RU2378454C1 - Method for erection of slab-pile foundation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method for erection of slab-pile foundation includes arrangement of pile field and foundation slab with conical hollow holes arranged in it. In process of building erection access is provided to conical holes of slab-foundation grill, and as time elapses when slab-foundation grill achieves rated settling, which equals 1/2 of permissible value for this type of buildings, all conical holes are filled with concrete.

EFFECT: increased bearing capacity of foundation, reduced settling.

2 dwg

Description

The invention relates to construction and can be used in the construction of heavy structures on compressible soils in areas with high seismicity.

In accordance with the recommendations of SP 50-102-2003 “Design and construction of pile foundations” p.31 of clause 7.4.10 when calculating the sediments of pile-plate foundations, considering jointly the rigidity of piles and plates, it is approximately assumed that 85% of the total load on the foundation, on the slab 15%.

To increase the proportion of the load attributable to the plate, it is necessary to provide a different amount of sediment plate and plate-pile foundation. This is possible if the interaction plate and piles will begin after pellet stove undergo equal to _^half of the permissible values for a given type of building during construction of the building.

The bearing capacity of the slab depends on the characteristics of the soil located under it, and the magnitude of the independent movements of the grillage until the grillage is joined with piles. The total settlement of the structure should be less than recommended (Table E1, Appendix E, SP 50-101-2004 “Design and construction of the foundations and foundations of buildings and structures”, p.120).

A known method of constructing the foundation of a reservoir (RF Patent No. 2209884 C1, E02D 27/38, Bull. 22, 2003), in which wells for bored piles pass and fill them with concrete, leaving their upper part empty, then reinforcing cages and pipe sleeves are installed , which are fixed with grill reinforcement above the wells, and then, after hydrotesting and leveling the roll (if it appears), concrete is supplied through the sleeve tubes to fill the upper parts of the wells and turn bored piles into operation.

The disadvantage of this method is the ability to fill with concrete only those wells that are located at least part of their diameter outside the spot of an overground structure. With a regular grid of placement of bored piles under the building, it is not possible to fill all piles with concrete.

The invention is known (SU No. 1102857, bull. No. 26, 1984 - prototype), where the method of construction of the pile-slab foundation includes the device of the pile field and the base plate with conical hollow holes arranged therein. The aim of the invention is to improve the joint work of grillage and piles with soil base. Open bottom cups are formed in the lower part of the grillage, into which the pile heads are inserted, and the cups are made stepwise diverging downward. In the space between the lateral surface of the tip of each pile and the side walls of the broadened part of the glass, under its ledge, there are rows in rows of height latches attached to the tip of the pile and calibrated for a given load.

The disadvantage of this invention, which complicates its use in seismic regions, is the lack of a rigid connection between piles and grillage, which reduces the stability of the foundation under dynamic impacts. In seismic areas, it is proposed to break up the concrete of the pile heads and combine the reinforcement of the piles with the reinforcement of the grillage. In SNiP 2.02.03-85, clause 11.12, it is noted: "The upper ends of the piles should be embedded in the grillage to a depth determined by the calculation taking into account seismic loads."

The objective of the invention is to increase the perception of the stove share of the load transmitted from the structure to the foundation, and reduce its precipitation.

The problem is achieved due to the fact that in the method of erecting a pile-slab foundation, including the device of the pile field and the base plate with conical hollow holes arranged in it, during the construction of the building, they provide access to the conical openings of the grillage, and after a time during which the grillage slab reaches an estimated draft equal to Ѕ of the permissible value for this type of building, all conical openings are filled with concrete.

At the same time, the holes have a conical shape, allowing the piles to be included in the joint work of the pile-slab foundation after the formation of slab slab, determined only by the bearing capacity of the soil located directly under the slab. Due to the precipitation of the slab at the first stage, the base soil will be compressed and a significantly larger than 15% part of the load will be transferred to the slab.

After the plate receives maximum load-bearing capacity, piles are included in the work, the movements of which are limited by the conical shape of the hole, filled with heavy concrete with reinforcing cages to absorb the efforts of piling the body of the foundation plate with piles. The reinforcing outlets of the pile are rigidly embedded in the body of the foundation slab inside the conical holes, and the pile-slab foundation works together.

The invention is illustrated by drawings, where Fig. 1 shows a cross section of a construction site where a grill slab is being erected; figure 2 shows an enlarged fragment of a slab-grill with a node for installing a conical hole.

The method of erecting a pile-slab foundation is as follows: first, a pile field consisting of piles 2 is arranged, then a foundation slab 1 is made with conical hollow holes 3 made in advance so that during the construction of the building 8 access to the conical holes is provided 3. After a time, during which the plate-grillage 1 reaches the designed slumps equal to _^half of the permissible values for a given type of buildings, all tapered holes 3 are filled with concrete 4.

Reinforcing outlets 5 are left in piles 2 for subsequent docking of piles with grill slab 1. In this case, special reinforcing cages 6 are installed in the volume of the conical holes, which absorb the forces of pushing the slab 1 by piles 2, after which the holes 3 are filled with heavy concrete 4.

Reinforcing outlets 5 and reinforcing mesh 6 are necessary for the rigid joint of piles and the foundation plate.

At the initial stage, slab-grill 1 receives precipitation independent of the piles, compacting the foundation soil and increasing the percentage of stresses perceived by the slab part of the pile-slab foundation 1 from building 8. Piles 2 are included in the joint work after the slab reaches the calculated displacement.

Claims (1)

A method of constructing a pile-slab foundation, including a pile field and a foundation slab with conical hollow holes arranged in it, characterized in that during the construction of the building they provide access to the conical openings of the grillage slab and after the time during which the grillage slab reaches the estimated settlement equal to 1/2 of the permissible value for this type of building, all conical holes are filled with concrete.

Images