RU70903U1 - STRENGTHENED BUILDING FOUNDATION - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the reconstruction of existing foundations. The reinforced foundation of the building includes an array of buried piles by the method of static crushing of tubular sections of piles, united by a wall reinforced concrete grillage. Pile sections are interconnected by a transitional cuff, and reinforcement is placed in each concreted cavity of the pile. In the body of the grillage, at the junction of it with the pile, cone-shaped plugs are made, which expand in the direction of crushing the piles and are formed by cone-shaped forming elements with a taper of 0.17-0.50. Piles can be reinforced with single rods or spatial frame. The proposed reinforced foundation of the building allows to increase its reliability.

Description

The utility model relates to the field of construction and can be used in the reconstruction of existing foundations.

A well-known foundation, including an array of tubular sections of piles, pressed in by a hydraulic jack and joined by a grillage. At the same time, the so-called concrete plugs are made at the junction of the piles with the grillage, which are obtained as a result of the features of the technological process of building the reinforced foundation of the building (patent for utility model RU 12149, IPC 6 E02D 27/48, published 1999).

A disadvantage of the known method is the low reliability of the pile-grill coupler, since during prolonged exposure to loads and / or the appearance of additional loads from the grill (foundation slab) and / or upstream building structures, piling through the grill (foundation slab) can occur, which leads to to partial or complete loss of the bearing capacity of the foundation and its destruction.

The objective of the utility model is to increase the reliability of the building foundation.

The problem is solved due to the fact that the reinforced foundation of the building includes an array of buried piles by the method of static crushing of tubular sections of piles, united by a wall reinforced concrete grillage. Pile sections are interconnected by a transitional cuff, and reinforcement is placed in each concreted cavity of the pile. In the body of the grillage, at the junction of it with the pile, cone-shaped plugs are made, which expand in the direction of crushing the piles and are formed by cone-shaped forming elements with a taper of 0.17-0.50. Piles can be reinforced with single rods or spatial frame.

The proposed reinforced foundation of the building is characterized by high reliability at the junction of piles with the grillage due to the implementation of a cone-shaped plug in the latter.

The essence of the claimed utility model is illustrated in figure 1, which shows a General view of the reinforced foundation of the building.

The reinforced foundation of the building consists of piles 1, which are joined by a reinforced concrete grill 2. Each pile is reinforced by a single rod 3 and consists of tubular sections, which are connected by welding through transition cuffs 4. At the junction of the piles with the grill, conical plugs 5 are formed, which are formed by forming conical elements 6, the taper of which is 0.17-0.50.

The reinforced foundation is erected as follows.

Along the existing foundation of the building, a trench is developed, and in the very foundation of the building, a hole is made, in the area of which holes are drilled into which anchor rods are installed. Then the formwork is installed, the grillage is reinforced and technological anchors are installed for fixing the installation and the forming cone-shaped elements 6, which are placed in the place of formation of holes for the passage of piles. In this case, the cone-shaped forming elements are set in such a way as to form a hole expanding in the direction of crushing the piles. After this, the grillage is concreted, and when concrete reaches 60% of the design strength (which is at least 7 days), they begin work on the installation of piles. Piles are performed using shock-free technology by the method of static crushing of sections of piles, during which mandatory control of the efforts of immersion piles is performed. In this case, the first section has a cone-shaped tip, which provides better conditions for the passage of soil and prevents the latter from entering the pile cavity. The sections are interconnected by welding to a transition cuff made of a pipe of smaller diameter. The sections are crushed until the pressure is fixed on the manometer so that

corresponds to an excess of the calculated bearing capacity of piles by 1.2 times. Then the cavity of the pile is reinforced with a single rod or spatial frame (depending on the design characteristics) and filled with concrete simultaneously with a conical hole. As a result, at the junction of the grillage with the pile, a cone-shaped plug 5 is formed, formed by a shaping cone-shaped element 6.

Long-term action of loads, the appearance of additional loads from the grillage (foundation slab) and upstream building structures can lead to the extrusion of piles through the grillage (foundation slab), to the loss of the bearing capacity of the foundation and its destruction. An increase in the friction surface area in the node of the pile interface - the grillage will neutralize the harmful effect of the loads that cause the pile to be extruded through the grillage. This increase in area is realized due to the conical friction surface. The limiting values of the taper are determined by calculation and depend on such parameters as the height of the grillage, the pitch of reinforcement and the diameter of the piles. The minimum taper value of 0.17 was calculated for the maximum height of the grillage. In this case, the friction surface area is increased due to the height of the grillage and a large taper value is not required. The maximum taper value of 0.50 was calculated for the minimum height of the grillage, while the value of 0.50 is limited by such parameters as the step of reinforcing the grillage and the diameter of the piles.

An example of a reinforced foundation.

The reinforced foundation of the building includes an array of piles buried by 10 m by the method of static crushing of pipe-shells (sections). The piles are joined by a reinforced concrete grillage, the height of which is 800 mm and the width is 600 mm. At the junction of the piles with the grillage, conical plugs are formed, formed by forming conical elements with a taper of 0.37.

The proposed reinforced foundation of a building with a conical plug is characterized by good reliability of the foundation in place

the location of the piles in the grillage, which prevents its destruction, since the action of the loads leading to the extrusion of the pile through the grillage is more evenly distributed in the grillage body. In addition, the orientation of the cork in the grill, in which the cone with its expanding part is oriented in the direction of crushing the piles, creates an effect of jamming, which also prevents the extrusion of piles through the grill (foundation plate).

Claims (2)

1. A reinforced building foundation, including an array of tubular sections of piles buried by the method of static indentation, joined by a wall reinforced concrete grillage, while the pile sections are connected by a transition collar, and reinforcement is placed in each concreted cavity of the pile, characterized in that in the grillage body, in at the junction of it with piles, cone-shaped plugs are made, expanding in the direction of crushing the piles and formed by forming cone-shaped elements with a taper of 0.17-0.50. 2. The foundation according to claim 1, characterized in that in the piles are single rods or spatial frame.