Tunable high frequency filter

The invention claimed is: 1. High-frequency filter of a coaxial construction, the high-frequency filter comprising: at least one resonator having an internal conductor and an external conductor housing; the external conductor housing comprising a housing base, a housing cover spaced apart from the housing base, and a housing wall extending around between the housing base and the housing cover; the internal conductor being galvanically connected to the housing base and extending in an axial direction from the housing base towards the housing cover; the internal conductor ending at a distance from the housing cover and/or being galvanically separated from the housing cover; the resonator comprising a tuning element, which is arranged opposing the internal conductor, and which is movably held in an axial location thereof in the housing cover, at least indirectly, and protrudes into a resonator interior, the tuning element having an external thread; the internal conductor comprising a longitudinal recess, which extends from a face end of the internal conductor opposing the housing cover towards the housing base; the tuning element structured to be introduced into the longitudinal recess of the internal conductor; an internal thread formed in one of (a) the housing cover or (b) in a socket which is provided in the housing cover and also connected in the housing cover; the tuning element having the external thread being rotatably arranged in said internal thread; the tuning element being formed from a dielectric material in such a way that current transitions are prevented between the external thread and the internal thread; the tuning element comprising a central portion, by which the tuning element is movably held, the tuning element further comprising a peripheral wall, the tuning element and the peripheral wall being separated from one another by a recess extending around the central portion, in such a way that a separating space is formed between the central portion and the peripheral wall, the central portion and the peripheral wall being interconnected via a tuning element base; and a face end of the socket opposing the housing base being receivable in the separating space between the central portion and the peripheral wall of the tuning element or dipping into said separating space, in such a way that the peripheral wall is arranged between the socket and the internal conductor in the region of the longitudinal recess thereof; wherein the tuning element further comprises a collar, which extends around the tuning element, is connected to the face end of the peripheral wall opposing the housing cover, and extends radially away from the central portion. 2. High-frequency filter according to claim 1 , wherein: the housing cover comprises the socket, which is galvanically connected to the housing cover and which extends towards the housing base. 3. High-frequency filter according to claim 1 , wherein: the socket has a distal portion which is disposed at the level of the face end of the internal conductor or dips into the longitudinal recess of the internal conductor; and the tuning element protrudes out of the face end of the socket opposing the housing base and thus dips even further into the longitudinal recess of the internal conductor. 4. High-frequency filter according to claim 1 , wherein the peripheral wall of the tuning element comprises a rim edge, in such a way that the peripheral wall above the rim edge has a smaller wall thickness than below the rim edge. 5. High-frequency filter according to claim 1 , wherein the ratio between an axial height or length (H) of the socket and a diameter (D) of the socket has a value of ≧1.6, 1.7, 1.8, 1.9, 2.0, 2.25, 2.5, 2.75 and/or 3.0. 6. High-frequency filter according to claim 1 , wherein: the housing wall and the internal conductor consist of a first material, which has a first thermal expansion coefficient, or the housing wall consists of a first material, which has a first thermal expansion coefficient, and the internal conductor consists of a second material, which has a second thermal expansion coefficient; the tuning element consists of a third material, which has a third thermal expansion coefficient; and the third thermal expansion coefficient of the third material is greater than the first thermal expansion coefficient of the first material and/or greater than the second thermal expansion coefficient of the second material. 7. High-frequency filter according to claim 6 , wherein: in the event of an increase in temperature, the tuning element expands more than the internal conductor and the housing wall in the axial direction of said tuning element, in such a way that a greater proportion of the peripheral wall above the rim edge is arranged between the internal conductor and the socket, providing less dielectric material between the internal conductor and the socket, thus decreasing a head capacitance of the resonator; and in the event of a decrease in temperature, the tuning element contracts more than the internal conductor and the housing wall in the axial direction, in such a way that a smaller proportion of the peripheral wall above the rim edge is arranged between the internal conductor and the socket, providing more dielectric material between the internal conductor and the socket, thus increasing a head capacitance of the resonator.