RU2517585C2 - Method to create protective multi-shell systems of man-made bases and foundations of buildings and structures and device for its realisation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, namely to design of bases and foundations on anthropogenic soils, flooded territories, also when lifting and moving buildings and structures. The method to create a soil-reinforced base of buildings and structures includes erection and filling of shells via a pipeline-sleeve. The protective multi-shell system of man-made bases and foundations is arranged onto the prepared soil base, besides, in the beginning they install shield-platform from a composite material, having shape of memory, and strengthened with flexible anchor devices, then it is mounted with the help of a flexible link to flattened shells-jacks, besides, inside them they first make elements-sections divided in vertical and horizontal directions by flexible membranes-separators from composite nanomaterials, and then they are filled by working medium, which makes it possible to increase, decrease or maintain design height. To the lower shell-jack they mount shells-jacks by flexible links, and on the last of them they install an upper shield-platform, to which buildings or structures are fixed by flexible links. Then a central flexible rod is mounted with nozzles, fixing them to shells-jacks, and then connected to the shield-regulator and the container with working medium, after that they install a controlling system of sensors and connect them with the shield-regulator. Erection or transfer of the building or structure of this protective multi-shell man-made system is possible via pulling shells-jacks through prepared holes-trenches gradually under existing operated buildings and structures without shields-platforms and raising and lowering buildings and structures with account of the above method.

EFFECT: provision of safety and control of regulation of position of buildings or structures, prevention of emergency situations.

2 cl, 2 dwg

Description

The invention relates to the field of construction and can be used in the construction of foundations and foundations of buildings and structures on industrial soils, flooded areas, including when lifting and moving buildings and structures.

A device of the base is known, which is a structure in the body of which additional hollow shells are laid, and their cavities are filled with a working medium under pressure during construction and operation with the possibility of arrangement along and across and locally in a checkerboard pattern [1].

The disadvantage of this device is the inability to control the lifting and lowering of buildings and structures in emergency situations, such as flooding, floods, etc.

There is a method of creating a structure in the body of which hollow shells are laid and then filled as necessary with a working medium under pressure [1].

The disadvantage of this method of construction is that the filled hollow shells increase the height of the structure, but cannot occupy the design (initial) position.

Known soil-reinforced base, consisting of a system of longitudinal shells and transverse multi-shell elements made of composite materials, capable of changing their parameters and restore the design position, while the longitudinal shells contain anchor elements and corrugated flexible connections that ensure their design position [2].

The disadvantage of this device is the possibility of increasing the height of this array and maintaining its shape, but there is no possibility of regulation, i.e. raising and lowering of buildings and structures in emergency situations.

There is a method of creating a soil-reinforced base and foundations of structures, consisting of a system of longitudinal shells and transverse multi-shell elements made of composite materials, and the shells are filled with a water-soil mixture using an injection pipe and feed valve valves [2].

The disadvantages of this method is the device of a soil-reinforced base and foundation of structures, consisting of a system of longitudinal shells and transverse multi-shell elements made of composite materials, the impossibility of their regulation and complex filling system, requiring additional costs for the installation of filling and pumping systems.

This technical result is achieved by creating protective multi-shell systems of artificial bases and foundations, consisting of two or more flattened shells of a multi-shell system - a jack made of composite materials (nanomaterials) having shape memory, interconnected by a flexible connection, and in the upper and lower shell jacks arranged platform boards made of composite materials, providing stability, reliability and safety of the facilities built on them (buildings and structures) for s even fastening them with anchor devices to the ground and flexible connection to the upper flattened jack shell.

Distinctive features of protective multi-shell systems, artificial systems of foundations and foundations of buildings and structures are spread jackets-jackets interconnected by flexible bonds and internally divided into horizontal and vertical elements by separating membranes filled with a working medium coming from a container in which water is stored, air, water-soil mixture, etc. working medium, into a regulatory system consisting of an axial rod with nozzles, controlled by an adjustable shield, and the flattened jack shells are mounted on platform shields that are attached to the soil mass and to the upper jack shell by anchor devices.

The proposed technical solution will ensure the safety of settlements and industrial facilities with increasing water levels in natural and artificial watercourses during the flooding of territories in areas, such as permafrost, during flooding and flooding, etc., preventing emergencies, etc. natural and man-made disasters.

The essence of this technical solution consists in creating a protective multi-shell system of artificial foundations and foundations of buildings and structures 1, which ensures and improves the quality of the living environment of the population, according to the country's ecological infrastructure due to adjustable flattened jack jacks 2, which increase, decrease or maintain the design height of the bases and foundations of buildings and structures, preventing emergency situations, or when they are moved, etc.

This technical result is achieved by creating a protective multi-shell system of artificial foundations and foundations of composite materials (nanomaterials) 1, consisting of two or more flattened jack shells 2, interconnected by a flexible connection 3, and platform shields are located in the upper and lower parts 4 and 5, providing stability, reliability and safety of objects located on them, and the lower shield platform 5 is attached by anchor devices 6 to the soil mass.

The first 7 and second 8 tiers of the flattened jacking shells 2 inside are divided into horizontal 9 and 10 vertical elements by flexible diaphragm-separators 11, the working medium of which 12 is soil, water-air or the like. mixture, and jacking jackets 2 can additionally be regulated (raising or lowering) by an axial flexible rod 13 with regulating nozzles 14 located on it, through the flexible pipe 15 a working medium enters in a special container 16 and connected to the control panel 17, for example, building 18.

Distinctive features of protective multi-shell systems of artificial foundations and foundations of buildings and structures 1 are foundations and foundations made of flat jack shells 2 of various configurations, interconnected by flexible ties 3, and the flat jack jack shells 2 are divided into horizontal 9 and vertical 10 elements by flexible membranes-separators 11 on the element-sections, which serves the working mixture 12, which can be introduced into each element-section separately or simultaneously (equally rno), and in the lower part of the more densified, coming through the flexible pipe 15 from the container 16, divided into sections containing the working medium, into the adjustable system through the flexible rod 13 and nozzles 14, controlled by the control panel 17 in the building 18, which allows you to increase or decrease or maintain the design position of the building or structure or to move them, and the entire system is controlled by a monitoring system of sensors 19.

The proposed protective multi-shell system of artificial foundations and foundations is illustrated by the drawings in figures 1 and 2.

The protective multi-shell system of artificial foundations and foundations 1 consists of flattened jacking shells 2 of composite material (nanomaterials with shape memory) made of various configurations, connected to each other by a flexible connection 3 and having inside them horizontal 9 and vertical 10 membrane separators 11 which separate the jacking jackets 2 into a number of section elements filled with various working media, for example, water and air, water and soil, their combination, etc., moreover, flexible Ithel 11 made of composite material (nanomaterial) preserving projected shape throughout the operating period and under predetermined conditions outside. In the lower part of the multi-shell system, there is a platform-shield 4, which provides and protects from external influences the lower flattened jack-shell 2 and has anchor devices 6 (spikes, suction cups, etc.) connecting the surface of the soil massif 20 over the entire lower area For a more complete fit of the foundation foundation to the object (building, structure), the upper platform shield 5 is mounted with flexible connections to the upper shell - 2, and the platform shields 4, 5 are made of material with a shape memory.

The operation of this protective multi-shell system of artificial foundations and foundations is controlled by a system of sensors 19: pressure, deformation, etc., as well as notifying about the upcoming impacts of internal and external.

Regulation and changing the position and filling of the shells is carried out by special devices - pipes 14 connected to the central rod 13 and the control panel 17, as well as a container with the working medium 16 through a flexible pipe 15, divided into several sections in which various fillers are located - the working medium 12, for example, air, water, pulp, etc.

The work of this protective multi-shell system of artificial foundations and foundations of buildings and structures 1, made of composite materials that retain their shape (nanomaterials and nanotechnology), is as follows.

When an emergency is approaching (mudflows, floods, etc.), the monitoring system of sensors 19 is activated, then from the control panel 17 an indication is given of raising the protective multi-shell system of artificial foundations and foundations 1, then from the control panel 17 a command is given to fill through the central the rod 13 and special nozzles 14, located at different heights, from the container 16 with the working medium 12 are filled with sections of the elements of the horizontal 9 and vertical 10 shell jacks 2 and thus the rise of buildings or structures is 18. 18. After the flood waters (or flooding), the building or structure 18 is lowered to the design position, and the working medium 12 is fed back to the container section 16. When moving the buildings, the movement can be carried out due to the redistribution of the working medium 12 in the shells - jacks 2 installed in prepared trenches under them.

The method of construction of a protective multi-shell system of artificial foundations and foundations is as follows. The lower platform platform 4 with flexible anchor devices 6 is laid on the soil mass, and the lower shell-jack 2 is attached to it, and then the next shell-jack is mounted to the lower flattened jack-shell 2 by flexible coupling 3, and in the manufacture of jack-shells 2 inside them, separation into horizontal 9 and vertical 10 element-sections is provided by flexible diaphragm-separators 11. After that, the central flexible rod 13 with nozzles 14 is mounted, which is connected by a flexible pipe 15 to the prepared contour ynerom 16 with fluid 12, previously divided into several sections, which are in various working environment 12 (e.g., air, water, pulp, etc.). After checking the design position of the upper shield platform 5 and the building structure 18, a monitoring system of sensors 19 is installed and connected to the control panel 17.

If necessary, jacking jackets 2 can be installed without platform shields and passed into specially equipped trench holes for buildings or structures for lifting or moving operated buildings and structures.

In the process of construction, an artificial base is arranged on a flexible shield platform 4 with special anchor devices 6 connecting it to the soil mass 20 fixed on it with a flattened jack-shell 2, which is divided by flexible diaphragm-separators into horizontal 9 and vertical 10 element sections with fillers of which are a working medium (water-, air-, soil-filled, etc.) 12, which is supplied through an axial flexible rod 13 by means of nozzles 14 connected to the container 16 through a flexible pipe 15.

If it is necessary to raise the protective multi-shell system of artificial foundations and foundations, a signal is supplied through the shield-regulator 17 and the working medium 12 is filled, i.e. the working environment is introduced into each element separately or simultaneously (evenly) in multi-shell jack systems, and various elements of it can come into effect, lowering or raising the constructed building or structure 18, i.e. increasing, decreasing or maintaining the design height. The whole process goes to their full design position, is maintained during the life cycle, or changes if necessary, which allows regulation of the entire system during emergencies, such as floods, seismic fluctuations, etc., incl. when moving buildings or structures.

1. Kasharin T.P., Dandara N.T., Kasharin V.I. Copyright certificate SU No. 1100361 A, Е02В 3/06 “Method for the construction of soil-reinforced structures and a device for its implementation”, according to the application No. 3549528/2915 of 23.12.08. (for administrative use).

2. Kasharina T.P., Glagoleva A.S. Patent No. 2415229 “A method for creating soil-reinforced foundations and foundations of buildings and structures and a device for its implementation” by application No. 2009118027 of 05/12/2009.

Claims (2)

1. A method of creating a soil-reinforced base of buildings and structures, including the construction and filling of shells through a pipe-sleeve, characterized in that the protective multi-shell system of artificial bases and foundations is arranged on a prepared soil base, and first they lay a shield platform made of a composite material with a shape memory , and strengthened with flexible anchor devices, and then mounted to it using flexible connection to the flattened jack jacks, and inside of them, pre section elements are separated in vertical and horizontal directions by flexible separator membranes made of composite nanomaterials, and then they are filled with a working medium, which allows to increase, decrease, or maintain the design height, and jack jack shells are mounted to the lower jack shell, and on the last one they place an upper shield platform, to which they are strengthened with flexible connections of a building or structure, then a central flexible rod with nozzles is mounted, strengthening them to jack jacks and then they are connected to the control panel and the container with the working medium, after that the monitoring system of sensors is placed and connected to the control panel, and it is possible to erect or transfer the building or the construction of this protective multi-shell artificial system by pulling jack jacks through the prepared trench holes gradually under existing operated buildings and structures without platform shields, and lifting and lowering buildings and structures, taking into account the above method. 2. The device of the soil-reinforced foundation of buildings and structures, including a system of longitudinal and transverse multi-shell elements made of composite material with a shape memory, characterized in that the protective multi-shell flattened system of artificial bases and foundations consists of two or more flattened jack jacks, which are divided inside horizontal and vertical elements-sections with flexible diaphragm-separators and are filled with various working medium from a special container, Separated into sections and controlled by a control panel, through a flexible rod with nozzles located at different heights, which allows to keep the building and structure at the design (required) or altered height, which is controlled by a monitoring system of sensors, and in the upper and lower parts of the shells shields-plates are located in the jacks, connecting the jack-shells with the soil mass, the building and the structure, ensuring the reliability and safety of the entire facility during a period of changing external and internal influences s on it.

Images