housing bottom, and wherein at least one connection seam is included between the capsule container and the at least one of the cover and the housing bottom. 16. The housing recited in claim 1, wherein at least one housing part of the housing includes at least one material from the group including metal, metal alloys, aluminum, aluminum alloys, AlMg3, AlMg4.5Mn, steel, steel alloys, stainless steel, copper, copper alloys, nickel, nickel alloys, materials that have low evaporation rates and materials that are free of evaporation. 17. The housing recited in claim 16, wherein the at least one housing part is at least one join region. 18. The housing recited in claim 1, further comprising at least one connection seam having a separable design. 19. The housing recited in claim 18, wherein the at least one connection seam is a material-to-material connection seam. 20. The housing recited in claim 18, wherein the at least one connection seam is openable. 21. The housing recited in claim 18, wherein the at least one connection seam is openable and resealable. 22. A device opera able under at least one of a vacuum and a protective gas, the device comprising: a housing including: a capsule container;a cover configured to form a vacuum-tight connection with the capsule container;a housing interior space enclosed by a lower surface of the cover and by one or more interior surfaces of the capsule container; anda receiving region, located in a hollow space formed within the cover and configured to receive at least one getter material;a connection between the housing interior space and the receiving region, the connection including a particle-hindering connection having at least one multilayer filter device including a plurality of mesh materials arranged in superimposed layers and extending over only a portion of the lower surface of the cover; anda detector disposed in the housing interior space; anda detector electrical connection lead routed, in a vacuum-tight manner, through the cover into the housing interior space and configured to supply electrical current to the detector. 23. The device recited in claim 22, wherein the detector is a semiconductor detector. 24. The device recited in claim 22, further comprising a getter electrical connection lead routed, in a vacuum-tight manner, through a portion of the cover into the receiving region located in the hollow space formed within the cover and to the at least one getter material in the receiving region, the getter electrical connection lead configured to energize the at least one getter material.
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이 특허에 인용된 특허 (11)
Berst Marc (Schiltigheim FRX) Eberth Jurgen (Koln DEX) Jager Herbert M. (Aachen DEX) Kammerling Hans (Eschweiler DEX) Lieder Rainer M. (Julich DEX) Renftle Walter (Duren DEX), Capsule for a detector operating in an ultra-high vacuum.
Snow James T. (Nashua NH) Plante Walter (Auburn MA) Zeller Robert S. (Boston MA), High-efficiency metal membrane getter element and process for making.
Auer,Emmanuel; Biberbach,Peter; Gross,Michael; Gutsch,Andreas; Prid철hl,Markus; Ruth,Karsten; Staab,Edwin, Process and apparatus for the thermal treatment of pulverulent substances.
Bridges John A. (Nashville TN) Neal Philip H. (Donelson TN) Besser John E. (Franklin TN), Vacuum insulated panel and method of forming a vacuum insulated panel.
Biel, Jr., John P.; Benson, David K.; Burch, Steven D.; Hill, Jr., Frederick B.; Keyser, Matthew A.; Mews, Lance; Rigsby, Donald R.; Tracy, C. Edwin, Vacuum-insulated exhaust treatment devices, such as catalytic converters, with passive controls.
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