Rotary inertia mass damper

The invention claimed is: 1. A rotary inertia mass damper, comprising: a first coupling portion, which is fixed to a first structure; a second coupling portion, which is coupled to a second structure; a screw shaft, which has a spiral thread groove formed in an outer peripheral surface of the screw shaft at a predetermined lead, and has one axial end connected to the first coupling portion; a fixed barrel, which has a hollow portion for receiving the screw shaft, and is connected to the second coupling portion; and a rotary body, which is retained so as to be freely rotatable relative to the fixed barrel, is threadedly engaged with the screw shaft, and is configured to reciprocally rotate in accordance with advancing and retreating movement of the screw shaft relative to the fixed barrel, wherein the rotary inertia mass damper is configured to damp vibration energy applied between the first structure and the second structure by imparting a rotation angle, which is uniquely determined by a change in distance between the first coupling portion and the second coupling portion and the lead of the screw shaft, to the rotary body, the rotary inertia mass damper further comprises a torque limiting member, which is provided between an axial end of the screw shaft and the first coupling portion, and is configured to, when a rotational torque that exceeds a predetermined value is applied to the screw shaft, allow rotation of the screw shaft relative to the first coupling portion to reduce a rotation angle of the rotary body, wherein the torque limiting member includes: a coupling shaft, which is connected to the first coupling portion so as to be non-rotatable; a transmission shaft, which is retained to the coupling shaft so as to be freely rotatable, and is retained to the screw shaft so as to be non-rotatable; and friction members, which are held in pressure-contact with the transmission shaft to stop rotation of the transmission shaft relative to the coupling shaft, wherein a rotary bearing configured to retain the transmission shaft so as to be freely rotatable has two roller rows in which rotation axes of rollers are cross each other at an angle of 90°, the rotation axes of the rollers of the respective roller rows being inclined with respect to an axial direction of the transmission shaft at an angle of 45°. 2. A rotary inertia mass damper, comprising: a first coupling portion, which is fixed to a first structure; a second coupling portion, which is coupled to a second structure; a screw shaft, which has a spiral thread groove formed in an outer peripheral surface of the screw shaft at a predetermined lead, and has one axial end connected to the first coupling portion; a fixed barrel, which has a hollow portion for receiving the screw shaft, and is connected to the second coupling portion; and a rotary body, which is retained so as to be freely rotatable relative to the fixed barrel, is threadedly engaged with the screw shaft, and is configured to reciprocally rotate in accordance with advancing and retreating movement of the screw shaft relative to the fixed barrel, wherein the rotary inertia mass damper is configured to damp vibration energy applied between the first structure and the second structure by imparting a rotation angle, which is uniquely determined by a change in distance between the first coupling portion and the second coupling portion and the lead of the screw shaft, to the rotary body, the rotary inertia mass damper further comprises a torque limiting member, which is provided between an axial end of the screw shaft and the first coupling portion, and is configured to, when a rotational torque that exceeds a predetermined value is applied to the screw shaft, allow rotation of the screw shaft relative to the first coupling portion to reduce a rotation angle of the rotary body, wherein the torque limiting member includes: a coupling shaft, which is connected to the first coupling portion so as to be non-rotatable; a transmission shaft, which is retained to the coupling shaft so as to be freely rotatable, and is retained to the screw shaft so as to be non-rotatable; a rotary bearing configured to retain the transmission shaft so as to be freely rotatable, and transmitted an axial load between the coupling shaft and the transmission shaft; and friction members, which are held in pressure-contact with the transmission shaft to stop rotation of the transmission shaft relative to the coupling shaft. 3. The rotary inertia mass damper according to claim 2 , wherein the rotary bearing has two roller rows in which rotation axes of rollers are cross each other at an angle of 90°, the rotation axes of the rollers of the respective roller rows being inclined with respect to an axial direction of the transmission shaft at an angle of 45°.