RU2130996C1 - Method of reinforcement of strip foundation - Google Patents

Abstract

FIELD: reconstruction of buildings. SUBSTANCE: method includes laying of reinforced concrete supporting members with through horizontal holes from both sides of foundation with definite spacing, and depth of burying not in excess of 10 cm. Laid between supporting members are small piece blocks. Tendons are passed through holes of supporting members and foundation and arranged between small piece blocks, and tensioned and anchored to supporting members. EFFECT: reinforced strip foundation with decreased labor input due to reduced earth excavation. 3 dwg

Description

 The invention relates to the construction and can be used in the reconstruction of buildings.

 There is a method of reinforcing foundations with an increase in area, where reinforced concrete blocks are laid along the perimeter of the base of the foundation, having outside, in the lower part of the furrow, into which reinforcement is laid, pulled by a jack to compact the soil [1].

 The closest technical solution is a method of strengthening the foundation, including installing along the perimeter of the foundation of the blocks. With the application of horizontal efforts to the blocks and foundations by compressing them with cords, passed through the pressure shields and the wall of the building [2].

 The disadvantage of these solutions is the high complexity due to the large volume of earthworks.

 The technical problem is to ensure the strengthening of the strip foundation with an increase in and insufficient bearing capacity of the soil while reducing labor costs by reducing excavation.

 The problem is solved in such a way that in the method of reinforcing the strip foundation with an increase in area, including laying out additional concrete blocks along the existing foundation, passing through the holes in the foundation of prestressed reinforcement with subsequent tensioning and fixing it on the blocks, according to the invention, they are installed on both sides along the existing foundation with a step with a depth of not more than 10 cm below the ground level, reinforced concrete supporting elements made with through horizontal holes, between in which small pieces are laid out along the foundation, prestressing reinforcement is passed through the holes of the supporting elements and the foundation and placed between small pieces, after which they are pulled and anchored on the supporting elements.

 The proposed method differs from the known one in that along the existing foundation, on both sides, reinforced concrete supporting elements are made with through horizontal holes with depth not more than 10 cm below the ground level, between which small piece blocks are laid out along the foundation, tensile reinforcement is passed through the holes of the supporting elements and foundation and placed between small pieces, after which they are pulled and anchored on the supporting elements.

 This allows you to increase the area of support almost at the level of the soil surface, significantly reduces the amount of earthwork and expands the possibility of applying additional loads, for example, when reconstructing buildings that are close to each other, including with insufficient bearing capacity of the soil.

 The method is illustrated in the drawing, in which in FIG. 1 shows a diagram of the reinforcement of the strip foundation in plan (fragment), FIG. 2 is the same in section, FIG. 3 is a general diagram of the reinforcement of a strip foundation (options).

 The method is carried out in the following sequence.

 Under the walls 1 of the building in the existing foundation 2, transverse through holes are punched in increments.

 Reinforced concrete support elements 3, made with through holes in mutually perpendicular planes, aligning one of the holes of the supporting element 3 with an opening in the foundation 2, are placed near the holes of the foundation 2 on both sides of the foundation with a depth of no more than 10 cm below the ground level. in the combined holes of the supporting elements 3 and the foundation 2, the prestressing reinforcement 4 is passed with the anchor 5 and pulled by a hydraulic jack 6, fixing it on one supporting element 3 and anchoring on the other. Then parallel to the foundation 2, between the supporting elements 3 are laid in two rows with a gap between the rows of small pieces 7, for example concrete blocks. In the gap between the rows of small-piece blocks 7, a prestressing reinforcement 8 is placed, passing it into the holes of the supporting elements 3, which is also pulled by a hydraulic jack, fixing with an anchor on one supporting element and fixing on the other. After which the gap between the rows of small piece blocks 7 monolithic concrete.

 EXAMPLE.

The need to strengthen the foundations of a 5-storey building during its reconstruction is associated with an increase in the load on the foundation with an increase in the number of storeys of the building to 7 floors. To do this, in the existing foundation 2 punch through the transverse holes with a diameter of 30 mm Reinforced concrete supporting elements 3 with a size of 450x450x300 mm with through holes in two mutually perpendicular planes are laid on both sides of the foundation with the displacement of one of the holes of the supporting element 3 with an opening in the foundation 2. Then, reinforcing bars 4 of diameter 14 of At-U1 class are passed through the foundation and supporting elements with anchor 5 at one end. The anchor fixes the reinforcement on one supporting element, then the reinforcement is pulled by a hydraulic jack 6 to a tensile force of 12 tons with a prestress σ _sp = 600 kg / cm ² , after which it is anchored on the other supporting element. Then, at a distance of 5 m, the same pair of supporting elements is installed and similarly connected to the old foundation 2 with prestressed reinforcement 4. Along the foundation from two sides with installed pairs of supporting elements, small pieces 7 are placed in two rows in size 390x190x188 mm with a gap between rows of 70 mm. In this gap, a rod reinforcement 8 with a diameter of class 14 At-U1 is laid and passed into the holes of the support elements parallel to the foundation and stretched to σ _sp = 6000 kg / cm ² . After tensioning the reinforcement, the gap between the rows of small piece blocks is monolithic with class B 15 concrete.

The location of the supporting elements, their number and the area of additionally installed concrete blocks is based on the calculation. In this case, additional loads from newly erected floors falling on this section of the foundation, the friction force between the old foundation and the installed blocks, the amount of prestress created in the reinforcement, and the reaction of the soil are taken into account. This ensures the joint work of the old strip foundation, installed concrete blocks and reinforced concrete supporting elements. In this case, the condition must be met
P _s • f> F _f • q • K,
where P _s is the pre-stress force, _f is the friction coefficient, F _f is the area of the foundation, q is the soil pressure on the bottom of the foundation, K is the safety factor.

 The proposed method is several times cheaper than known due to the exception of earthwork, while the bearing capacity of the foundation is proportionally increased by the number of installed supporting elements.

Sources of information:
1. SU Copyright certificate N 136528, cl. E 02 37/00, BI N 5, 1961.

 2. SU Copyright certificate N 718552, cl. E 02 27/00, BI N 8, 1980, (prototype).

Claims (1)

 A method of reinforcing a strip foundation with an increase in area, including laying out additional concrete blocks along the existing foundation, passing through the holes in the foundation of prestressed reinforcement with subsequent tensioning and securing it on the blocks, characterized in that along the existing foundation on both sides it is installed with a step with deepening no more than 10 cm below the ground level reinforced concrete support elements made with through horizontal holes, between which a small piece is laid along the foundation blocks were, prestressed reinforcement through holes and support elements arranged between the foundation and small sized blocks, then tensioned and zaankerivayut on the supporting elements.

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