Camera device with hand-shake correction function

What is claimed is: 1 . An anti-shake mechanism of a deflected camera device, the deflected camera device comprising an optical system, the optical system comprising a reflection member, and the anti-shake mechanism being configured to perform a handshake correction by rotating the reflection member in the deflected camera device, wherein the reflection member comprises a reflection surface configured to deflect an optical axis; the reflection member is arranged closer to an object side than camera lens groups in such a manner that the reflection member rotates around a first rotation axis and a second rotation axis being rotation axes, the first rotation axis being an axis perpendicular to a plane defined by an optical axis of the camera lens groups and an optical axis at the object side reflected by the reflection member, and the second rotation axis being an axis parallel to the reflected optical axis at the object side; a ball member is used as a sliding portion that enables the reflection member to smoothly rotate; and an electromagnetic actuator is provided to drive a driving member for rotation, and the electromagnetic actuator comprises a mechanism for holding the sliding portion and a shake elimination mechanism. 2 . The anti-shake mechanism of the deflected camera device as described in claim 1 , wherein the reflection surface of the reflection member is symmetrical with respect to the first rotation axis and the second rotation axis, and the anti-shake mechanism is equipped with the electromagnetic actuator at an outermost portion. 3 . The anti-shake mechanism of the deflected camera device as described in claim 1 , wherein the electromagnetic actuator is a voice coil motor. 4 . The anti-shake mechanism of the deflected camera device as described in claim 3 , wherein a force applying direction of the electromagnetic actuator as a force applying unit is the same as a direction in which at least one permanent magnet and at least one magnet yoke of the electromagnetic actuator attract each other. 5 . The anti-shake mechanism of the deflected camera device as described in claim 4 , wherein the at least one magnet yoke is arranged on an anti-shake base; the mechanism for holding the sliding portion comprises a first holder provided with a first permanent magnet and a second holder provided with a second permanent magnet, the first holder is held on the second holder through a first ball member in such a manner that the first holder freely rotates around the first rotation axis, the second holder is held on the anti-shake base by a second ball member different from the first ball member in such a manner that the second holder freely rotates around the second rotation axis, the ball member comprises the first ball member and the second ball member, and the at least one permanent magnet comprises the first permanent magnet and second permanent magnet; and with respect to the at least one magnet yoke arranged on the anti-shake base, the first permanent magnet of the first holder presses the first ball member and second ball member across the second holder. 6 . The anti-shake mechanism of the deflected camera device as described in claim 1 , wherein a device that changes an optical power of an image surface by moving two or more lens groups of the camera lens groups in the deflected optical axis is provided in the camera lens groups. 7 . The anti-shake mechanism of the deflected camera device as described in claim 1 , wherein the reflection member is a prism. 8 . The anti-shake mechanism of the deflected camera device as described in claim 1 , wherein the reflection member is a mirror. 9 . The anti-shake mechanism of the deflected camera device as described in claim 2 , wherein the electromagnetic actuator is a voice coil motor. 10 . The anti-shake mechanism of the deflected camera device as described in claim 2 , wherein a device that changes an optical power of an image surface by moving two or more lens groups of the camera lens groups in the deflected optical axis is provided in the camera lens groups. 11 . The anti-shake mechanism of the deflected camera device as described in claim 2 , wherein the reflection member is a prism or a mirror. 12 . A camera comprising an anti-shake mechanism of a deflected camera device the deflected camera device comprising an optical system, the optical system comprising a reflection member, and the anti-shake mechanism being configured to perform a handshake correction by rotating the reflection member in the deflected camera device, wherein the reflection member comprises a reflection surface configured to deflect an optical axis; the reflection member is arranged closer to an object side than camera lens groups in such a manner that the reflection member rotates around a first rotation axis and a second rotation axis being rotation axes, the first rotation axis being an axis perpendicular to a plane defined by an optical axis of the camera lens groups and an optical axis at the object side reflected by the reflection member, and the second rotation axis being an axis parallel to the reflected optical axis at the object side; a ball member is used as a sliding portion that enables the reflection member to smoothly rotate; and an electromagnetic actuator is provided to drive a driving member for rotation, and the electromagnetic actuator comprises a mechanism for holding the sliding portion and a shake elimination mechanism. 13 . The camera as described in claim 12 , wherein the reflection surface of the reflection member is symmetrical with respect to the first rotation axis and the second rotation axis, and the anti-shake mechanism is equipped with the electromagnetic actuator at an outermost portion. 14 . The anti-shake mechanism of the deflected camera device as described in claim 12 , wherein the electromagnetic actuator is a voice coil motor. 15 . The anti-shake mechanism of the deflected camera device as described in claim 14 , wherein a force applying direction of the electromagnetic actuator as a force applying unit is the same as a direction in which at least one permanent magnet and at least one magnet yoke of the electromagnetic actuator attract each other. 16 . The anti-shake mechanism of the deflected camera device as described in claim 15 , wherein the at least one magnet yoke is arranged on an anti-shake base; the mechanism for holding the sliding portion comprises a first holder provided with a first permanent magnet and a second holder provided with a second permanent magnet, the first holder is held on the second holder through a first ball member in such a manner that the first holder freely rotates around the first rotation axis, the second holder is held on the anti-shake base by a second ball member different from the first ball member in such a manner that the second holder freely rotates around the second rotation axis, the ball member comprises the first ball member and the second ball member, and the at least one permanent magnet comprises the first permanent magnet and second permanent magnet; and with respect to the at least one magnet yoke arranged on the anti-shake base, the first permanent magnet of the first holder presses the first ball member and second ball member across the second holder. 17 . The anti-shake mechanism of the deflected camera device as described in claim 12 , wherein a device that changes an optical power of an image surface by moving two or more lens groups of the camera lens groups in the deflected optical axis is provided in the camera lens groups.