JP2011127618A5 - - Google Patents

Description

The pipe support structure of the present invention made for this purpose is provided with a vibration control mechanism in a structure composed of columns and beams, or columns and girders, without repairing the piping system, The gist of the invention is to provide a pipe support structure capable of improving seismic performance. That is, the pipe support structure of the present invention is erected from the installation surface, arranged with a gap in the radial direction of the pipe, and a plurality of struts repeatedly arranged with a gap in the axial direction of the pipe, It is comprised from the support frame provided with the beam supported by a support | pillar along radial direction, the girder supported by a support | pillar along an axial direction, and piping supported by the support point on a beam. The pipe support structure of the present invention includes a first seismic control mechanism provided on one or two or more first construction surfaces composed of struts and beams adjacent in the radial direction, struts and girders adjacent in the axial direction. And a second vibration control mechanism provided on one or two or more second structural surfaces , each of which includes at least two or more continuous pipe support structures. The characteristic is tuned .

A damper member can be used as the first damping mechanism or the second damping mechanism of the present invention. By providing the damper member in the composition surface, the damping performance of the composition surface can be improved. As the damper member, known members such as a shaft yield type damper, a shear panel type damper, and a friction type damper can be used.
As the first vibration control mechanism of the present invention, in addition to the damper member, a configuration in which the beam is provided with a cross-section decreasing portion whose characteristics are set in consideration of the influence of the vertical pipe load on both sides in the radial direction centering on the support point Can be. In this configuration, the bending energy is generated by bending and yielding the cross-section reducing portion due to the bending moment generated at both ends of the beam by the vibration.

Claims (6)

Standing up from the installation surface, arranged with an interval in the radial direction of the pipe, and a plurality of struts repeatedly arranged with an interval in the axial direction of the pipe,
A beam supported by the column along the radial direction;
A girder supported by the column along the axial direction;
A first seismic control mechanism provided on one or two or more first structural surfaces composed of the struts and the beams adjacent in the radial direction;
A support structure comprising: a second vibration control mechanism provided on one or two or more second structural surfaces composed of the struts adjacent to the axial direction and the girders;
The pipe supported at a support point on the beam;
A pipe support structure comprising:
When at least two or more of the pipe support structures are continuous, their vibration characteristics are tuned . The first vibration control mechanism is
The pipe support structure according to claim 1, wherein the pipe support structure is provided on the first structural surface including the beam having the support point where the radial movement of the pipe is restricted. The second vibration control mechanism is
The pipe support structure according to claim 1 or 2, wherein the pipe is provided on the second structural surface adjacent to the beam having the support point where the axial movement is restricted.   The piping support structure according to any one of claims 1 to 3, wherein the first damping mechanism or the second damping mechanism is a damper member. The first seismic control mechanism is a cross-section decreasing portion whose characteristics are set in consideration of the influence of a vertical pipe load provided on the beam on both sides in the radial direction around the support point. The piping support structure according to any one of 3.   The piping support structure according to any one of claims 1 to 5, further comprising a transition control mechanism that regulates displacement of one or both of the radial direction and the axial direction of the support frame.