Switching system

The invention claimed is: 1. A switching system, comprising: two contact rails each having a rail contact point; a contact link having two link contact points and disposed rotatably movable about an axis of rotation of said contact link, when said contact link is rotated to a contact position, each of said link contact points is in direct contact with one of said rail contact points defining a closed contact; at least one quenching chamber; a magnetic element for producing a permanent magnetic field, the permanent magnetic field being parallel to said axis of rotation of said contact link, for deflecting an arc into said quenching chamber and produced when said link contact points are no longer directly contacting said rail contact points; a rotary link mount; a bearing part connected to said contact link in at least one of a radially movable fashion by means of said rotary link mount or in a rotationally movable fashion relative to said bearing part, said bearing part having tangentially running cutouts formed therein; at least one spring, said contact link being coupled to said bearing part by means of said at least one spring biased with said closed contact; and said rotary link mount having bearing elements resting in said tangentially running cutouts, said bearing elements receiving said spring on a spring-end side. 2. The switching system according to claim 1 , wherein said bearing part has a top surface with an outer periphery and said tangentially running cutouts are formed at said outer periphery. 3. The switching system according to claim 1 , wherein said bearing part has at least one radial guide contour formed therein and said rotary link mount is guided in said at least one radial guide contour. 4. The switching system according to claim 1 , wherein said bearing part has two supporting elements and said spring is positioned between said two supporting elements. 5. The switching system according to claim 4 , wherein: said radial guide contour is one of a plurality of radial guide contours; and said supporting elements are disposed one behind the other between said radial guide contours and/or said tangentially running cutouts of said bearing part, and said spring is bent approximately in a form of a z between said supporting elements. 6. The switching system according to claim 1 , wherein said quenching chamber has a number of radially running arc splitter plates. 7. The switching system according to claim 6 , wherein: said contact rails are bent connecting rails each having said rail contact point being a fixed rail contact point; and said link contacts are moving contacts. 8. The switching system according to claim 7 , wherein said at least one quenching chamber has two regions without any said arc splitter plates and disposed between said arc splitter plates, in said regions said bent connecting rails are inserted. 9. The switching system according to claim 1 , wherein the switching system has a substantially point-symmetrical and/or rotationally symmetrical design with respect to said axis of rotation. 10. The switching system according to claim 1 , wherein said magnetic element has at least one permanent magnet and two iron plates in magnetic contact therewith, which are disposed substantially perpendicular to said axis of rotation and at least partially cover said contact link. 11. The switching system according to claim 1 , wherein the switching system is selected from the group consisting of a relay or a contactor.