Coaxial filter

The invention claimed is: 1. A coaxial filter comprising: a housing that delimits a common receiving space; the housing being made of an electrically conducting material and comprising a first trough-shaped housing element that has first sidewalls and a first front wall, wherein between the first sidewalls, a first space is closed off by the first front wall on one of the sides of the first sidewalls, the first space forming a receiving space, and wherein the first sidewalls are integral with the first front wall, the first sidewalls and the first front wall of the housing element comprising a cast and/or extruded and/or milled part; the housing further comprising one of: (a1) a further trough-shaped housing element that comprises further sidewalls and a further front wall, wherein a further space between the further sidewalls is closed off on one of their sides by the further front wall, wherein the further sidewalls are integral with the further front wall, and wherein the first and further trough-shaped housing elements are placed on top of one another so the first and further sidewalls of both first and further trough-shaped housing elements run between the first and further front walls and surround the receiving space which is formed by the first and further spaces; or (b1) a lid arrangement, wherein the first sidewalls run between the first front wall and the lid arrangement and surround the receiving space which is formed by the first space; at least one resonator inner conductor arrangement with a one-piece design arranged in the receiving space, the at least one resonator inner conductor arrangement consisting of or comprising a punched and/or lasered metal sheet; the at least one resonator inner conductor arrangement comprising a plurality of resonator inner conductors which lie in the same plane and each have a first end and a second end spaced apart from the first end; the at least one resonator inner conductor arrangement further comprising a connecting bridge that connects the resonator inner conductors to one another in an electrically conducting manner; at least two adjacent resonator inner conductors of the at least one resonator inner conductor arrangement, which extend in the same direction away from the connecting bridge, being in a line of sight of one another over their entire length or over their predominant length; wherein the at least one resonator inner conductor arrangement connecting bridge is divided into connecting bridge sections, some of the connecting bridge sections being offset from other connecting bridge sections, some of the connecting bridge sections being spaced apart at different distances from the sidewalls and running parallel thereto, portions of the resonator inner conductors extending from the connecting bridge sections having different lengths; at least one first pedestal arrangement; wherein the at least one resonator inner conductor arrangement rests on the at least one first pedestal arrangement and is held spaced apart: from the front walls of the trough-shaped housing elements; or the first front wall of the trough-shaped housing element and the lid arrangement; or the at least one first pedestal arrangement extends in the direction of the at least one resonator inner conductor arrangement and ends at a distance from it; wherein the at least one resonator inner conductor arrangement is: soldered to; and/or screwed to the first pedestal arrangement, wherein the first pedestal arrangement is at least partially penetrated by a thread, and wherein a screw head of a screw connection is arranged in the receiving space or outside of the housing; and a further pedestal arrangement which is formed on the further front wall and/or on the further sidewall of the further trough-shaped housing element, wherein the at least one resonator inner conductor arrangement is clamped between the first and further pedestal arrangements, and wherein the screw connection at least to some extent penetrates both first and further pedestal arrangements; or at least one spacer arranged between the at least one resonator inner conductor arrangement and the lid arrangement, the at least one resonator inner conductor arrangement being clamped between the first pedestal arrangement and the at least one spacer, wherein the screw connection at least to some extent penetrates the at least one spacer. 2. The coaxial filter according to claim 1 , wherein: the resonator inner conductor arrangement is designed as one piece consisting of or comprising a curved and/or milled and/or printed metal sheet. 3. The coaxial filter according to claim 1 , wherein: the at least one resonator inner conductor arrangement is galvanically separated from the housing, or the at least one resonator inner conductor arrangement is galvanically connected to the housing; and/or the second end of the resonator inner conductors is arranged at a distance from the housing; and/or the at least one resonator inner conductor arrangement runs centrally or outside from the center through the receiving space; and/or the at least one resonator inner conductor arrangement is soldered and/or screwed and/or clamped to the housing. 4. The coaxial filter according to claim 1 , wherein: the first pedestal arrangement comprises a plurality of individual pedestals spaced apart from one another or a continuous pedestal that extends over at least 50% along the length of a said sidewall; the first pedestal arrangement consisting of or comprising a dielectric material and/or an electrically conducting material. 5. The coaxial filter according to claim 1 , wherein: the at least one resonator inner conductor arrangement is clamped between at least one first sidewall of the first trough-shaped housing element and at least one further sidewall of the further trough-shaped housing element. 6. The coaxial filter according to claim 1 , wherein: the at least one resonator inner conductor arrangement is soldered to a first sidewall of the first trough-shaped housing element; or the at least one resonator inner conductor arrangement has a segment which is curved at least with regard to a predominant part of the resonator inner conductors in a direction of a front side of the first trough-shaped housing element and soldered to said front side, or which is curved at least with regard to a predominant part of the resonator inner conductors in a direction of the lid arrangement and soldered to said lid arrangement. 7. The coaxial filter according to claim 1 , wherein: the second end of at least one or all resonator inner conductors of the at least one resonator inner conductor arrangement: runs angled, for example, in an L-shaped manner; or is twice angled, for example, in a T-shaped or U-shaper manner; or has an enlarged width. 8. The coaxial filter according to claim 1 , wherein: plural or all resonator inner conductors of the at least one resonator inner conductor arrangement have over a first partial length, a smaller width than over a second partial length, which ends at the second end, wherein the first partial length for at least two resonator inner conductors has a different length, resulting in a band-stop characteristic. 9. The coaxial filter according to claim 1 , wherein: at least one capacitive or inductive overcoupling is provided between plural resonator inner conductors of the at least one resonator inner conductor arrangement that are not adjacent, wherein the inductive overcoupling is formed by an overcoupling rod that is galvanically connected to the two resonator inner conductors and runs between them and a front wall or the lid arrangement; or the capacitive overcoupling is formed by an overcoupling element, having