RU55402U1 - BUILDING A CARSTABLE STRUCTURE - Google Patents

Abstract

Usage: refers to the construction, reconstruction and operation of buildings in karst territories and is intended to ensure (increase) the karst resistance of buildings. EFFECT: ensuring karst stability of a building located on a territory with karst occurrences during new construction, reconstruction and operation of buildings due to deterioration of the territory's resistance to karst occurrences, increasing reliability and reducing the cost of measures to ensure karst stability of buildings. The essence of the utility model: a building with a karst-resistant construction, contains a foundation that has a horizontal section, a skeleton that consists of frame columns, longitudinal and transverse load-bearing walls, supporting diaphragm walls installed on top of the skeleton, and belts that are installed on the lower floors of the skeleton elements and suspended from the diaphragm walls using cords.

Description

The utility model relates to the construction, reconstruction and operation of buildings in karst territories and is intended to provide and increase the karst resistance of buildings.

A building is known that can withstand karst failure, containing anti-karst structural reinforcement of the building, including a strip foundation, reinforced racks and a reinforced horizontal frame at the level of the first floor. (Designer's reference book. Foundations, foundations, and underground structures. / Under the editorship of E.A. Sorochan and Yu.G. Trofimenkov. - M .: Stroyizdat, 1985, p.297, p.12. 18).

The disadvantage of this building design is the possibility of a significant slope of the part of the building, which turned out to be a failure, the high cost of building a new building and strengthening the existing building during its reconstruction and operation in order to ensure and increase its karstoustoychivost.

The closest in essence and the technical result achieved to the proposed utility model is a multi-storey building with a karst-earthquake-resistant construction, including a horizontal monolithic foundation, frame frame, ceilings, supporting diaphragm walls, a basement, first or first two floors, made in the form of transverse and longitudinal walls with cantilever overhangs and forming a monolithic or carefully monolithic structure with a foundation slab, and the transverse diaphragm walls are equipped with a reinforced concrete belt at the top and between the floor belts and are crimped with vertical braces, which are fixed on the foundation and the belt on top of the diaphragm walls, and the transverse frames are reinforced with inclined braces that connect the nodes of the upper floor frame with columns at their intersection with the walls of the basement, first or second floor or with the ends overhangs of walls, while the floors are connected to the walls-diaphragms

pin connections. (Patent RU 2123568 cl. E 04 H 9/02, 1998).

The disadvantage of the building structure is its mandatory multi-storey building, the complexity and high cost of the structure, which together provide the karst and seismic stability of the building, the inability to use the structure during reconstruction and operation of the building in order to ensure and increase its karst resistance due to the deterioration of the territory's resistance to karst manifestations.

The technical result is to ensure and increase the karst stability of a building located in a territory with karst occurrences during new construction, during reconstruction and operation of the building due to the deterioration of the territory's resistance to karst occurrences, increase reliability and reduce the cost of measures to ensure karst stability of buildings.

The essence of the utility model lies in the fact that the building is a karst-resistant construction, includes a foundation, which has a horizontal section, a skeleton, which consists of frame columns, longitudinal and transverse load-bearing walls, supporting diaphragm walls installed on top of the skeleton, and belts that are installed on the lower floors at the elements of the skeleton and are suspended from the diaphragm walls using cords.

The design is illustrated in the drawing, where in FIG. shows a cross-section of a building with a foundation, longitudinal and transverse load-bearing walls, ceilings, load-bearing walls, diaphragms, belts and cords.

The building structure contains a foundation 1, longitudinal and transverse walls 2, ceilings 3, diaphragm walls 4, belts 5, which are suspended from the diaphragm walls 4 using cords 6, while the foundation 1 has a horizontal section 7.

Practice shows that the diameter of the karst failure and, accordingly, its area is much smaller than the area of the "building spot" of the building, and therefore only the basement section of the building falls into the coverage area. In the absence of elements in the load-bearing structures of buildings that increase their karst resistance, sections of the foundation in

In the failure zone, they undergo a rapidly growing draft, which leads to a redistribution of forces in the overlying structures, collapse arches are formed, the connection of the floor elements with the supporting structures of the core is broken, which leads the building to an unacceptable or emergency state.

In the proposed construction of a karst-resistant building, when a failure occurs, in the zone of its action, a rapidly growing settlement of foundation 1 occurs. Due to the horizontal section 7, the foundation section 1 is “turned off” from work. The load from the overlying structures of the skeleton, perceived by the foundation section 1, before it is “turned off” from work, is transmitted through the belts 5, installed in the lower floors of the building near the skeleton elements, by means of strands 6 to the load-bearing walls-diaphragms 4, which absorb these efforts, redistribute them on the supporting structures of the skeleton and, accordingly, on the foundations outside the areas of failure.

Thus, the part of the building located above the lower zone will not receive any significant damage when a failure occurs. Damage will only receive the foundation directly in the place of failure. These damages must be repaired and other necessary anti-karst measures are carried out. The operability of the building as a whole is not lost, that is, its reliability is ensured.

The use of the proposed utility model leads to the provision and increase of karst stability of the building, located on the territory with karst occurrences during new construction, during reconstruction and operation of the building. The cost of using the proposed model is less, since the proposed design provides only the karst stability of the building.

Claims (1)

The building is a karst-resistant construction, including a foundation and a skeleton, consisting of carcass columns, longitudinal and transverse load-bearing walls, load-bearing diaphragm walls, belts, characterized in that the foundation has a horizontal section, and load-bearing diaphragm walls are located on top of the skeleton, belts are installed on the lower floors at the elements of the skeleton and suspended from the walls-diaphragms with the help of cords.