RU2268962C1 - Stone foundation reconstruction method - Google Patents

Abstract

FIELD: building, particularly building and building structure erection, repair and renewal, for instance suitable for monuments of architecture reconstruction.

SUBSTANCE: method involves digging a ditch around foundation from both sides thereof; cleaning the foundation of soil and damaged stone; forming reinforced concrete bosses joined one to another to create reinforced concrete collar from both foundation sides; digging out ground from under foundation bottom and arranging reinforced concrete cross-piece under the foundation bottom, wherein the bridge is formed as a single whole with the bosses. The cross-piece and the bosses are reinforced with pre-stressed reinforcement arranged in the cross-piece and the bosses. Upper reinforcement ends are secured to rigid consoles installed on the bosses at foundation edges to transmit prestressing force to building structure members.

EFFECT: increased foundation reliability, service life and load-bearing capacity.

4 cl, 3 dwg

Description

The present invention relates to the construction of buildings and structures and can be used in the reconstruction and overhauls of existing buildings, in particular buildings, which are architectural monuments.

A known method of restoring stone foundations, including excavating an existing foundation from both sides; cleaning the surface of the foundation from soil, destroyed stones and mortar; the performance of concrete tides on both sides of the foundation to its entire height ([1], p. 236, a).

The advantage of the method is ease of implementation, low laboriousness of work. This method can be used to restore the foundations of brickwork, concrete and buta. In addition, this method makes it possible to increase the stability of the foundation and protect its side surface from destruction.

However, in this method, the work of the foundation and the executed concrete tides are not carried out, therefore, the tides perform the function of only a fence, which does not increase the bearing capacity of the foundation.

A known method of restoring stone foundations, including excavating an existing foundation from both sides; the device through discrete holes in the masonry walls at the level of the edged foundation; cleaning the foundation surface from soil, destroyed stones and mortar, performing concrete tides on both sides of the foundation to its entire height; installation of metal pins made of reinforcing steel in the body of the foundation and tides; installation of hard elements into the through holes of the wall with their support on the surface of the foundation and concrete tides ([1], p. 236, c).

The advantage of this method is to increase the stability, rigidity and bearing capacity of the stone foundation. The advantages of this method include the device of rigid elements at the level of the edge of the foundation and metal pins, ensuring the compatibility of the foundation with concrete tides.

However, this method has significant limitations in practical application - it can be used when restoring foundations from masonry and when the foundation is not watered. Indeed, when laying the foundation from buta or concrete, the installation of pins in the foundation body leads to disruption of the integrity of its masonry and destruction.

In the case of constant or periodic flooding of the soil of the base, the known method does not contribute to the protection of the laying of the foundation from the destructive effects of soaking at the level of the sole. When the mortar of the foundation masonry is leached under the influence of groundwater, it is destroyed and the rigid elements installed at the level of the edge of the foundation and ensuring the compatibility of the foundation and tides lose their functional qualities. Rigid elements turn into discrete beams that receive pressure from walls and rely on tides. This leads to the appearance of large deflections in the rigid elements or even to their destruction and, as a result, to significant local wall deformations.

A known method of restoring stone foundations, including excavating an existing foundation from both sides below the sole; excavation of the soil of the base under the base of the foundation; cleaning the surface of the foundation from soil, destroyed stones and mortar; the execution of concrete ledges under both sides of the foundation; connection of concrete ledges with reinforcing anchors; the performance of concrete tides on both sides of the foundation to its entire height ([1], p. 236, g).

The advantage of this method is to increase the stability, rigidity and bearing capacity of the stone foundation. In addition, this method can be used for any masonry stone foundation - brick, concrete or rubble.

However, this method has limitations in its application. This method is effectively used in non-irrigated soils of the base. Under the condition of constant or periodic flooding of the soil of the base, the known method does not contribute to the protection of the laying of the foundation from the destructive effects of soaking from the side of its sole. In addition, the operational reliability and durability of the restored foundation depends on the safety and operability of the bare reinforcing anchors, ensuring the compatibility of the existing foundation and concrete tides. As you know, bare reinforcement located in the soil actively corrodes and subsequently collapses, which leads to a violation of the compatibility of the foundation and concrete tides, that is, to a sharp decrease in the effectiveness of the method of restoring the foundation.

Closest to the proposed solution in technical essence is a method of restoring stone foundations, including excavation of the foundation from both sides; punching the grooves on both sides of the wall at the level of the edged foundation; cleaning the surface of the foundation from soil, destroyed stones and mortar; the implementation of reinforced concrete tides on both sides of the foundation, combined into a reinforced concrete casing with the help of reinforcing anchors, which are passed through the foundation body and secured in tides; the establishment of tides in the walls of the wall ([1], p. 236, e).

The advantage of this method is to increase the stability, rigidity and bearing capacity of the stone foundation. In addition, the institution of the tides of the reinforced concrete cage into the wall pegs at the level of the foundation edge ensures the transfer of part of the load from the walls to the reinforced concrete cage.

The disadvantage of this method is the limited application in construction practice. Moreover, the restrictions cover both the foundation masonry material and the presence of watering the soil of the base. In rubble and concrete concrete foundations, the installation of through anchors leads to disruption of the integrity of the masonry and its destruction. Under the condition of constant or periodic flooding of the soil of the base, which is typical in the last decades of the operation of buildings and structures, the laying of the foundation is not protected from the side of the sole from the destructive effects of soaking. In the event of destruction of the foundation masonry, the compatibility of its work with the reinforced concrete cage is violated. As a result, the bearing walls are practically supported only on a reinforced concrete cage, which leads to a sharp reduction in the area of the base of the foundation and a significant decrease in its bearing capacity.

The objective of the invention is to increase the reliability, durability and bearing capacity of stone foundations. The ability to use the method of restoring stone foundations for all types of masonry - rubble, butobetonny and brick, as well as under conditions of constant or periodic flooding of the soil base.

A method of restoring stone foundations is proposed, including excavation of the foundation from both sides; cleaning the surface of the foundation from soil, destroyed stones and mortar; the implementation of reinforced concrete tides on both sides of the foundation, combined into a reinforced concrete cage, in which the soil is additionally taken out from under the base of the foundation and a bridge made of reinforced concrete is installed in this place, which is made in one piece with the tides of the reinforced concrete cage. Then the reinforced concrete cage is prestressed by prestressing reinforcement, which is located in the tides and lintel, and the upper ends of the prestressed reinforcement are fixed in rigid consoles, which are located on the tides in the foundation edge zone with the possibility of transferring the prestressing force to the building elements.

The proposed method of restoring stone foundations allows you to transfer prestressing forces to a reinforced concrete cage, which leads to the creation of a kind of “box” in which there is a foundation that protects the foundation from soaking, preserving the foundation masonry structure and the load transfer scheme from the walls, as well as increasing the bearing capacity of the foundation for due to the increase in the width of the reinforced concrete cage under the foundation. To do this, additionally rigid consoles are installed on the tides of the reinforced concrete cage in the area of the edge of the foundation for transferring the prestressing force to the reinforced concrete cage.

The proposed method of restoring stone foundations allows you to combine the foundation and reinforced concrete cage in the area of the foundation, in particular, at the level of the foundation, which increases the reliability of its operation. To do this, additionally rigid consoles are placed simultaneously on the tides of the reinforced concrete cage and on the edges of the foundation for transmitting the prestressing force to the foundation and the reinforced concrete cage.

The proposed method of restoring stone foundations allows you to transfer part of the load from the walls to a reinforced concrete cage in the area of the edged foundation, which helps to reduce the load on the stone foundation. To do this, additionally rigid consoles, located on the tides, are installed above the foundation cutoffs in the stops, which are mounted on the walls on both sides of them, to transfer the prestressing force to the clip and to the walls.

The essence of the invention is illustrated by drawings, where Fig. 1 shows the restoration of stone foundations using a prestressed ferrule with the transmission of the prestressing force to a reinforced concrete ferrule; figure 2 - with the transmission of the prestressing force to the foundation and reinforced concrete cage; figure 3 - with the transmission of the stress force on the wall.

The method of restoring stone foundations 1 under the walls 2 is as follows. The existing foundation 1 is divided into grips along the length. On each grab, they dig out foundation 1 on both sides and remove the base soil from under the sole to the required depth. They clean the surface of the foundation from soil, destroyed stones and mortar. Then, under the sole of the foundation 1, concreting of the lintel 3 is performed, in which a rigid discrete reinforcement 4 is installed, for example, of paired channels. To the discrete reinforcement 4, vertical reinforcing bars 5 are attached, for example, in welding. The upper ends of the rods 5 are temporarily attached, for example, to mounting beams located on the surface of the soil, and the reinforcing bars 5 are prestressed, for example, using nuts. Then the tides 6 are concreted on both sides of the foundation 1. After the concrete tides 6 have gained strength, rigid consoles 7 are installed on their surface, for example, of paired channels and reinforcing bars 5 are rigidly attached to them, for example, using nuts 8. As a result, after removing the mounting beams around the foundation 1, a prestressed reinforced concrete ferrule 9 is formed with the transmission of the prestressing force to the tides of the reinforced concrete ferrule 9 in the area of the foundation edged. Under the sole of the reinforced concrete cage 9, a zone of compacted soil 10 is formed. After backfilling of the soil, the rigid consoles 7 and nuts 8 are protected by a layer of concrete 11.

In order to be able to combine the foundation and the reinforced concrete cage together at the level of the edging of the foundation, the restoration of stone foundations is carried out in the same sequence before the installation of rigid consoles 7. Rigid consoles 7 are located both on the surface of the tides and on the edges of the foundation. As a result, after removing the mounting beams around the foundation 1, a prestressed reinforced ferrule 9 is formed with the transmission of the prestressing force to the foundation 1 and the reinforced concrete ferrule 9.

In order to transfer part of the load from the walls to the reinforced concrete cage in the area of the foundation edge, the restoration of the stone foundations is carried out in the same sequence until the rigid consoles 7 are installed. The stops 12 are fixed on both sides of the walls over the foundation edges, for example, using anchors 13, they are brought into the stops 12 rigid consoles 7 and fasten them together. As a result, after removing the mounting beams around the foundation 1, a prestressed reinforced concrete ferrule 9 is formed with the transmission of the prestressing force to the walls in the area of the foundation edge.

The advantage of the proposed method for the restoration of stone foundations is to increase their rigidity, bearing capacity and durability. Indeed, a reinforced concrete cage protects the stone foundation from the harmful effects of groundwater and destruction, which increases the ego operation period. A prestressed reinforced concrete ferrule compresses the stone foundation, due to which they are combined into a joint work. As a result, the restored foundation has an increased sole width and depth of its laying, which significantly increases the bearing capacity of the foundation. In addition, a layer of compacted soil forms under the base of the foundation.

Information sources

1. Malganov A.I., Plevkov B.C., Polishchuk A.I. Restoration and strengthening of building structures of emergency and reconstructed buildings. Tomsk, 1992, Analog, p. 236, a.

2. An analogue, the same, p. 236, c.

3. Analogue, same, p. 236, g.

4. The prototype, the same p. 236, d.

Claims (4)

1. A method of restoring stone foundations, including excavating the foundation on both sides of the foundation, cleaning the foundation surface from soil, destroyed stones and mortar, performing reinforced concrete tides on both sides of the foundation, combined into a reinforced concrete cage, characterized in that the soil is additionally removed from under the sole foundation and at this place a jumper of reinforced concrete is installed, which is performed in one piece with the tides of the reinforced concrete cage, prestressed tensile reinforcement located in the tides and the bridge, and the upper ends of the prestressed reinforcement are fixed in rigid consoles, which are located on the tides in the area of the foundation edges with the possibility of transferring the prestressing force to the elements of the structure. 2. The method of restoring stone foundations according to claim 1, characterized in that the rigid consoles located on the tides of the reinforced concrete cage are installed in the area of the edge of the foundation to transmit the prestressing force to the reinforced concrete cage. 3. The method of restoring stone foundations according to claim 1, characterized in that the rigid consoles are located simultaneously on the surface of the tides of the cage and on the edges of the foundation for transmitting the prestressing force to the foundation and reinforced concrete cage. 4. The method of restoring stone foundations according to claim 1, characterized in that the rigid consoles located on the tides of the cage are installed above the foundations of the foundation in the stops that are mounted on the wall on both sides to transmit pre-stress to the cage and the wall.

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