RU108054U1 - STRENGTHENING BASE STRENGTH - Google Patents

Abstract

 1. The construction of reinforcing the foundation, including a monolithic reinforced concrete slab with holes in which the piles are arranged, characterized in that the monolithic reinforced concrete slab is equipped with embedded parts and is located in the lower part of the foundation, and its ends are brought under the base of the foundation, while the piles are made injection, and reinforcing cages of injection piles are welded with embedded parts of a monolithic reinforced concrete slab. ! 2. The foundation reinforcement design according to claim 1, characterized in that monolithic reinforced concrete beams are used as a monolithic reinforced concrete slab. ! 3. The foundation reinforcement structure according to claim 1, characterized in that a perforated injection tube is used as the reinforcing cage of the injection pile.

Description

The utility model relates to construction, namely, to the field of reinforcing strip and columnar, shallow laying and pile foundations using injection piles, and can be used in industrial and civil construction for the reconstruction and restoration of buildings and structures mainly in clay saturated soils.

Known structures for reinforcing tape and columnar, shallow laying and pile foundations, in which the method of transferring the load is carried out using a continuous or intermittent monolithic reinforced concrete slab. A monolithic reinforced concrete slab is arranged under reinforced foundations with the establishment of its supporting part under their sole. (A. Polishchuk, “Fundamentals of the design and construction of foundations of reconstructed buildings. - 3rd ed., Supplement. - Northampton: STT; Tomsk: STT, 2007. - 476 s, p. 360). The disadvantage of this reinforcement design is the high complexity and material consumption, since the reinforcement plate is arranged under the entire area of the existing building. The second significant drawback of such a reinforcement design is the formation of a large compressible thickness in the base soil, which will cause the development of additional sediments of reinforced foundations, as well as neighboring buildings.

The foundation reinforcement design, presented on p.358 of the publication “A. Polishchuk,” was adopted as a prototype. Fundamentals of design and construction of foundations of reconstructed buildings. - 3rd ed., ext. Northampton: STT; Tomsk: STT, 2007. - 476 s. " Such a reinforcing structure includes a monolithic reinforced concrete slab with conical holes made during its concreting. Composite reinforced concrete piles are loaded into the holes, which transfer the load to more durable layers of the base. The inclusion of these piles is carried out using a cement-sand mortar, which filled the cone holes. The main disadvantage of this design is its complexity and material consumption, since a reinforced concrete monolithic slab is arranged between the bearing walls throughout the entire area of the existing building. Piling is carried out using a long-stemmed hydraulic jack. The second disadvantage is the low strength of the interface node, as a result of which the joint work of the piles with the reinforcement foundation will not be ensured.

The objective of the presented utility model is to reduce the complexity when performing work to strengthen the foundation, ensuring the joint work of piles with a monolithic structure. The technical result, which provides a solution to the problem, is to increase the reliability and strength of the reinforcement foundation, which perceives and transfers the load to more durable layers of base soil.

The problem is solved as follows. Like the prototype, the claimed foundation reinforcement design includes a monolithic reinforced concrete slab with holes in which piles are arranged.

Unlike the prototype, a monolithic reinforced concrete slab according to a utility model is equipped with embedded parts and is located in the lower part of the foundation. The ends of the monolithic reinforced concrete slab are brought under the sole of the foundation. The difference is also that the piles are made by injection, and the reinforcing cages of injection piles are welded with embedded parts of a monolithic reinforced concrete slab. In a particular case, the perforated injection tube serves as the reinforcement cage of the injection pile. It is also advisable to use monolithic reinforced concrete beams as a monolithic reinforced concrete slab. This simplifies the foundation reinforcement design and reduces labor intensity. Since the ends of reinforced concrete beams are brought under the base of the foundation, reinforced concrete beams absorb the load from existing foundations and perform the function of thrust beams. Moreover, the ends of the thrust beams located under the sole of the reinforced foundation can be made of various sections in height.

The inclusion of piles with thrust beams is carried out by transferring the load to the pile with subsequent unloading. A monolithic reinforced concrete thrust beam accepts part of the load from an existing building, which is transmitted to injection piles arranged in its holes, securely fixed with welded metal embedded parts. The implementation of the reinforcement design in the inventive utility model allows for reliable joint operation of the constructed reinforcement foundations with existing foundations and transfer of the load to more durable layers of the base soil.

Thus, the implementation of the reinforcement according to the claimed design makes it possible to ensure reliable joint operation of the constructed reinforcement foundations with existing reinforced concrete strip and columnar, shallow laying and pile foundations and transfer of the load to more durable layers of base soil. It is obvious that the implementation of this gain design is more technologically advanced and less time-consuming in comparison with the prototype.

The applicant does not know devices containing the claimed combination of features characterizing a utility model. This confirms its novelty.

Figure 1 presents a diagram of a device for the construction of reinforcement of existing foundations (for example, pile belt foundations). Figure 2 presents a General view of the thrust beam. Figure 3 - section 3-3, figure 2. Figure 4 is a top view of the thrust beam (section 1-1, figure 2.). Figure 5 is a section 4-4, figure 4. In Fig.6 is a section 2-2, Fig.4. In Fig.7 is a section 5-5, Fig.6.

The foundation reinforcement structure contains arranged reinforced concrete monolithic thrust beams 2, wound with ends under the sole of existing foundations 1, and injection piles 3. The reinforcing frame 4 of the injection piles 3 is welded with embedded parts 5 of the thrust beam 2.

Under a reinforced concrete thrust beam, it is necessary to open a trench. The surface of the existing foundation 1 should be cleaned of soil and dirt. Thoroughly compact the bottom of the trench and arrange for preparation from a sand-gravel mixture 6. Then install the reinforcing frames 4 “in the place” of the piles 3, embedded parts 5, formwork and perform concrete work to erect the stop beam 2 with holes in the locations of the reinforcing frames 4. The ends of the thrust beam can be made of various sections in height, this does not contradict the essence of the utility model. After the concrete strength has been set, the reinforced concrete thrust beam 2 should be constructed with injection piles 3. To immerse the perforated injection pipes 4 of piles 3, it is necessary to install a metal frame. The pairing of injection piles 3 with embedded parts 5 arranged thrust beams 2 is carried out after immersion of all piles. First, with the help of a jack, the load is transferred to the injection pile 2, which is 40% of its bearing capacity. Next, the embedded parts 5 of the arranged monolithic thrust beam 2 are welded with the reinforcing frame 4 of the injection pile 3. The reinforcing frame of the pile 3 can be a perforated injection pipe. The holes in the reinforced concrete thrust beams 2 after the installation of all injection piles 3 should be concreted.

Claims (3)

1. The construction of reinforcing the foundation, including a monolithic reinforced concrete slab with holes in which the piles are arranged, characterized in that the monolithic reinforced concrete slab is equipped with embedded parts and is located in the lower part of the foundation, and its ends are brought under the base of the foundation, while the piles are made injection, and reinforcing cages of injection piles are welded with embedded parts of a monolithic reinforced concrete slab. 2. The foundation reinforcement design according to claim 1, characterized in that monolithic reinforced concrete beams are used as a monolithic reinforced concrete slab. 3. The foundation reinforcement construction according to claim 1, characterized in that a perforated injection tube is used as the reinforcing cage of the injection pile.