TH112480A - Methods and structures for dampening the movement of buildings. - Google Patents

Abstract

DC60 damping arrangements for low, medium, and high-rise buildings (1), where the Bi-directional damping (5) like the Gensui viscous-elastic damping device has been installed. Between two parallel parts of a structure (1), such as a column (2) and an outer column (3), or between two Oscillation or deformation under bending or other shear forces of the structure (1) is dampened by an axial motion delay between two (2,3) parts and a motion dampening. Perpendicularly between two (2,3) parts simultaneously, protrusions (6,7,8) are used to improve the axial agency moment. And the way for Bi-directional damping (5) may be assembled in a dual manner. Working opposite And together to dampen shear or dynamic flexural forces in the perpendicular plane

Claims (7)

Claims (all) which will not appear on the advertisement page: Page 1 of 3 Claims 1. A building structure (1) comprising a first structural member (2) extending parallel to the vertical axis of the building structure (1), wherein the first structural member (2) is essentially self-supporting and capable of withstanding shear and flexural deformations, with the component of the shear or flexural deformations being along the horizontal axis of the building structure, a second structural member (3), proximal to the first structural member (2) and extending parallel to the vertical axis, wherein the first (2) and second (3) structural members are so arranged that said shear or flexural deformations will cause relative axial movement between the first (2) and second (3) structural members parallel to said first axis at a predetermined location along said vertical axis, and a plurality of vertically spaced damping stages, each of which comprising rigid cantilever members (6,7,8,10) extending outward from a first structural member (2) towards a second structural member (3), a plurality of biaxial dampers (5a, 5b), each having a damping capability along at least two different axes, a building structure (1), characterized in that the dampers are arranged in pairs, spaced vertically (5) along the vertical axis of the building structure (1), between the first structural members (2) and the second structural member (3), where each pair (5) of dampers (5a, 5b) comprises a first damper (5a) and a second damper (5b) arranged, spaced vertically, in a common area of the building structure (1), the first damper (5a) and the second damper (5b) being installed between the exterior portion of each cantilever and the second structural member (3), so as to provide axial damping along vertical axis and lateral damping along the horizontal axis, and such that, during such deformation under shear or bending of the first structural member (2) in said joint of the building structure (1), the first damper (5a) shall be subject to one of the tensile (T) or compression (C) forces along one of the three damping axes, while the second damper (56) shall be subject to another tensile (T) or compression (C) force along one of its damping axes. 2. The building structure (1) of claim 1, wherein the projecting members (6, 7, 8) shall be walls of the building structure (1). 3. The building structure (1) of any one of the preceding claims, wherein at least one of the first and second dampers (5, 5a, 56, 32) is a viscoelastic damping device. 4. The building structure (1) of any of the preceding claims, wherein a member of the first structural member (2) and second structural member (3) is a first column of the building structure (1) and another member of the first structural member (2) and second structural member (3) is either a perimeter column of the building structure (1) or a second column of the building structure (1). 5. A method of damping movement in a building structure (1) comprising a first structural member (2) extending parallel to the vertical axis of the building structure (1), wherein the first structural member (2) is essentially self-supporting and capable of receiving deformation under shear or bending, with the components of the deformation under shear or bending being along the horizontal axis of the building structure (1), the method comprising: a first step of arranging a second structural member (3) proximal to the first structural member (2) and extending parallel to the vertical axis, wherein the first (2) and second (3) structural members are so arranged that such deformation under shear or bending will cause: Movement along the relative axis between the first (2) and second (3) structural members parallel to said first axis at a first predetermined position along said vertical axis, the second step of providing a plurality of vertically spaced damping stages, each of which comprises a rigid cantilever member (6,7,8,10) extending outward from the first structural member (2) towards the second structural member (3), wherein the method is characterized in that: the second step includes providing a plurality of biaxial or multiaxial dampers in pairs, spaced vertically along the vertical axis of the building structure, between the first and second structural members, page 3 of 3, each pair of dampers comprising a first and a second damper provided, spaced vertically, in a common area of the building structure, the first and second dampers (5a, 5b) being installed between the exterior portions of each frame. The second structural member (3) shall be provided with axial damping along the vertical axis and lateral damping along the horizontal axis, and such that, during such deformation under shear or bending of the first structural member (2) in the said joint region of the building structure (1), the first damper (5a) shall be in one of the tension (T) or compression (C) forces along one of its damping axes, while the second damper (5b) shall be in the other of the tension (T) or compression (C) forces along one of its damping axes. 6. The method of claim 5, wherein the first and/or second damping means (5, 5a, 5b, 32) are viscoelastic damping devices. 7. Method 1 of claim 5 or 6, wherein one part of the first and second structural members (2) is a first column of the building structure and the other part of the first and second structural members (3) is a perimeter column of the building structure (1) or a second column of the building structure (1).