RU2188907C1 - Foundation of earthquakeproof building on colonnade located in basement - Google Patents

Abstract

FIELD: construction engineering, particularly, designs of foundations of earthquakeproof buildings. SUBSTANCE: foundation includes located in basement vertical pipes-columns and underground box-shaped structure with holes in bottom to pass pipes-columns, and also supporting structure made in the form of plate or band foundation mat. Supporting structure may also be made in the form of plate or band foundation mat located on walls of underground box-shaped structure and provided with trestle structure resting on walls of box-shaped structure and, at the top, it is located between rigid limiters installed on building foundation plate. EFFECT: higher seismic stability of buildings, structures. 3 cl, 5 dwg

Description

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

 The construction of the foundation of an earthquake-resistant building is known, including a colonnade protruding above the soil surface (see Borges J. F., Ravara A. Design of reinforced concrete structures for seismic areas, Moscow, Stroyizdat, 1978, p. 136, Fig. 61, 78, 80) .

 The disadvantage of this design is the low bearing capacity of the colonnade, which can be destroyed due to insufficient strength of the inclined sections of the column, buckling of the reinforcement or due to uncontrolled resonant buildup.

 The foundation of an earthquake-resistant building is also known, including a box-like structure filled with granular material, a base plate placed on a granular material, which is made with through holes, and the box-shaped structure is equipped with vertical racks placed on the bottom, passed into the through holes of the base plate (see.a. . SU 699107, 11/30/1979, E 02 D 27/34).

 In this design, the shortcomings of the previous solution are smoothed out by additional support of the columns and the damping effect from the bulk material side, however, the degree of this smoothing is not controlled and the threat of column destruction remains.

 The closest construction in essence and the technical result achieved is the construction of the foundation of an earthquake-resistant building located in the basement, and including a box-shaped system with vertical struts-piles and a high grillage, while vertical struts-piles are passed through holes in the floor plate of the basement floor, and the grillage is located on top of the uprights-piles with gaps relative to the walls of the basement floor, which are filled with elastic material (see.with. SU 962558, 09.30.1982, E 02 D 27/34).

 The technical result provided by the invention is to increase the earthquake resistance of a building, structure.

 This problem is solved due to the fact that the foundation of an earthquake-resistant building according to the invention includes vertical pile columns located in the basement and an underground box structure with holes in the bottom through which the pile columns are passed, as well as a supporting structure, which is made in the form of a slab or strip grillage, located on the stilts-columns and has a gap with the walls of the box-shaped structure, into which elastic limiters and a dry friction element are inserted with a gap, or the supporting structure is made in the form plate or tape grillage, located on top of the walls of the underground box-shaped structure and equipped with a gantry structure, resting on the bottom of the walls of the box-shaped structure, and located at the top between the rigid limiters installed on the foundation plate of the building, and elastic limiters and a dry element are installed between the gantry structure and rigid limiters friction, and pile-columns passed through holes in the plate, form a two-span structure - inside the box structure and above it.

In the foundation of the pile-columns can be additionally reinforced with horizontal transverse grids, and in the center of the pile-columns installed rigid reinforcement,
Also in the foundation of the pile-columns can be made of circular cross-section in a metal or reinforced concrete cage, which is not brought to the lower and upper faces of the columns.

The design is illustrated by drawings, where:
figure 1 shows a General view of the foundation, ending on the surface of the earth;
in FIG. 2 is a general view of the foundation with a two-span construction of pile columns, as well as a gantry structure arranged;
figure 3 - construction of reinforcing columns, top view;
figure 4 is a section along the line 1-1 in figure 3;
figure 5 is an enlarged view of the node I in figure 1 and figure 2.

 The foundation of an earthquake-resistant building includes vertical pile columns 2 located in the basement and an underground box structure 1 with holes in the bottom through which column columns 2 are passed, as well as a supporting structure 3, which is made in the form of a slab or a tape grill, located on piles - columns 2 and has a gap with the walls of the box-shaped structure 1, into which elastic limiters 5 and the dry friction element 6 are inserted with a gap, or the supporting structure 3 is made in the form of a plate or a tape grill, located on top on the walls of the underground box-shaped structure 1 and is provided with a gantry structure 7, based on the bottom of the walls of the box-shaped structure 1, and at the top located between the rigid limiters 8 installed on the foundation plate of the building 4, and between the gantry structure 7 and the rigid limiters 8 installed elastic limiters 5 and the element dry friction 6, and the pile-columns 2 are passed through holes in the plate 3, form a two-span structure - inside the box structure 1 and above it.

 In this case, the pile columns 2 are additionally reinforced with horizontal transverse grids 9, and a rigid reinforcement 10 is installed in the center of the pile columns 2.

 Piles-columns 2 are made of circular cross section in a metal or reinforced concrete cage 12, which is not brought to the lower and upper faces of the columns. Cross grids 9 will increase the strength of inclined sections and the stability of the main reinforcement 11, and the rigid reinforcement 10, having taken up the main vertical load, will reduce the load of the main reinforcement 11, while the cage 12 around the pile-column 2 will not allow loss of stability of the main reinforcement and will lead to the growth of the strength of the column in transverse and inclined sections. The holder should not be brought to the upper and lower faces of the pile-column 2, in order to reduce the longitudinal force transmitted to it by the bending of the column and thereby protect it itself from loss of stability.

Claims (3)

 1. The foundation of an earthquake-resistant building, characterized in that it includes vertical pile columns located in the basement and an underground box structure with holes in the bottom through which the pile columns are passed, as well as a supporting structure, which is made in the form of a plate or a tape grill, located on the stilts-columns and has a gap with the walls of the box-shaped structure, into which elastic limiters and an element of dry friction are inserted with a gap, or the supporting structure is made in the form of a plate or a tape grinder ka, is located on top of the walls of the underground box-shaped structure and is equipped with a gantry structure that rests on the bottom of the walls of the box-shaped structure and is located above the rigid limiters installed on the foundation plate of the building, and elastic limiters and a dry friction element are installed between the gantry structure and rigid limiters, and pile columns are passed through holes in the plate, form a two-span structure - inside the box structure and above it.  2. The foundation according to claim 1, characterized in that the pile columns are additionally reinforced with horizontal transverse grids, and rigid reinforcement is installed in the center of the pile columns.  3. The foundation according to claim 1, characterized in that the pile columns are made of circular cross section in a metal or reinforced concrete cage, which is not brought to the lower and upper faces of the columns.

Images