Vacuum interrupter for a circuit breaker arrangement

What is claimed is: 1. A vacuum interrupter for a circuit breaker arrangement comprising: a cylindrically shaped insulating part, within which a pair of electrical contact parts are coaxially arranged and surrounded concentrically by the insulating part, wherein the electrical contact parts include means for initiating a disconnection arc only between corresponding inner electrical contact elements after starting a disconnection process, and corresponding outer electrical contact elements include means for commutating said arc from the inner electrical contact elements to the outer electrical contact elements until the disconnection process is completed, wherein each inner electrical contact element is designed for generating a transverse magnetic field, and each outer electrical contact element is designed for generating an axial magnetic field, wherein each outer electrical contact element includes an electrical coil for generating the axial magnetic field, and each inner electrical contact element has one of a disk, star or spiral shaped form for supporting or generating the transverse magnetic field, wherein for a double-contact system on both corresponding electrical contact parts the inner electrical contact element is immovably arranged in relation to the outer electrical contact element, and one of the electrical contact parts is movable in relation to the other electrical contact part for a switching function; wherein each inner electrical contact element is coaxially arranged within a corresponding outer electrical contact element, which has a pot-shaped or a tube-shaped geometrical form, and an insulation gap is established between each inner and each outer electrical contact elements, wherein each inner electrical contact element and each outer electrical contact element are integrated to form the electrical contact element, wherein each insulation gap is formed only between adjacent lateral edges of each inner and each outer electrical contact elements. 2. The vacuum interrupter according to claim 1 , wherein the insulating part includes a cover plate on each front side in order to form a closed vacuum chamber for accommodation the pair of electrical contact parts. 3. The vacuum interrupter according to claim 1 , wherein an additional barrel-shaped metal or ceramic shield is coaxially arranged between the insulating part and the pair of electrical contact parts. 4. A medium-voltage circuit breaker comprising: at least one vacuum interrupter including: a cylindrically shaped insulating part, within which a pair of electrical contact parts are coaxially arranged and surrounded concentrically by the insulating part, wherein the electrical contact parts include means for initiating a disconnection arc only between corresponding inner electrical contact elements after starting a disconnection process, and corresponding outer electrical contact elements include means for commutating said arc from the inner electrical contact elements to the outer electrical contact elements until the disconnection process is completed, wherein each inner electrical contact element is designed for generating a transverse magnetic field, and each outer electrical contact element is designed for generating an axial magnetic field, and wherein each outer electrical contact element includes an electrical coil for generating the axial magnetic field, and each inner electrical contact element has one of a disk, star or spiral shaped form for supporting or generating the transverse magnetic field, the at least one vacuum interrupter being configured for at least one pole part operated by an electromagnetic actuator as switch operation means, wherein for a double-contact system on both corresponding electrical contact parts the inner electrical contact element is immovably arranged in relation to the outer electrical contact element, and one of the electrical contact parts is movable in relation to the other electrical contact part for a switching function; wherein each inner electrical contact element is coaxially arranged within a corresponding outer electrical contact element, which has a pot-shaped or a tube-shaped geometrical form, and an insulation gap is established between each inner and each outer electrical contact elements, wherein each inner electrical contact element and each outer electrical contact element are integrated to form the electrical contact element, and wherein the insulation gap is formed only between adjacent lateral edges of each inner and each outer electrical contact elements.