Manipulation device

What is claimed is: 1. A rotation-type manipulation device comprising: a manipulation member including a manipulation body having a rotational axis that allows a rotational operation of the manipulation body according to a manipulation by a manipulator; a support body that rotatably supports the manipulation body; and a rotational load mechanism that applies a rotational load to the manipulation body, the rotational load mechanism including: a movable member in a shape of a round flat plate that rotates by being engaged with the rotational axis of the manipulation member, the movable member having a first main surface and a second main surface opposite to the first main surface; a magnetism generating mechanism that faces the movable member with a gap provided therebetween, the magnetism generating mechanism including: a coil that generates a magnetic field by being energized; a first yoke provided on one side of the movable member so as to enclose the coil, the first yoke having: a first opposing part facing the first main surface of the movable member across the gap therebetween; and a second opposing part facing the first main surface of the movable member across the gap therebetween, the first opposing part and the second opposing part being separated from each other by a first slit; and a magnetic viscous fluid provided in the gap, the magnetic viscous fluid filling a first portion of the gap between the first opposing part and the movable member and a second portion of the gap between the second opposing part and the movable member, viscosity of the magnetic viscous fluid changing according to strength of the magnetic field, wherein the movable member has a second slit formed therein so as to face the first slit of the first yoke. 2. The manipulation device according to claim 1 , wherein an area of the first opposing part facing the magnetic viscous fluid is the same as an area of the second opposing part facing the magnetic viscous fluid. 3. The manipulation device according to claim 1 , wherein the movable member is formed of a soft magnetic material. 4. The manipulation device according to claim 1 , wherein the magnetism generating mechanism further includes a second yoke disposed on another side of the movable member so as to face the second main surface of the movable member across the gap therebetween. 5. The manipulation device according to claim 4 , wherein the magnetic viscous fluid also fills a third portion of the gap between the movable member and the second yoke. 6. The manipulation device according to claim 5 , wherein the magnetic field generated by the coil passes though the first opposing part of the first yoke, the first portion of the gap, the movable member, the third portion of the gap, the second yoke, the third portion of the gap, the movable member, the second portion of the gap, and the second opposing part of the first yoke, so as to return to the coil. 7. The manipulation device according to claim 4 , wherein: the movable member is formed of a soft magnetic material. 8. The manipulation device according to claim 1 , wherein a width of the second slit in the movable member is smaller than a width of the first slit in the first yoke. 9. The manipulation device according to claim 1 , wherein the first yoke is formed so as to cover one side of the coil, an inner side wall and an outer side wall of the coil, and part of another side of the coil. 10. The manipulation device according to claim 1 , further comprising a slit spacer formed from a synthetic resin accommodated in the first slit. 11. The manipulation device according to claim 1 , wherein the movable member includes a base part engaging with the rotational axis, and a discoid part having the first and second main surfaces and integrally formed with the base part. 12. A rotation-type manipulation device comprising: a manipulation member including a manipulation body having a rotational axis that allows a rotational operation of the manipulation body according to a manipulation by a manipulator; a support body that rotatably supports the manipulation body; and a rotational load mechanism that applies a rotational load to the manipulation body, the rotational load mechanism including: a movable member in a shape of a round flat plate, the movable member having a first main surface and a second main surface opposite to the first main surface, the movable member rotating by engaging with the rotational axis of the manipulation member, the movable member having a circular arc slit formed thereon; a magnetism generating mechanism that faces the movable member with a gap provided therebetween, the magnetism generating mechanism including: a coil that generates a magnetic field by being energized; a first yoke provided on one side of the movable member so as to enclose the coil, the first yoke facing the movable member and having a first opposing part and a second opposing part separated from each other by an annular slit formed therebetween, such that one of the first opposing part and the second opposing part surrounds the other, the first and second opposing parts both facing the first main surface of the movable member with the gap provided therebetween; and a magnetic viscous fluid provided in and filling the gap between the first yoke and the movable member, viscosity of the magnetic viscous fluid changing according to strength of the magnetic field, wherein the annular slit of the first yoke provides a space formed under and along the coil, the space communicating with the gap containing the magnetic viscous fluid, the circular arc slit of the movable member being disposed along the annular slit. 13. The manipulation device according to claim 12 , wherein the magnetism generating mechanism further includes: a second yoke disposed on another side of the movable member so as to face the second main surface of the movable member across the gap therebetween, and wherein the annular slit of the first yoke and the circular arc slit of the movable member allow the magnetic field generated by the coil to pass through the first opposing part to the movable member to the second yoke, and from the second yoke to the movable member to the second opposing part.