SU1122769A1 - Versions of expansion joint - Google Patents

Abstract

1. The deformation joint mainly protective coatings of channels and ponds of concrete slabs. cement aggregate and an anti-filtration elastic element, characterized in that, in order to maintain the reliability and manufacturability of the butt joints, the anti-filtration elastic element is made in the form of separately installed around the entire contour of the end faces of adjacent concrete plates of sealing strips of elastic material, while on both sides gaskets are made of porous layers, which are embedded in the front part of the cladding plates and filler.

Description

2. The deformation joint of predominantly protective lining of canals and ponds of concrete slabs, including cement aggregate and an impervious elastic element, characterized in that, in order to increase the reliability and manufacturability of the butt joint, the anti-filtration elastic element is designed as separately installed along the entire contour end parts of adjacent concrete plates of sealing gaskets from an elastic material, while anchors are made on one of the gaskets The porous layer is embedded in the face part of the facing plates and on the opposite side of the gaskets, which is embedded in the aggregate. 3. The deformation joint mainly consists of protective linings of channels and ponds of concrete slabs, including cement aggregate and an impervious elastic element, characterized in that, in order to increase. reliability of work and manufacturability of the butt joint; the anti-filtration elastic element is designed as separate end parts of adjacent concrete slabs installed separately along the entire contour with sealing gaskets made of resilient material, with anchors on one side of the gaskets facing the aggregate, which are embedded in the aggregate. 4. The deformation joint of predominantly protective linings of channels and ponds of concrete slabs, including cement aggregate and an anti-filtration elastic element, is characterized in that, in order to increase the reliability of the work and manufacturability of the butt joint, the filter element is made in the form of end faces that are installed separately along the whole contour. parts of adjacent concrete plates of sealing gaskets made of an elastic material, while gaskets are filled with protruding beyond the lower hour These ends of the plates are free ends, on which the anchors are embedded in the aggregate.

The invention relates to deformation joints of predominantly protective linings of canals and ponds of concrete and de-aerated concrete slabs and can be used in hydraulic engineering construction.

The known structure of the junction of prefabricated linings, in which the sealing of the butt joint is carried out by inserting a tin rope into the junction cavity, on which a protective layer of polymeric mastic l} is made on top.

However, to create this ® joint-joint design, it is necessary that the distance between adjacent cladding plates along their entire contour be strictly defined sizes, determined by the size of the poroisole harness being laid, which is very difficult in production conditions around the perimeter of the plates. absolutely impossible to implement. In addition, the protective mastic polymeric protective layer created on top of the poroizol tow complicates and increases the cost of the butt joint construction. As a rule, polymeric mastics are two-component. Strictly dosing and thorough mixing of the components in field conditions is a very laborious and complicated operation, moreover, it is necessary to use up the volume of the mixture produced in time, otherwise it will harden and will not be usable.

Polymer mastic based on thiokol have the highest technical indices, but thiokol mastics have a very large (exorbitant for use in butt joints) cost of 4.5-5.0 rubles. per 1 kg, which makes their use for sealing butt

compounds economically impractical. They can be used in special cases, the expediency of the use of which must be confirmed by special economic calculations. The use of cheaper, but also less reliable in the work of polymer mastics is impractical, since they quickly become difficult because of the difficult conditions in which the butt joints of prefabricated linings of hydraulic structures work.

In addition, this design requires a significant amount of manual labor for its creation, and with significant (more than 10–20 mm) deformations of the joint space, it will not ensure its tightness, i.e. will fail.

Also known deformation joint mainly protective lining of channels and ponds of concrete slabs, including cement aggregate and an impervious elastic element 20.

However, this design of a butt joint requires a large amount of inefficient manual labor for its creation, it does not ensure its use throughout the contour of the plates, in particular, at the junction of the bottom and slopes, does not ensure the tightness of the butt joint at the intersection of corners 2 or 4 p The house of the lined slabs of the team lining, causes additional difficulties in the implementation of the bonding of the elastic membrane in places where the mounting loops are located.

The purpose of the invention is to increase the reliability and manufacturability of the butt joint.

This goal is achieved by the fact that in the first embodiment, in the deformation joint, predominantly protective linings of channels and reservoirs made of concrete slabs, including a filler and an antifiltration elastic element, the latter is made in the form of end parts of adjacent concrete slabs installed separately along the entire contour of sealing liners from an elastically compressible material at the same time, porous layers are made on both sides of the gaskets, which are embedded in the frontal part of the facing plates and the core.

This goal is achieved by the fact that, according to the second variant, in the deformation joint there are mainly protective lining of canals and ponds of concrete slabs, including cement aggregate and an anti-filtration elastic element, the latter is fulfilled in the form of separately installed throughout the contour of the end parts of adjacent concrete slabs of the sheathing inserts of elasticized jigs. On one of the side of the gaskets, anchors are made, embedded in the frontal part of the facing plates, and on the opposite side of the gaskets, A non-porous layer is embedded in the aggregate.

This goal is achieved by the fact that, according to the third variant, in the deformation joint there are mainly protective linings of channels and ponds of concrete slabs, including cement filler And an antifiltration elastic element, the latter is made up of end parts of adjacent concrete slabs installed separately along the entire contour, sealing gaskets of elastically compressible material, at the same time on one of the sides of the gaskets facing the aggregate, anchors are made, which are embedded in the aggregate.

This goal is achieved by the fact that, according to the fourth variant, in the deformation joint there are mainly protective lining of canals and reservoirs made of concrete slabs, including cement aggregate and an antifiltration elastic element, the latter is made in the form of end parts of adjacent concrete blocks of elastic gaskets installed from separately across the contour , while the gaskets are made with protruding beyond the bottom of the ends of the plates with free ends, of which the anchors are made, embedded e in the placeholder.

FIG. 1-4 shows the deformation junction, respectively, according to the I-W variants, cross-sections.

In the first embodiment, the deformation joint is sealed by gluing adjacent concrete slabs 1 to the front part, anti-filtration elastic elements made in the form of sealing pads 2 of elastic material to which are porous from the cement filler 3 placed in the cavity between the plates 1 and opposite. the layers 4, while the layers 4 are embedded in the plates 1 and the filler, the carrier 3. In the second variant of the joint, the sealing gaskets 2 are made on the filler side with the porous layer 4, and On the side of the front part of the plates 1, anchors 5 are made, while the porous layer 4 is embedded in the filler 3 5 and the anchors 5 are in the face hour of the plates 1. In the third joint, the sealing gaskets 2 are made with anchors 5 on the side of the filler 3 and embedded in him According to the fourth variant of the joint, the hermetic strips 2 are made of free ends 6 protruding beyond the lower part of the ends of the plates 1, on which 3 anchors 7 embedded in the filler are made 7. The deformation joint is working in a clever way. When a canal or reservoir is put into operation, hydrostatic pressure — water presses cement filler 3, having a wedge-shaped form, to sealing gaskets 2, embedded on the beveled ends of adjacent plates, which ensures full watertightness of the butt joint along the entire contour of concrete facing plates 1 of the cladding. At small (up to 20-30 mm) in size of mutual displacements of the facing plates one-sidedly each other, the watertightness of the butt joint will be ensured due to the firm connection of the sealing gaskets 2 by means of monolithing of the anchor ribs 5, including and the upper porous interlayer 4 into the cement aggregate 3 and the possibility of a very large (up to 500-600%) relative to the broadening of the elastic layer 2. With significant., more than 20-30 mm, the mutual displacements of the facing plates 1 relative to each other will not be damaged ensured due to the possibility of significant (up to 500-600%) stretching of free parts 6 projecting up to 20-30 mm beyond the low end of the plates 1 and having an anchor 7 embedded in the cement aggregate 3 at the ends. To increase the strength of the cement aggregate 3 timber-like reinforced with a metal rod (4-6 mm. Compared to the known one, the proposed design almost completely eliminates the cost of manual labor; it provides higher reliability in the intersection zone of 2 or 4 plates; efficient use of slopes with the bottom in the abutment zone The tightness of the side of the slope plates with the lining of the bottom part is ensured by the ordinary emphasis of the end part of the slope plates with an elastic layer mounted on their surface against the plates or solid concrete bottom part. The use of the proposed design of the deformation joint will allow the production of plates with the elastic layer specified in the end part to be put on the factory flow, as a result of which the quality of work will significantly increase. In addition, sealing gaskets made of rubber, hernite, etc. have low cost and long (up to 100 years or more) service life. Prefabricated claddings with the proposed construction of a deformation joint are simple and technologically advanced in construction, they are fast and easy to assemble, have a high degree of factory readiness, allow prefabricated linings to be erected at any time of the year regardless of weather conditions, and guarantee their long-term operation. In addition, the use of the proposed design will allow building prefabricated claddings without a continuous film impervious screen, which is significantly damaged in the process of laying large plates in size and weight, minimizing filtration losses and thereby preventing waterlogging, salinization and flooding of valuable farmland.

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Claims (4)

'1. A deformation joint of mainly protective linings of channels and reservoirs made of concrete slabs, including cement aggregate and an anti-filter elastic element, characterized in that, in order to increase the reliability and manufacturability of the butt joints, the anti-filter elastic element is made in the form of separately installed along the entire contour end parts of adjacent concrete slabs of sealing gaskets of elastically compressible material, while on both sides of the gaskets made porous layers that are embedded in the end of the cladding plates and aggregate. I ω s 2. A deformation joint of mainly protective linings of channels and reservoirs made of concrete slabs, including cement aggregate and an anti-filtration elastic element, characterized in that, in order to increase the reliability and manufacturability of the butt joint, the anti-filtration elastic element is made in the form of end-faces installed separately around the entire contour parts of adjacent concrete slabs of gaskets made of resiliently compressible material, while anchors are made on one side of the gaskets, for elannye in the end portion facing plates and gaskets on the opposite side is formed a porous layer which is embedded in the filler. 3. The deformation joint of mainly the protective lining of the channels and reservoirs made of concrete slabs, including cement aggregate and an anti-filter elastic element, characterized in that, in order to increase the reliability and manufacturability of the butt joint, the anti-filter elastic element is made in the form of separately installed the entire contour of the end parts of adjacent concrete slabs of sealing gaskets of elastically compressible material, while on one side of the gaskets facing the floor Itel, made anchors which are embedded in the filler. 4. The deformation joint of mainly protective linings of channels and reservoirs made of concrete slabs, including cement aggregate and an anti-filter elastic element, characterized in that, in order to increase the reliability and manufacturability of the butt joint, the anti-filter element is made in the form of end faces installed separately around the entire contour parts of adjacent concrete slabs of gaskets made of resiliently compressible material, while gaskets are made with protruding beyond the lower part ortsov free ends of the plates, which are made anchors, embedded in the filler.