Switch

The invention claimed is: 1. A switch comprising: a sealed housing filled with an insulative medium; a plurality of contactors each comprising a contact; a plurality of operation units disposed outside the sealed housing and actuating the contact; an insulative spacer dividing an interior of the sealed housing into a plurality of internal spaces, a number of the internal spaces being consistent with a number of the contacts; and an electrode passing completely through the insulative spacer, and being fastened to the insulative spacer, wherein; the contactor is provided one by one for each internal space; at least one of the contactors includes a linkage which passes completely through the sealed housing while maintaining an air tightness of the interior of the sealed housing, is connected with the operation unit, and transmits actuation force by the operation unit to the contact, wherein among the contactors: at least one of the contactors comprises a vacuum contactor that comprises a vacuum valve with the contact; and at least one of the contactors comprises a contactor with the contact that has a larger dielectric strength than a dielectric strength of the contact of the vacuum valve, all of the contacts are electrically connected in series via the electrode; each of the operation units actuates the corresponding contact, the operation unit of at least one of the contactors comprises: a coil; a coil fastener fastening the coil; an opposing conductor provided so as to face the coil; a movable shaft passing completely through the opposing conductor, and being fastened to the opposing conductor; and a coil exciter supplying a current to the coil, and exciting the coil, and when the coil is excited, repulsive force is generated between the coil and the opposing conductor, and thrust force is applied to the movable shaft. 2. The switch according to claim 1 , wherein a capacitor is connected in parallel with the contact of the vacuum valve. 3. The switch according to claim 1 , wherein a surge absorber is connected in parallel with the contact of the vacuum valve. 4. The switch according to claim 1 , wherein the operation unit further comprises a thrust force generator directly or indirectly connected with the movable shaft, and applying the thrust force to the movable shaft. 5. The switch according to claim 4 , wherein the thrust force generator comprises: a movable component directly or indirectly connected with the movable shaft, and formed of a magnetic material; a permanent magnet; and an electromagnetic solenoid. 6. The switch according to claim 1 , wherein: the operation unit of at least one of the contactors comprises: a row of first permanent magnets each being formed in an annular shape or a circular arc shape, the first permanent magnets being adjoined to each other so as to turn a magnetic pole of each of the first permanent magnets 90 degrees by 90 degrees at a maximum on a cross section of the first permanent magnet including a center axis thereof; a row of second permanent magnets each being formed in an annular shape or a circular arc shape, the second permanent magnets being adjoined to each other so as to turn a magnetic pole of each of the second permanent magnets 90 degrees by 90 degrees at a maximum on a cross section of the second permanent magnet including a center axis thereof; a double-shell stator causing the first permanent magnet and the second permanent magnet with a radial-direction magnetization vector component in a same direction to face with each other, and fastening the row of the first permanent magnet and the row of the second permanent magnet so as to maintain a constant distance; a cylindrical movable component comprising a coil located between the row of the first permanent magnet and the row of the second permanent magnet, and being movable in an axial direction of the stator; and a coil exciter supplying a current to the coil to excite the coil, and the movable component actuates the contact. 7. The switch according to claim 1 , further comprising a control device connected with each of the operation units, wherein the control device controls a start of a contact opening operation of the operation unit and a contact closing operation thereof. 8. The switch according to claim 1 , wherein the insulative medium is an SF 6 gas. 9. The switch according to claim 1 , wherein the internal space is capable of changing an internal pressure for each internal space.