RU2603317C1 - Seismic-isolating system "pile in pipe in downtake well" - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used in designing and construction of residential, public and industrial buildings and structures. Seismic-isolation system “pile in pipe in downtake well” consists of building on piles foundation with high grillage surrounded by retaining wall, seismic deformation seam between building and retaining wall, reinforced concrete piles located inside pipes, rigidly braced with grillage in upper part, buried in bearing soils of 1 or 2-nd categories of seismic properties with lower part, turning off links between piles and pipes' top part, top of which is located between elevations of retaining wall foot and bottom of grillage. Pipes' top is located at bottom of downtake well intermediate grillages between upper grillage and bottom of well are braced with piles-columns forming one or more underground levels. In level of each grillage turning off and/or turning on bracings between grillages and well are installed. Dry friction damper is attached to upper grillage and well bottom. Seismic seam is located between bottom and walls of downtake well. Seismic deformation seam is located between building and downtake well top.

EFFECT: technical result consists in reduction of intensity of seismic effect on building using underground space, reduced diameter, length of used pipes, increased number of adaptation variants of seismic isolating system.

8 cl, 1 dwg

Description

The invention relates to the construction and can be used in the design and construction of residential, public and industrial buildings, structures.

Known seismic-insulating system “pile in a pipe”, consisting of a building on a pile foundation with a high grillage, surrounded by a retaining wall, a deformation seismic seam between the building and the retaining wall, reinforced concrete piles located inside the pipes, in the upper part rigidly connected to the grillage, the lower part buried in bearing soils of the 1st or 2nd category for seismic properties, breaking off the connections between piles and the upper part of the pipes, the top of which between the marks of the sole of the retaining wall and the bottom of the grillage (Gaipov S.K. of seismic insulating system “pile in a pipe” with inelastic connections. Magazine “Earthquake-resistant construction. Safety of structures”. 2014. No. 1). A disadvantage of the known design is the non-use of the underground space under the building, the large length and diameter of the pipes used to prevent them from colliding with piles, the absence of dry friction to damp vibrations, the lack of adaptation options for the building during an earthquake, and the low rigidity of the retaining walls.

The technical task is to use the underground space under the building, reduce the diameter and length of the pipes used, excluding collisions with piles, damping vibrations, increase the adaptation options of the building during an earthquake, and reduce the seismic effect on the building.

The problem is solved in that the seismic-insulating system “pile in a pipe in a lowering well” consists of a building on a pile foundation with a high grillage surrounded by a retaining wall, a deformation seismic seam between the building and the retaining wall, reinforced concrete piles located inside the pipes, in the upper part of the rigidly connected with a grillage, the lower part buried in bearing soils of the 1st or 2nd category for seismic properties, disconnecting the connections between piles and the upper part of the pipes, the top of which between the marks of the sole of the sub of the wall and the bottom of the grillage, and the top of the pipes is at the bottom of the lowering well, between the upper grillage and the bottom of the well, intermediate grillages, forming one or more underground floors, are connected to the pile-columns, at the level of each grillage disconnecting and / or switching on connections between the grillages and well, a dry friction damper is attached to the upper grillage and the bottom of the well, an anti-seismic seam is located between the bottom and the walls of the lowering well, the deformation seismic is located between the building and the top of the lowering count one.

Between adjacent grillages, piles-columns can be placed on and / or off the connection, the diaphragm stiffness in different combinations:

- switching on and / or switching off links are placed between adjacent grillages;

- between the grillages installed diaphragms of rigidity;

- between the grillages installed diaphragms of rigidity and turning on or off the connection;

- between stilts-columns installed diaphragms of rigidity;

- between stilts-columns installed diaphragms of rigidity and turning on or off the connection;

- between stilts-columns and grillages installed diaphragms of rigidity;

- between stilts-columns and grillages installed diaphragms of rigidity and turning on or off the connection.

A downhole will allow the use of underground space. The seismic intensity decreases with increasing depth. A drop well of cylindrical shape will contribute to the reflection of seismic waves. Cross sections of piles with the largest vibration amplitudes will be removed from the top of the pipes, which will reduce their diameter and length of the pipes.

The dry friction damper will increase the logarithmic decrement - increase the damping of vibrations.

Turning on and off the connection will not allow resonant phenomena to occur in the building.

The combination of on and off connections, stiffness diaphragms will give the necessary rigidity and bearing capacity of the underground part of the building.

In FIG. 1 shows a diagram of a seismic isolating system “pile in a pipe in a lowering well”.

The “pile in a pipe in a lowering well” seismic-isolating system consists of reinforced concrete pile columns (1) located inside the pipes (2), in the upper part rigidly connected to the grillage (3), the lower part buried in the bearing soils of the 1st or 2nd category of seismic properties, disconnecting connections (4) between piles and the upper part of the pipes, the top of the pipes is on the bottom (5) of the lowering well (6), between the upper grillage (3) and the bottom of the well, intermediate grillages (7) ), forming one or more underground floors, in the level of each dry-friction damper (9) is connected to the upper grillage and the bottom of the well, an anti-seismic seam (10) is located between the bottom and the walls of the lowering well, a deformation seismic rod (11) is located between the building and the top of the downhole.

Claims (8)

1. The seismic-insulating system “pile in a pipe in a lowering well”, consisting of a building on a pile foundation with a high grillage, surrounded by a retaining wall, a deformation seismic seam between the building and the retaining wall, reinforced concrete piles located inside the pipes, in the upper part rigidly connected to the grillage, seismic properties buried in the lower part of the 1st or 2nd category buried in bearing soils, breaking off the connections between piles and the upper part of the pipes, the top of which between the marks of the sole of the retaining wall and the bottom of the grillage, in that the top of the pipes is at the bottom of the lowering well, between the upper grillage and the bottom of the well, intermediate grillages connecting one or more underground floors connected to the pile piles, disconnecting and / or turning on connections between the grillages and the well are installed at the level of each grillage, to a dry friction damper is attached to the upper grillage and the bottom of the well, an anti-seismic seam is located between the bottom and the walls of the lowering well, the deformation seismic is located between the building and the top of the lowering well. 2. The seismic isolation system according to claim 1, characterized in that the switched on and / or turned off connections are placed between adjacent grillages. 3. The seismic isolation system according to claim 1, characterized in that a stiffness diaphragm is installed between the grillages. 4. The seismic isolating system according to claim 1, characterized in that between the grillages installed diaphragms of rigidity and the connection on or off. 5. The seismic isolating system according to claim 1, characterized in that diaphragms of rigidity are installed between the pile piles. 6. The seismic isolating system according to claim 1, characterized in that between the piles-columns are installed diaphragms of rigidity and switching on or off the connection. 7. The seismic isolating system according to claim 1, characterized in that a stiffness diaphragm is installed between the column piles and grillages. 8. The seismic isolating system according to claim 1, characterized in that between the piles-columns and grillages are installed diaphragms of rigidity and switching on or off the connection.

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