RU2714732C1 - Bank-protected soil-reinforced structure in conditions of weak soils on the filled base and method of its erection - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to water-system design and can be used in construction of a complex of engineering protection structures. Substance of invention is use of soil-filled base shell filled with pulp from bottom sediments, for erection on it of soil-reinforced bank-protecting structure, with face wall from interconnected by lock connections face elements made of abrasive-resistant material. Reinforced massif is protected from moistening by a drain system containing a drain mat and a tubular drainage, and from the effect of atmospheric precipitation – by a protective coating and a protective coastal abutment.EFFECT: maximum use of bottom sediments as construction material during bank protection works, which excludes their storage and their further disposal, erection of stable and reliable soil-filled base shell, simplification of front wall installation, increased resistance to abrasive action of face elements, reduced weight and increased stability of bank-protected soil-reinforced structure in conditions of weak soils.2 cl, 2 dwg

Description

The invention relates to water management design and can be used in the construction of a complex of engineering protection structures.

A known construction of an anchored thin wall (Patent RU 2474644 C1. Anchored thin wall. IPC EV 02/06, E02D 29/02. Pub. 02/10/2013), of a metal sheet pile or wooden beam, allowing partial immersion of the wall-forming elements, held by acer rods from flexible polymer tapes with steel wire, transverse ribs structured on one side. The front wall has the ability to clutch with reinforcing elements. The disadvantage is the need to use additional building material and a device for the storage of bottom sediments.

The design of the shore protection structure is known (Patent RU 2475592 C2. Sheet pile wall with a metal sealing element. IPC E02B 3/06, E0205 / 08. Publish. 09/27/2009 bul. No. 4), with a lock connection of the front wall elements from the sheet pile type elements connected with the help of longitudinal locking joints fixed to them, ensuring the soil tightness of the locking joints. The disadvantage is the need for significant deepening of the sheet pile wall, the complexity of the lock connection and the absence of devices that eliminate contact filtering.

Known composite structural panel (Patent US 6110567 A Composite structural panel having a face sheet reinforced with a channel stiffener grid. IPC US 6110567 A. Publication date: 08/29/2000), formed from a single composite front sheet with a hollow stiffener attached to one side of the front sheet of the fiber-reinforced cover, which can be used for the construction of the front wall. The disadvantage is the lack of abrasion-resistant layer and locking joints for fastening sheets to each other, as well as the absence of fastening of reinforcing tapes.

The closest taken as a prototype is the device described in Patent RU 2444589 Ground-reinforced structure and the method of its construction Е02В 3/06 (2006.01) IPC Е02В 3/06. Published: 03/10/2012. A soil-reinforced structure, including the front wall, horizontal and inclined armor strips, soil-filled anchor shells. The front wall consists of composite facial elements with horizontal and vertical arrangement of the sections of the front element obtained as a result of a section of the front elements or attached horizontally to it, lower, upper, side, straight and inclined reinforcing bands, reinforced ribbons perforated in a checkerboard pattern, inserted into the soil massif, armoids holding the upper and lower multi-shell anchors, multi-shell anchors contain a sorbent for cleaning the collected water and removing incoming surface and pound od, the upper parts of the soil-reinforced structure are covered with polymer material with seeds, the material with seeds provides protection against destruction of the soil mass.

The disadvantage is the lack of resistance to abrasive effects of composite facial elements, significant weight and insufficient stability of the design of the front wall in soft soils.

There is a method of erecting a retaining and regulating structure on a soil-filled flute bet and a method of erecting it (Patent RU 2441113 Supporting and regulating structure on a soil-filling flute bete and a method of erecting it. IPC: Е02В 7/02 01/27/2012), the channel anchors of which are made of soil-filled or other multi-shell elements ensuring the stability of the water-retaining shell and flute bet. The disadvantage is the need to provide materials for filling the soil-filled elements and does not provide stability in case of significant soil deposits.

There is a method of erecting a soil-reinforced retaining structure (Patent RU 2352713. A method of creating a soil-reinforced retaining structure and a device for its implementation. Pub. April 20, 2009), includes a front wall, bulk soil, flexible armor tapes and anchor blocks. The front wall is laid on a prepared base and fixed with an anchor block. Then the soil is filled, moistened, compacted, and using a mobile formwork, the front wall is erected by attaching inclined, flat or corrugated reinforcing tapes, then a draene sheath, and then the horizontal reinforcing sheaths are laid out, which are partially and alternately filled as the structure deforms and sags. After backfilling, the process is repeated again. The invention allows the use of soils with low bearing capacity as the foundations of buildings and structures.

The disadvantage is the lack of resistance of the front wall to abrasion and the need to use an additional reserve of soil during construction.

The closest taken as a prototype is the method described in Patent RU 2444589 Ground-reinforced structure and the method of its construction Е02В 3/06 (2006.01) IPC Е02В 3/06. Published: March 10, 2012, consisting in the construction of a soil-reinforced structure, including the construction of the front wall consists of composite facial elements with horizontal and vertical arrangement of the sections of the front element obtained as a result of a section of front elements or attached horizontally to it, lower, upper, lateral, straight armor strips and inclined, arm tape perforated in a checkerboard pattern, inserted into the soil mass, arm tape holding the upper and lower multi-shell anchors, multi-shell The primary anchors contain a sorbent for the treatment of collected water and the removal of incoming surface and ground water, the upper parts of the soil-reinforced structure are covered with polymer material with seeds, the material with seeds provides protection against the destruction of the soil mass.

The disadvantage is the need for additional preparation of the base and the use of bulk material.

The objective of the invention is the implementation of measures to prevent landslide and erosion in the coastal zone of a water body in conditions of weak soils, providing the least negative impact on the environment. Reducing the cost of building a shore protection structure.

The technical result of the invention is the maximum use of bottom sediments as a building material during shore protection work, which eliminates their storage and their further disposal, the construction of a stable and reliable soil-filled base shell, simplification of the installation of the front wall, increased resistance to abrasive effects of facial elements, reducing their weight and increasing the stability of the shore-protection soil-reinforced structure in light soils.

A technical result is achieved in terms of the device in that the device of the shore-protection soil-reinforced structure in the conditions of weak soils on the foundation to be filled includes a front wall consisting of front elements, a protective coating, horizontal reinforcing tapes, a drainage system, and further comprises a sheet pile wall system forming sections and including a longitudinal coastal tongue wall located along the axis of the front wall, and two or more transverse tongue walls perpendicular to it and, the front elements are made of abrasion-resistant multilayer material, reinforcement of high-strength material with locking joints located on it, installed with the possibility of connecting the front elements to each other, is made along the perimeter of each front element, two or more fastening nodes are made along the horizontal axis of each front element horizontally reinforcing tapes, front elements in the lower part of the front wall are interfaced with a soil-filled shell with a base made in the form of closed water permeable membrane with fixation to the front wall and the coastal tongue-and-groove wall through the mount, the tongue-and-groove system is installed with the possibility of protection against flooding, is buried in the bedrock of the channel, and the drainage system contains a tubular drainage and a drainage mat, with anchors fixed under it and laid on the perimeter above the soil-filled shell with a base and shore abutment, at the junction of which there is a tubular drainage, and the coast abutment and drainage mat are connected by coastal anchors, under closed water permeable membrane is a layer of polymeric material, with the possibility of improving the adhesion gruntonapolnyaemoy base shell with indigenous soil bed, above the drainage mat and a portion adjacent thereto of the protective coating is protecting coastal adjacency.

A technical result is achieved in terms of the method, in that the method of erecting a shore-protecting soil reinforced structure in the conditions of soft soils on a filled foundation includes erecting a front wall from front elements, laying a protective coating, laying out horizontal reinforcing tapes and arranging a drainage system, and further installing a sheet pile system forming sections including a longitudinal coastal tongue wall, which is placed along the axis of the front wall and installed perpendicular to it two or more transverse sheet pile walls are formed, the sheet pile system is buried in the bedrock of the channel with the possibility of protection from flooding, pumped from the section of the upstream pulp into a temporary container located on the shore, the beginning of the soil-filled base sheath is installed and fixed to the bedrock ground rolled into a roll, and they are filled from a temporary container with a pressure sufficient to compact the pulp and erect a stable and reliable soil-filled base coat , after emptying the subsequent downstream section, remove the perpendicular sheet pile wall with further laying on its bottom of the soil-filled base shell, the number of operations to fill the soil-filled base shell is determined by the length of the shore protection work section and soil characteristics, when installing a new soil-filled base shell, its beginning under the previous the shell and attach it to the bedrock of the channel, sinuses formed in the process of filling the ground the filled shells of the bases are filled with bound soil, the mounting unit is installed on the filled soil-filled shells of the base, while fixing it with anchors to the bedrock of the channel, the upper part of the coastal tongue and groove wall is connected with the mounting unit with the lower part of the front wall, the tubular drainage is laid at the interface between the soil-filled shell of the base and the coastal adjoining, on top of the attachment site, soil-filled shell of the base and shore adjoining, lay a drainage mat, which connect to shoreline protection using shore anchors.

In FIG. 1 is a cross-sectional view of a coastal protection structure of a soil reinforced structure under conditions of weak soils.

In FIG. 2 presents the front element.

The device, a shore-protecting soil-reinforced structure in conditions of soft soils on a filled base, includes a front wall 11 consisting of front elements 17, a protective coating 6, horizontal reinforcing tapes 12, a drainage system. The device further comprises a system of sheet pile walls 1 forming sections 22 and including a longitudinal shore sheet pile wall 19 located along the axis of the front wall 11, and two or more transverse sheet pile walls 20 perpendicular to it, the front elements 17 are made of abrasion-resistant multilayer material 14, which use polypropylene, polyurethane and other polymeric materials that have this property. Along the perimeter of each face element 17, reinforcement 18 is made of high-strength material with polyamide or polycarbonate fibers, or coated with a corrosion-resistant metal, with locking joints 16 located on it, installed to connect the face elements 17 to each other, which simplifies the installation of the front wall 11 , and reduce her weight. On the horizontal axis of each face element 17, two or more attachment points 15 of horizontally reinforcing tapes 12 are made, the face elements 17 in the lower part of the face wall 11 are coupled to a soil-filled shell with a base 2 made in the form of a closed permeable membrane with fixation to the face wall 11 and the coastal sheet pile the wall 19 through the mount 15, the system of sheet piling walls 1, is installed with the possibility of protection against flooding, is buried in the bedrock of the channel 21, and the drainage system contains a tubular drainage 10 and drainage mat 5, with anchors 4 fixed under it and laid along the perimeter above the soil-filled shell with base 2 and shore abutment 9, at the junction of which there is a tubular drainage 10, and shore abutment 9 and drainage mat 5 are connected with coastal anchors 8, under the soil-filled shell with base 2 in the form of a closed permeable membrane, a layer of polymer material 13 is located, with the possibility of improving the adhesion of the soil-filling shell of the base 2 to the root soil of the channel 21, above the drainage mat 5 and a part adjacent to it the protective cover 6 is located protection landfall 7.

Consider the work of a coastal protection reinforced structure. This structure is installed to prevent landslide and erosion in the coastal zone of the water body. The construction works as follows. The longshore sheet pile wall 1 together with the polymeric material 13 and the anchors 3 ensure the stability of the soil-filled shell of the base 2, which is protected from the entry of groundwater by a drainage mat and tubular drainage and onto which the front wall 11 is mounted, the fastening of which is provided by the fastening unit 3 and horizontal reinforcing tapes 12 laid in reinforced soil, which provides protection of the coastal zone from wave and abrasive processes, and protecting it and coastal of abutting against atmospheric precipitation provides a protective coating 6 and 7 abutting shore protection.

The method of erecting a shore-based soil-reinforced structure in conditions of soft soils on a filled foundation is carried out as follows: erect the front wall 11 from the front elements 17, lay the protective coating 6, lay out the horizontal reinforcing tapes 12 and the drainage system, additionally install the tongue-and-groove wall system 1 forming sections 22 including a longitudinal coastal tongue wall 19, which is placed along the axis of the front wall 11 and is installed perpendicular to it two or more transverse e sheet piling walls 20, the system of sheet piling walls 1 are buried in the bedrock of the channel 21 with the possibility of protection from flooding, they are pumped out of section 22 of the upstream pulp formed by decompression of bottom sediments under the influence of a hydraulic monitor or other device feeding it then into a temporary container (on Fig. poses are not indicated), located on the shore, install and fix to the bedrock of the channel 21 the beginning of the soil-filled shell of the base 2 rolled into a roll, and make its filling from a temporary steiner with bottom sediments in the form of pulp, with a pressure sufficient to compact it to ensure the construction of a stable and reliable soil-filled base shell 2. After emptying the subsequent downstream section 22, remove the transverse sheet pile wall 20 with further laying on the bottom of section 22 of the ground-filled base shell 2, the amount operations to fill the soil-filling shell of the base 2 is determined by the length of the shore protection work and soil characteristics when installing a new soil-filling my base shell 2 inlet produce its origin at the previous gruntonapolnyaemuyu base shell 2 and its fastening to produce radical ground channel 21 the sinus formed during filling gruntonapolnyaemyh shells 2 bases filled bound primer. Mounting unit 3 is installed on the filled soil-filled shells of the base 2, while at the same time fixing it with anchors 4 to the bedrock of the channel 21, the upper part of the coastal tongue-and-groove wall 19 is connected by the mounting unit 3 to the lower part of the front wall 11, the tubular drainage 10 is laid at the interface of the soil-filled shell of the base 2 and shore abutment 9, on top of the attachment point 3, ground filling shell of the base 2 and shore abutment 9, lay a drainage mat 5, which is attached to the shore abutment protection I 7 using coastal anchors 8. Through the use of a soil-filled shell of the base 2 and the drainage system, including a drainage mat 5 and tubular drainage 9, the stability and reliability of the shore protection structure as a whole is increased, which helps to prevent landslide and erosion in the coastal zone of a water body in conditions weak soils while ensuring the least negative impact on the environment. The cost reduction of the shore protection structure occurs due to a decrease in the volume of building materials, through the use of bottom sediments and the absence of the need for their disposal.

Claims (2)

1. A coastal protective reinforced structure in conditions of soft soils on a filled base, including a front wall consisting of front elements, a protective coating, horizontal reinforcing tapes, a drainage system, characterized in that it further comprises a sheet pile wall system forming sections and including a longitudinal coast sheet pile wall, located along the axis of the front wall, and two or more transverse sheet pile walls perpendicular to it, the front elements are made of abrasion-resistant m oglayer material, along the perimeter of each front element reinforcement is made of high-strength material with locking joints located on it, installed with the possibility of connecting the front elements together, along the horizontal axis of each front element there are two or more attachment points for horizontally reinforcing tapes, front elements in the lower part the front wall is interfaced with a soil-filled shell with a base made in the form of a closed permeable membrane with fixation to the front wall and along the coastal tongue wall through the attachment point, the tongue wall system is installed with the possibility of protection against flooding, is buried in the bedrock of the channel, and the drainage system contains tubular drainage and a drainage mat, with anchors fixed under it and laid along the perimeter above the soil-filled sheath with a base and coastal abutment, at the junction of which there is a tubular drainage, and the coastal abutment and the drainage mat are connected by coastal anchors, under the closed permeable membrane there is a layer of polymer material ala, with the ability to improve the adhesion gruntonapolnyaemoy base shell with indigenous soil bed, above the drainage mat and a portion adjacent thereto of the protective coating is landfall protection. 2. A method of erecting a shore-protecting soil reinforced structure in conditions of weak soils on a filled foundation, including erecting a front wall from front elements, laying a protective coating, laying out horizontal reinforcing tapes and arranging a drainage system, characterized in that they additionally install a sheet pile wall system forming sections comprising a coastal sheet pile wall, which is placed along the axis of the front wall and two or more transverse sheet piles are installed perpendicular to it NKI, the system of sheet piling walls are buried in the bedrock of the channel with the possibility of protection from flooding, pumped out of the section located upstream, the pulp is placed in a temporary container located on the shore, and the beginning of the soil-filled shell of the base, rolled up, is installed and fixed to the bedrock of the bed. and they are filled from a temporary container with a pressure sufficient to seal the pulp and erect a stable and reliable soil-filled base coat, after emptying the subsequent flow section, remove the perpendicular sheet pile wall with further laying on its bottom of the soil-filling base shell, the number of operations to fill the soil-filling shell of the base is determined by the length of the shore protection work section and soil characteristics, when installing a new soil-filling shell of the base, its beginning is supplied under the previous shell and its fastening to the bedrock of the channel, the sinuses formed in the process of filling the soil-filled shells of the bases, I fill t bonded soil, on the filled soil-filled base shells, a fastening unit is installed, while fixing it with anchors to the bedrock of the channel, the upper part of the coastal tongue-and-groove wall is connected by the fastening unit to the lower part of the front wall, the tubular drainage is laid at the junction of the soil-filled base shell and the coastal abutment, from above the attachment point of the ground-filled shell of the base and coastal abutment lay a drainage mat, which is attached to the protection of the coastal abutment creation through coastal anchors.

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