Vacuum interrupter with transition areas between metal housing parts and ceramic housing parts covered by insulating material

What is claimed is: 1. A vacuum interrupter having multiple serial ceramic elements comprising: transition areas between metal housing parts and ceramic housing parts of the multiple serial ceramic elements covered by insulating material, wherein the insulating material extends as a common tube over at least nearly a complete length of the vacuum interrupter; and the insulating material is filled or at least covered at an inner surface which is closest to the vacuum interrupter housing parts, with metal and/or conductive metal oxides, or material with limited conductivity, wherein the common tube is a cold-shrink tube or a warm shrink tube. 2. The vacuum interrupter according to claim 1 , wherein the ceramic housing part of the vacuum interrupter is divided into a series arrangement of at least two ceramic segments, with externally extended middle shielding contacts between the segments, which are covered by the common tube. 3. The vacuum interrupter according to claim 1 , wherein the ceramic housing part of the vacuum interrupter is divided into a series arrangement of at least two ceramic segments, with externally extended middle shielding contacts between the segments, which are covered by a multilayer arrangement of insulating tubes. 4. The vacuum interrupter according to claim 1 , wherein the ceramic housing part of the vacuum interrupter is divided into a series arrangement of at least two ceramic segments, with externally extended middle shielding contacts between the segments, and a single tube of the multilayer arrangement electrically connected to the vacuum interrupter partially via a layer of the multilayer arrangement, or via all layers of the multilayer arrangement. 5. The vacuum interrupter according to claim 1 , wherein the vacuum interrupter or serial multi vacuum interrupter or vacuum device arrangement with the common tube is embedded in an epoxy resin, or thermoplastic housing. 6. The vacuum interrupter according to claim 1 , wherein the vacuum interrupter or serial multi vacuum interrupter or vacuum device arrangement with the common tube is assembled in a housing made of insulating material. 7. A method for manufacturing a vacuum interrupter having multiple serial ceramic elements formed as a serial arrangement of multiple vacuum interrupters, the method comprising: filling completely, or covering at an inner surface, an insulating material which is closest to the vacuum interrupter or vacuum device surface, with metal and/or conductive metal oxides and forming the insulating material as a tube of cold or warm shrinking insulating material; and placing the tube over at least nearly a complete length of the vacuum interrupter to form a covered serial arrangement of multiple vacuum interrupters. 8. The method according to claim 7 , comprising: placing the covered serial arrangement of multiple vacuum interrupters into a moulding to produce an insulating housing by epoxy resin, or a thermoplastic injection process. 9. The vacuum interrupter according to claim 1 , wherein the ceramic housing part of the vacuum interrupter is divided into a series arrangement of at least two ceramic segments, with externally extended middle shielding contacts between the segments, which are covered by the common tube. 10. The vacuum interrupter according to claim 1 , wherein the ceramic housing part of the vacuum interrupter is divided into a series arrangement at least two ceramic segments, with externally extended middle shielding contacts between the segments, which are covered by a multilayer arrangement of insulating tubes. 11. The vacuum interrupter according to claim 1 , wherein the ceramic housing part of the vacuum interrupter is divided into a series arrangement of at least two ceramic segments, with externally extended middle shielding contacts between the segments, and a single tube of the multilayer arrangement electrically connected to the vacuum interrupter partially via a layer of the multilayer arrangement, or via all layers of the multilayer arrangement. 12. The vacuum interrupter according to claim 10 , wherein the vacuum interrupter or serial multi vacuum interrupter or vacuum device arrangement with the common tube is embedded in an epoxy resin, or thermoplastic housing. 13. The vacuum interrupter according to claim 10 , wherein the vacuum interrupter or serial multi vacuum interrupter or vacuum device arrangement with the common tube is assembled in a housing made of insulating material.