Sealing and insulating arrangement for a device used for driving a compressor and device for driving a compressor

The invention claimed is: 1. A sealing-and-insulating arrangement for guiding electrical connections through a housing for a device used for driving a compressor, exhibiting a connection arrangement, the sealing-and-insulating arrangement comprising: at least one electrically conductive connecting element; a retaining element; and a support element with a mounting element having a connection pass-through that is fully enclosed by a wall, wherein the at least one connecting element is itself arranged and fully enclosed by the retaining element and has both a form and fluid-tight connection to the retaining element via a form element in such a way that the at least one connecting element projects out of the retaining element with a first section and a second section, wherein the at least one connecting element is arranged in such a way that the first section reaches through the connection pass-through and into the mounting element, and wherein at least the first section of the at least one connecting element is enclosed in full at least zonally by an insulation element that has a firm connection to the retaining element and stretches from the retaining element in a direction of a wall of the support element and also encloses the first section of the at least one connecting element in a fluid-tight way in connection with the wall, wherein at least one function element is produced, which is arranged in such a way that it seals a wall of the mounting element and the insulation element with one another, wherein the at least one function element exhibits the shape of a sleeve with a first section and a second section that each stretch in an axial direction and are connected to one another via a section that is produced as a seat, and wherein the first section of the function element is arranged in a slot-like intermediate space that is produced between the at least one connecting element and the insulation element and that the second section of the function element is arranged in a slot-like intermediate space that is produced between the at least one connecting element and the wall of the connection pass-through of the mounting element. 2. The sealing-and-insulating arrangement according to claim 1 , wherein only the first section of the at least one connecting element is enclosed in full by the insulation element at least zonally. 3. The sealing-and-insulating arrangement according to claim 1 , wherein the at least one connecting element is produced with a cylindrical shape as a pin-like plug-in connector. 4. The sealing-and-insulating arrangement according to claim 1 , wherein the at least one connecting element is produced as a circular cylindrical shape with a constant external diameter. 5. The sealing-and-insulating arrangement according to claim 1 , wherein the wall that encloses the connection pass-through of the mounting element is aligned in an axial direction to the housing in a way that projects from the mounting element. 6. The sealing-and-insulating arrangement according to claim 5 , wherein the wall is produced with a circular hollow cylinder shape and connected in full to the mounting element with a first end face that is aligned in the axial direction, and wherein a second end face is aligned in a direction of the connection arrangement. 7. The sealing-and-insulating arrangement according to claim 1 , wherein the insulation element exhibits the shape of a sleeve with two end faces. 8. The sealing-and-insulating arrangement according to claim 7 , wherein a first one of the end faces of the insulation element is produced with a firm and fully fluid-tight connection to the retaining element and a second one of the end faces of the insulation element, itself aligned distally to the first end face, is aligned towards the support element and produced as a free end. 9. The sealing-and-insulating arrangement according to claim 1 , wherein the insulation element is produced from a ceramic material. 10. The sealing-and-insulating arrangement according to claim 1 , wherein the at least one connecting element and the insulation element are aligned coaxially with one another in such a way that a gap is produced between the at least one connecting element and the insulation element. 11. The sealing-and-insulating arrangement according to claim 1 , wherein the retaining element is produced in a plate shape with surfaces arranged opposite one another and at least one pass-through opening for mounting the at least one connecting element, wherein the first section and the second section of the at least one connecting element are arranged in such a way that they project out of the opposing surfaces of the retaining element and a third section of the at least one connecting element is arranged inside the pass-through opening. 12. The sealing-and-insulating arrangement according to claim 1 , wherein a gap produced between the at least one connecting element and the retaining element is filled by the form element. 13. The sealing-and-insulating arrangement according to claim 1 , wherein the form element is produced as a glass form element. 14. The sealing-and-insulating arrangement according to claim 1 , wherein the first section and the second section each exhibit an essentially constant wall thickness, wherein at least one sealing lip is produced on an outer surface of the first section and the second section and projects from the outer surface. 15. The sealing-and-insulating arrangement according to claim 14 , wherein the at least one sealing lip is produced in such a way that the at least one sealing lip fully enclose the outer surface of a respective one of the first section and the second section. 16. The sealing-and-insulating arrangement according to claim 15 , wherein the seat of the function element is produced in such a way that it projects over outer surfaces of the first section and the second section in a radial direction and the function element is fully enclosed. 17. The sealing-and-insulating arrangement according to claim 1 , wherein an outer surface of the first section of the function element is arranged in contact with an inner surface of a wall of the insulation element and an outer surface of the second section of the function element is arranged in contact with an inner surface of the wall of the connection pass-through of the mounting element. 18. The sealing-and-insulating arrangement according to claim 17 , wherein an equal number of function elements are produced with formation of at least two connecting elements, the wall of the connection pass-through and the insulation element, wherein the function elements are produced as a one-piece function element arrangement. 19. The sealing-and-insulating arrangement according to claim 18 , wherein two of the function elements, arranged adjacently to one another in the area of the seat, are connected to one another via connection bridges. 20. The sealing-and-insulating arrangement according to claim 17 , wherein the function element is produced with the support element as a one-piece component. 21. A sealing-and-insulating arrangement for guiding electrical connections through a housing for a device used for driving a compressor, exhibiting a connection arrangement, the sealing-and-insulating arrangement comprising: at least one electrically conductive connecting element; a retaining element; and a support element with a mounting element having a connection pass-through that is fully enclosed by a wall, wherein the at least one connecting element is itse