RU2005156C1 - Earthquake-proof building, structure - Google Patents

Abstract

Usage: construction of earthquake-resistant buildings, construction Summary of the invention: the foundation consists of upper and lower support elements and a movable communication element located between them with a convex curvilinear lower support surface and a movably fixing axial element in the upper part. The center of curvature of at least the central portion of the lower supporting surface of the mobile element is located on the axis of the foundation within the height of the foundation of the building, structure. The supporting surface of the lower supporting element is either flat or concave curvilinear with a center of curvature outside the height of the building, structure. The upper supporting element can be installed to form a gap between its lower surface and the upper surface of the mobile communication element. A damping pad is installed in the gap, through which a fixing axial element is passed through an opening. The upper surface of the mobile element may be convex with a radius of curvature equal to or greater than the radius of curvature of its lower surface. The movable communication element can be made in height with at least one change in the cross-sectional area and the formation in the upper part of the base stand rigidly connected to its lower part. 3 zlfs, 6 silt

Description

The invention relates to the field of construction, namely to structures of earthquake-resistant buildings, structures.

An earthquake-resistant building is known, a structure including an upper h lower support element and an element of movable communication between them with curvilinear upper and lower ends located freely between them and niches formed in the support elements 1

The closest technical solution to the invention is an earthquake-resistant building, a structure comprising a foundation and a foundation, consisting of an upper and lower support elements and a movable communication element located between them with a convex curved lower support surface and a movably fixing axial element e of the upper part 2 .

 A disadvantage of the known construction is that it does not determine the relationship between the curvature of the mobile communication element and the surface of the lower support element, which is a necessary condition for mobility under horizontal loads, as well as sufficient stability in the absence thereof.

The objective of the invention is to increase the seismic resistance, reliability of the building, structure and its stability.

This problem is solved due to the fact that in an earthquake-resistant building, a structure including a foundation part and a foundation consisting of upper and lower support elements and a movable communication element located between them with a convex curvilinear lower support surface and a movably fixing axial element in the upper part , the center of curvature of at least the central portion of the lower supporting surface of the mobile element is located on the axis of the foundation within the height of the foundation of the building, structure, and the supporting the surface of the lower supporting element is either flat or concave curvilinear with a center of curvature located outside the height of the building or structure.

In this case, the upper supporting element can be installed with the formation of a gap between its lower surface and the upper surface of the mobile communication element, and in the gap there is a supporting damping pad with a central hole through which the movably fixing axial element is passed. The mobile communication element can be made convex pryprypnognogty r diugric curvature co

which is equal to or more than the radius of curvature of its lower surface, the movable coupling element can be made in height with at least one change in the cross-sectional area and the formation in the upper part of the base stand rigidly connected to its lower part and having the shape of a prism, or cylinder, or truncated cone, or truncated pyramid.

Figure 1 shows a perspective view of a building with the foundations of the proposed design; figure 2 is a fragment of the foundation, side view in the absence of horizontal

5 impacts; in Fig.3 - the same, with horizontal exposure x; Fig. 4 shows a mobile communication element in a perspective view; figure 5 is the same, an embodiment of a mobile element with a foundation rack in

0 top; Fig. 6 shows a mobile communication element with lower and upper curved convex supporting surfaces, a view of a shed.

The proposed building

5 includes the supra-foundation part 1 and the foundation 2, consisting of upper 3 and lower 4 support elements and a movable communication element 5 located between them with a convex curvilinear lower support

0 surface 6 and a movable locking axial element 7 in the upper part The center of curvature of at least the central section 8 of the lower supporting surface 6 is located on the axis 9 of the foundation 2 within the height of the supra-foundation part 1 of the building, structure, and the supporting surface 10 of the lower supporting element 4 is made either flat or concave curvilinear with a center of curvature located behind

0 limits of the height of the building, structure.

The upper supporting element 3 can be installed with the formation of a gap 11 between its lower surface 12 and the upper surface 13 of the movable coupling element 5, moreover, in the gap 11 there is a bearing damping pad 14 with a central hole 15 through which the movably fixing axial element 7 is passed The mobile element 5 can be made with a convex upper surface 16, the radius of curvature R. of which is equal to or whiter than the radius of curvature R of its lower surface 6

The mobile element 5 may be

5 is made in height with at least one change in cross-sectional area and the formation in MI hour of a foundation rack of 17 h-i sg / hnsn with its lower thu; u, i m, h ShchRP configuration

truncated cone, or truncated pyramid

The foundation works as follows

 by the action of horizontal force, the movable coupling element 5 rolls over the lower support element 4. while simultaneously rotating around the movably fixed axial element 7, which is essentially a hinge joint,

Due to the fact that the radius of curvature of the lower supporting surface of the mobile communication element is greater than its height H, a returning moment arises from vertical forces (building weight), which provides the mobile communication element and, accordingly, the building, structure, stable equilibrium. With seismic displacements of the base, a building, structure,

by inertia, it experiences less jolts, because a significant part of seismic energy is spent on the spatial movement of the mass of the building, structure, and on the movement of mobile communication elements, which are rolled along the lower support elements with simultaneous rotation relative to the fixing axial elements.

The invention makes it possible to reduce the horizontal connection of the building, the structure with the base due to the ability of the mobile communication elements to move when there is a constructive connection with the building, structure, ensuring its stable equilibrium.

(56) 1. USSR Certificate of Authorship No. 666266, cl. E 04 H 9/02, 1979

2. Copyright certificate of the USSR No. 316817.cl. E 02 D 27 / 34.1965

Claims (3)

1. SEISMIC-RESISTANT BUILDING, STRUCTURE, including the over-basement part and the foundation, consisting of upper and lower support elements and a movable connection element located between them with a convex curved lower support surface and a movably fixing axial element in the upper part, characterized in that the center of curvature n, at least of the central portion of the lower abutment surface of the mobile element is located on the axis of the foundation within the height of the supra-foundation part of the building, structure, and the abutment surface izhnego support member is formed either flat or curved concave with center of curvature located outside the cell vts- buildings, construction. 2. The building structure according to claim 1, characterized in that. what is the upper supporting element is installed to form a gap between the lower surface and the upper surface of the movable coupling element, and a carrier damping pad with a central hole is installed in the gap through which the movably fixing axial element is passed. 3. The building, construction according to claim 1, characterized in that the mobile communication element made with a convex upper surface, the radius of curvature of which is equal to or more than the radius of curvature of its lower surface, 4, Building, construction according to claims 1 to 3, characterized in that the element is movable The connection is made in height with at least one change in the cross-sectional area and the formation in the upper part of the foundation rack, rigidly connected to its lower part and having the configuration of a prism, or cylinder, or a truncated cone, or a truncated pyramid. u fi & 1 Wi / zE (rigZ fifteen ft Fm.4