RU2023816C1 - Earthquakeproof foundation - Google Patents

Abstract

FIELD: construction. SUBSTANCE: foundation has lower trough-shaped and upper plates, rolling bodies in the form of cylinders and cylinders longitudinal and transversal movements limiters. Cylinders are located between plates radially. Limiters of longitudinal movements are made as subtend upper and lower walls, that are fixed correspondingly to upper and lower plates and are located opposite butts of cylinders, facing axis of foundation. Limiters of transversal movements are made as walls, that are fixed to lower plate and radially located between cylinders. Side surfaces of the walls are curvilinear. EFFECT: earthquakeproof foundation is used in construction. 5 dwg

Description

 The invention relates to the construction, and can be used in the construction of high-rise buildings, structures in seismic regions.

 A well-known foundation bearing a hollow barrel, a supporting structure and disconnecting links located around the perimeter of the supporting structure and connecting the latter with the foundation, equipped with seismic isolating devices and additional disconnecting links, while the supporting part of the trunk has a smaller cross section and is connected to the barrel with a bell-shaped part, and the supporting structure made in the form of a cantilever plate, rigidly attached by the central part to the lower end of the support part of the barrel and mounted on the foundation with a gap in which m seismic isolating devices are placed, and the trunk is connected to the foundation by means of additional disconnecting links located along its perimeter.

 The disadvantage of this foundation is the implementation of the support part of the trunk of a smaller section and the connection with the trunk of the socket part, which causes additional (besides the action of seismic forces) bending moments of different signs in the support part of the trunk of a smaller section and the socket part in the form of rotation of the trunk by a certain angle.

 The closest in technical essence to the proposed solution is the foundation in which a rod is mounted in the upper plate, resting on the lower plate. In this case, the upper plate is also supported by means of balls.

 Lack of foundation wedging balls.

 The purpose of the invention is to simplify the design and installation, increase reliability and the possibility of repair work.

 This goal is achieved by the fact that in the earthquake-resistant foundation, including round in plan lower trough-shaped and upper plates, in the gap between which there are mobile elements in the form of rolling bodies, the rolling bodies are made cylindrical and oriented in the radial direction, while the foundation is equipped with placed between the plates and with a gap relative to the rolling bodies, movement limiters, one of which is made in the form of opposite upper and lower walls, rigidly attached to the plates of the same name and placed along circles opposite the ends of the rolling bodies facing the foundation axis, and others in the form of radial walls extending downwardly attached to the bottom plate and placed between the rolling bodies with curved side surfaces whose convexity faces the axis of the corresponding wall.

 Figure 1 shows the earthquake-resistant foundation in plan; figure 2 - section aa in fig. 1 scan of half of the earthquake-resistant foundation); figure 3 is a fragment of the pairing of rolling elements with plates; figure 4 is a section bB in figure 1; figure 5 - section bb in figure 1.

 An earthquake-resistant foundation includes a lower trough-like plate 1, an upper plate 2, cylindrical rolling bodies 3 located between plates whose axes are oriented along radial guides, and movement limiters 4 of rolling elements in the form of radially expanding downward walls with curved side surfaces whose convexity faces the axis of the corresponding wall, movement stops 5, 6 of the rolling elements, placed between the plates and with a gap relative to the rolling elements, rigidly attached to the lower and upper plates respectively Naturally, the frame 7 of curved travel stoppers made of alloy steels, steel pipes 8, 9 defining the lateral surfaces of cylindrical rolling elements made of alloy steels, frame 10, the material of which is alloy steel, dampers 1 made of steel leaf springs placed between the side of the bottom plate 1 and the top plate 2 (along the foundation contour with an interval).

 An earthquake-resistant foundation is erected in this order.

 A lower trough-like plate 1 is constructed with a device of radially expanding downward-facing walls of the movement stops 4 and the movement stops 6. The plate 2 with the movement stops 5 and the cylindrical rolling bodies 3 are made at the factory of reinforced concrete products. In this case, the plate 2 can be made in parts and assembled at a mounting with a rigid mount, it can also be made monolithic in place, after mounting the rolling elements. Mount the cylindrical rolling bodies 3. Then install the plate 2. After that, the dampers 11 are attached to the sides of the lower plate 1 and the upper plate 2 at intervals.

 Earthquake-resistant foundation works as follows.

 Under the action of seismic forces, the cylindrical rolling bodies 3 roll, reducing the magnitude of the seismic effect. Under the action of a seismic load, not along the main diameter of the foundation, but with displacement, all cylindrical rolling bodies roll. Otherwise, the two opposite rolling bodies are skidded.

 Earthquake-resistant foundation materials: lower 1 and upper 2 slabs, movement limiters 4 - reinforced concrete; travel stops 5, 6, frame 7; pipes 8, 9 - low alloy steel; dampers 11 - steel.

 The described earthquake-resistant foundation will find wide application in earthquake-resistant construction, as it is easy to manufacture, reliable in operation.

Claims (1)

 SEISMIC RESISTANT BASE, including round in plan lower trough-shaped and upper plates, in the gap between which there are movable coupling elements in the form of rolling bodies, characterized in that the rolling bodies are made cylindrical and oriented in the radial direction, while the foundation is provided between the plates and with a gap relative to the rolling elements, displacement limiters, some of which are made in the form of opposite upper and lower walls, rigidly attached to the plates of the same name and placed around the circumference having tipped the ends of the rolling bodies facing the foundation axis, and others in the form of radial walls extending downwardly attached to the bottom plate and placed between the rolling bodies with hemorrhagic lateral surfaces, the convexity of which faces the axis of the corresponding wall.

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