RU173800U1 - The device for the comprehensive sealing and protection of expansion joints of hydraulic structures from germination by woody-shrubby vegetation - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering and is intended for sealing and protection of expansion joints in reinforced concrete slabs of canal lining. characterized in that as an elastoplastic material is used polypropylene with an inner layer of fiberglass reinforcement having deformation from polyurethane foam, and throughout the U-shaped filler has retaining wings and a T-fold, twice overlapping the expansion joint. To completely eliminate filtration losses, a layer of sealant or mastic or epoxy is applied to the U-shaped filler before installation in the expansion joints. EFFECT: reliability and environmental friendliness of the material of construction, ease of installation, reduction of water losses for filtration, impossibility of germination of trees and shrubs and increased durability of the structures. 1 s.p. f-ly, 2 ill.

Description

The utility model relates to the field of hydraulic engineering and is intended for sealing and protection of expansion joints in reinforced concrete slabs of canal lining.

The objective of the utility model is to increase the water resistance and protection of expansion joints in reinforced concrete slabs of canal lining from the germination of wood and shrubbery.

A known method of protecting the expansion joints of the canal lining from biological damage, including the implementation of a cavity under the expansion seam in the form of a plant borehole located in and adjacent to the expansion seam of the channel lining of the channel and from the edge of the lining from the channel edge to the bottom of the slope, followed by or by simultaneous impregnation of the walls of the plant well in the process of its implementation with a solution of a soil strengthening substance. (RF patent No. 2012707, publ. 05/15/1994).

The disadvantages of the known technical solutions are the lack of reliable protection of the surface of the seams of the cladding from rooting and germination of seeds of woody-shrubby vegetation, leading to the disclosure and destruction of the seams of the cladding, and consequently to an increase in water loss for filtration through the channel lining.

Known channel lining, including concrete or reinforced concrete slabs laid on the base with the formation of longitudinal and transverse seams and anti-filter elements, the upper part of each of which is located in the seam, and the lower one is made wider than the width of the seam, and placed in the recess of the base with the upper surface of the lower parts to the lower surfaces of the plates, while the transverse seams are equipped with reinforced grooves located in the recesses of the base, in which the lower parts of the anti-filtering elements are installed ments, and the ends of each plate forming the transverse seams are made with reinforced protrusions on the lower surface, wherein each transverse seal impervious element is formed of a resilient waterproof material with recesses in the upper surface of the lower part on both sides of the top, which plate has protrusions. (RF patent No. 2029821, publ. 02.27.1991).

The disadvantages of the known technical solutions are the lack of reliable protection of the upper surface of the seams and anti-filter elements of the lining of the channel from rooting and germination of seeds of trees and shrubs and the complexity of the design of anti-filter elements.

Known deformation seam of the concrete lining of the channel, including mounted on the protrusion of one plate, the protrusion of another plate with the formation of the upper rectangular and lower cavities between the sides of the plates and the ends of the protrusions, and facing one plane of the protrusions are covered with antifriction material, and a sealing element is placed in the upper rectangular cavity, characterized in that the lower cavity between the sidewall of the plate and the end face of the protrusion is made of a trapezoidal cross section with a smaller upper base, and seals The solid element is made of plastic material. (RF patent No. 2031194, publ. 20.03.1995).

The disadvantages of the known technical solution is that the sealing element of plastic material, placed in the upper cavity between the sidewalls of the plates and the ends of the protrusions, does not provide protection for the upper surface of the seams of the channel lining from rooting and germination of seeds of woody-shrubby vegetation, which will lead to the opening and destruction of the seams facing.

A known method of creating a seal of the temperature and temperature-sedimentary seam of a hydraulic structure, including the installation of dowels of the bitumen composition in the building blocks and subsequent capping of the dowels in the blocks. (RF patent No. 2061140, publ. 05.27.1996).

The disadvantages of the known technical solution is that the dowel bitumen composition does not provide protection for the upper surface of the temperature and temperature-sedimentary seam of the hydraulic structure from rooting and germination of seeds of woody-shrubby plants, which will lead to the disclosure and destruction of the joints of the lining.

A known method of antifiltration sealing of an expansion joint of a hydraulic structure, which consists in cleaning the surface of the expansion joint and installing an elastic sealing key on the cleaned surface, installed by filling the cavity with hydroactive polyurethane foam, having elastic properties after polymerization, and before filling the cavity with hydroactive polyurethane foam, a sleeve is made into it beforehand made of a liquid-tight material with a transverse dimension, exceeding the width of the cavity. (RF patent №2117724, publ. 08/20/1997).

The disadvantages of the known technical solution is that the sealing key of hydroactive polyurethane foam in the zone of fluctuation of water levels will contribute to the rooting of seeds of trees and shrubs, floating on the surface, which will lead to the germination of plants through compaction, followed by the destruction of the expansion joint due to an increase in root biomass, as well as the considerable laboriousness of the device for antifiltration sealing of the expansion joint when filling the cavity with hydroactive foam polyurethane, associated with the need for multiple placement in the cavity of the injection pipe with donned stops that impede leaching of the polymer solution from the cavity prior to polymerization.

A known method of waterproofing seams or cracks in hydraulic dams by means of a waterproofing screen containing a first strip of screen of elastically deformable synthetic material located along a seam or crack on an existing dam surface, in which the steps are carried out: at least one support element is placed on the existing dam surface for covering a seam or crack and providing a supporting surface for the screen strip; fixing the support element on one side along the width of the seam or crack to ensure the sliding movement of the support element of the corresponding side with respect to the existing surface; at least one protective base for the strip of screen is placed over the support element; placing a second protective strip of the screen between the protective base and the first waterproofing strip of the screen to provide sliding movement of the first strip of the screen relative to the support element and the existing surface; placing the first strip of the screen on top of the second strip of the screen, the protective base and the support element; carry out waterproof fastening of the peripheral edges of the first strip of the screen to the existing surface of the hydraulic structure along the sides of the seam or crack. (RF patent No. 2243318, publ. 12/27/2004).

The disadvantages of this technical solution are the complexity of the design and installation, the presence of metal profiles susceptible to corrosion in the aquatic environment, and the fact that the waterproofing screen of the elastically deformable synthetic material (geotextile) does not protect the upper surface of the seam or crack of the hydraulic dam from rooting and germination of wood seeds -shrub vegetation, which will lead to the loss of waterproofing properties of the coating, the disclosure and destruction of joints or cracks.

Known deformation seam, including an anti-filtration element formed by overlapping overlapping strips of film material, monolithic on one side in concrete of joined plates, and the other taken in a cassette consisting of upper and lower panels made of the same film material and coated with antifriction composition, with a protective layer located above the upper panel of the cartridge, while the plates along the contour have a support part, above which the anti-filter element is monolithic and on which the joint is located lap overlap inside the cassette, and the length of the overlap is equal to twice the length of the supporting part of the plate. (RF patent No. 2234566, publ. 08/20/2004).

The disadvantage of this technical solution is that the protective layer located above the upper panel of the cassette is monolithic with a solution which, as a result of seasonal thermal deformations, is subject to cracking and destruction, which contributes to the rooting of seeds of woody-shrubbery plants floating on the water surface, with further germination of plants through film material taken into the cassette with the loss of anti-filter properties of the entire anti-filter element.

A known method of sealing expansion joints of hydraulic structures, mainly anti-filter linings of channels and ponds (options), including laying sealing profiles in uncured concrete and sealing the concrete mixture in the weld zone, first applying a thin layer of glue to the end faces of joined concrete or reinforced concrete cladding panels. and then put between the facing plates a sealing profile gasket made of an elastic material, fix it in the design position, one the weld cavity is temporarily filled with cement mortar or fine-grained concrete, and until the adhesive layer has hardened, the filler of the weld cavity is compacted with a force of 3.5-5.0 MPa, then a film-forming emulsion is sprayed on the filler surface of the weld cavity with freshly laid cement mortar or fine-grained concrete. (RF patent No. 2234567, publ. 20.08.2004).

The disadvantage of this technical solution is that the cement mortar or fine-grained concrete, which fills the cavity of the joint, is subject to cracking and destruction as a result of seasonal temperature deformations, which contributes to the rooting and germination of seeds of woody-shrubby vegetation, with a further loss of the antifiltration properties of the entire expansion joint.

Known deformation sealed seam of hydraulic structures, containing a gasket, sealant and a sliding element made of two polyethylene tapes equidistantly lying on top of each other, between which there is a separation layer with a thickness of 0.5 ... 1.5 mm from petroleum jelly or other plastic frost-resistant grease. (RF patent No. 2275459, publ. 04/27/2006).

The disadvantages of this technical solution are the complexity and complexity of laying polyethylene tapes with a separating layer of petroleum jelly or other frost-resistant plastic grease, the short service life of the protective layer of sealant, which does not protect the upper surface of the expansion joint of the hydraulic structure from rooting and germination of seeds of woody-shrubbery plants .

A butt joint of antifiltration linings of channels is known, including a tube of elastic gas-tight material filled with air under atmospheric pressure, placed in a deformation seam on the faces of the mating slots of the grooves, a hermetically viscous material laid between the tube and the walls of the grooves, a protective pad pinched in the grooves tube, and sealant in the weld cavity with a width smaller than the diameter of the tube, while between the sealant in the weld cavity above the tube and under the tube and the protective pad is made a dividing release layer, and the surface of the sealant under the tube in contact with the soil base is additionally equipped with a waterproofing gasket with a dividing release layer. (RF patent No. 2282695, published on 08.27.2006).

The disadvantages of this technical solution are the complexity and complexity of the elements of the butt joint and the short service life of the protective layer of sealant, which does not provide protection for the upper surface of the expansion joint of the hydraulic structure from rooting and germination of seeds of woody-shrubby vegetation.

A technical solution was selected as a prototype in the form of a device for comprehensive sealing of expansion joints in reinforced concrete slabs, containing a sealing gasket, a joint cavity filler from an elastic plastic material made in the form of a double-folded sheet of polyethylene foam in a U-shape, a bundle of elastic material was pressed in the upper part of the joint, on top of which a sealant layer with a primer is applied, and in the joined sections of the plates, injection wells are made at an acute angle to the expansion joint, filled with polyurethane with a two-component resin, a sealing gasket is installed in the lower part of the expansion joint, with its overlap. (RF patent No. 129119, publ. 20.06.2013).

The disadvantages of the known technical solutions are the lack of reliable protection of the surface of the joints of the cladding from rooting and germination of seeds of woody-shrubby vegetation, as well as the complexity of the design and the significant complexity of the device for the comprehensive sealing of expansion joints in reinforced concrete slabs.

The objective of the utility model is to increase the water resistance and protection of expansion joints in reinforced concrete slabs of canal lining from the germination of wood and shrubbery.

EFFECT: reliability and environmental friendliness of the material of construction, ease of installation, reduction of water losses for filtration, impossibility of germination of trees and shrubs and increased durability of the structures.

The technical result is achieved by the fact that the device for the complete sealing of expansion joints in reinforced concrete slabs contains a filler of the joint cavity of an elastoplastic material made in the form of a double folded sheet in a U-shape, while polypropylene with an inner layer of fiberglass reinforcement having a compensator is used as an elastoplastic material deformations of polyurethane foam, and throughout the U-shaped filler has retaining wings and a T-fold, overlapping twice formation seam. Before installing in the expansion joints, a layer of sealant or mastic or epoxy is applied to the U-shaped filler.

The essential features of the claimed utility model are:

- use as a device for the comprehensive sealing of expansion joints in reinforced concrete slabs of a filler of a joint cavity made of polypropylene with an inner layer of fiberglass reinforcement.

- the presence of a U-shaped filler along its entire length, retaining wings and a T-shaped fold, twice overlapping the expansion joint.

- the presence of a U-shaped aggregate throughout its length of the expansion joint deformations of polyurethane foam.

The use of a joint sealant of expansion joints in reinforced concrete slabs of a joint cavity made of polypropylene with an inner layer of fiberglass reinforcement provides reliability and environmental friendliness of the material of the structure, reduces water loss for filtration and increases the durability of the buildings.

The presence of retainer wings along the entire length of the U-shaped filler simplifies installation and, therefore, reduces the complexity of the work.

A T-shaped fold overlapping the expansion joint twice eliminates the possibility of sprouting of trees and shrubs, which ensures the reliability and durability of the structures.

The deformation compensator made of polyurethane foam perceives the temperature deformations of reinforced concrete slabs, protecting the filler of the joint cavity from destruction.

To completely seal the expansion joints, a layer of sealant or mastic or epoxy is applied to the U-shaped filler before installation.

From the patent search, no technical solution was found, the set of essential features of which coincides with the set of essential features of the claimed utility model, which meets the criterion of "novelty."

The utility model is illustrated by drawings.

In FIG. 1 shows a device for integrated sealing of expansion joints in reinforced concrete slabs according to the 1st embodiment.

In FIG. 2 shows a device for integrated sealing of expansion joints in reinforced concrete slabs according to the 2nd embodiment.

The device for comprehensive sealing of expansion joints in reinforced concrete slabs 1 contains a filler of a joint cavity of an elastoplastic material made in the form of a double folded sheet in a U-shape 2, while polypropylene 3 with an inner layer of fiberglass reinforcement 4 having a strain relief of polyurethane foam 5, and throughout the U-shaped filler has locking wings 6 and a T-shaped fold 7, twice overlapping the expansion joint.

To completely eliminate filtration losses, before installing in expansion joints, a layer of sealant or mastic or epoxy resin is applied to the U-shaped filler.

Execution example No. 1.

A device for comprehensive sealing of expansion joints in reinforced concrete slabs in the form of a filler of a joint cavity of an elastoplastic material made in the form of a double-folded sheet in a U-shape made of polypropylene with an inner layer of fiberglass reinforcement and a strain relief of polyurethane foam, is pressed into or hammered into the expansion joint the seam. In this case, the locking wings of the U-shaped filler, due to the elastic plasticity of polypropylene, partially bend and fit into the end faces of the reinforced concrete slabs, which prevents the self-extraction of the complex sealing device, and the T-shaped fold twice overlaps the expansion joint, which eliminates the possibility of germination of wood -shrub vegetation. The deformation compensator made of polyurethane foam perceives the temperature deformations of reinforced concrete slabs, and the inner layer of fiberglass reinforcement minimizes the temperature deformations of the U-shaped filler from polypropylene, which protects the joint cavity filler from destruction.

Execution example No. 2.

A device for comprehensive sealing of expansion joints in reinforced concrete slabs in the form of a filler of a joint cavity of an elastoplastic material made in the form of a double-folded sheet in a U-shape made of polypropylene with an inner layer of fiberglass reinforcement and a strain relief of polyurethane foam, is pressed into or hammered into the expansion joint the seam. In this case, the retaining wings of the U-shaped filler, due to the elastic plasticity of polypropylene, partially bend and fit into the end faces of the reinforced concrete slabs, which prevents the self-extraction of the complex sealing device, and the T-shaped fold twice overlaps the deformation seam, which eliminates the possibility of germination tree-shrubby vegetation. The deformation compensator made of polyurethane foam perceives the temperature deformations of reinforced concrete slabs, and the inner layer of fiberglass reinforcement minimizes the temperature deformations of the U-shaped filler from polypropylene, which protects the joint cavity filler from destruction. To completely eliminate filtration losses, a layer of sealant or mastic or epoxy is applied to the U-shaped filler before installation in the expansion joints.

The claimed technical solution in the form of a comprehensive sealing of expansion joints in reinforced concrete slabs can be reproduced industrially, which meets the criterion of "industrial applicability".

Thus, the claimed technical solution in the form of a device for comprehensive sealing of expansion joints in reinforced concrete slabs provides a technical result consisting in the reliability and environmental friendliness of the material of the structure, ease of installation, reduced water loss for filtration, the inability to germinate tree and shrub vegetation and increase the durability of the buildings.

Claims (2)

1. A device for the comprehensive sealing of expansion joints in reinforced concrete slabs, containing a filler of the joint cavity of an elastoplastic material made in the form of a double folded sheet in a U-shape, characterized in that polypropylene with an inner layer of fiberglass reinforcement having a strain compensator is used as an elastic plastic material made of polyurethane foam, and throughout the U-shaped filler has retaining wings and a T-fold, twice overlapping the expansion joint. 2. The device for comprehensive sealing of expansion joints according to claim 1, characterized in that to completely eliminate filtration losses, a layer of sealant or mastic or epoxy is applied to the U-shaped filler before installation in the expansion joint.

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