UA26931U - Method for construction of monolithic linings of channels and water reservoirs - Google Patents

Abstract

A method for construction of monolithic linings of channels and water reservoirs includes preparation of earth base, marking places of contraction joints on it, concreting, lining and arrangement of joints through cutting slots in newly-laid concrete to depth 1/3-1/2 of thickness of concreting and sealing. At that at center of joints passage on earth foundation a cavity is formed, this is filled with material with low permeability, preferably swelling of water.

Description

Description of the invention

The useful model refers to hydraulic construction and can be used in the construction of 2 monolithic linings of canals and reservoirs.

There is a well-known method of constructed monolithic linings of canals and reservoirs, which includes the preparation of the soil base, marking on it the place of passage of temperature-shrinkage joints, the distance between which is within 3-5 meters, after which they begin concreting the lining with the help of concrete pavers. Then, a seam cutter is used to cut 20 mm wide slits in the freshly laid concrete to a depth of 1/3-1/2 of the cladding thickness, which are sealed and filled with sealants. When the laid concrete hardens, a through-shrinkage gap is formed in the center of the created gap, which is a continuation of the cut gap, only much smaller in size, but sufficient to allow significant volume losses of water to pass through it (Fig. 11.

The disadvantage of the known method of constructing monolithic linings of canals and reservoirs is the low reliability of their work and the significant difficulties and costs of its creation. Slots are cut by a complex and energy-intensive device. Expensive sealants are used to seal threaded slots. But practice has shown that under the action of such a complex set of negative natural factors, sealants lose their adhesive properties and elasticity over time.

The task of the useful model is to increase the reliability of work and to simplify and reduce the cost of the construction of monolithic lining of canals and reservoirs.

The task is achieved by the fact that a cavity 20-30 cm deep and 30-40 cm wide is created in the center of the temperature-shrinkage joints in the soil base, which is filled with a low-permeable, mostly water-swelling material, as which clay and heavy loam can be used. If there is no monolithic cladding of water-swelling clays and heavy loams on the construction site, they can be non-swelling. And the threaded gap is not filled with an expensive sealant, but with ordinary soil, sand, light loam, etc.

In order to increase the reliability of the work of temperature-shrinkage joints and reduce the required amount of low-permeable material, the created cavity of significantly (10-15 cm) smaller dimensions in depth is covered with a polymer film. Even greater reliability of work temperature-shrinkage seams, as well as the possibility of replacing low-permeable material with any on the surface of a small (2-bsm) cavity depth is laid with a polymer screen, the edges of which extend to the surface of the soil base and on which anchors are created ribs, which are multiplied into the concrete lining. And a shallow (2-5 cm) layer of soil is created to protect the polymer screen from damage during the creation of concrete lining. Gee)

To simplify the construction of a monolithic cladding in the center of the passage of temperature-shrinkage

A waterproof, spring-compressed element is placed in the seam, which can be a strip of rubber, foam, etc., which is pinned to the ground base with pins along its edges. The thickness of the waterproof spring compressible strip will be within 2-5 cm, and its width within 20-40 cm. And the greater reliability of its work will be ensured by the creation on its edges of anchor ribs with a height of 0.5-2.0 cm, which are "multiplied into the concrete coating." With 70 A to significantly simplify and reduce the cost of creating a monolithic coating in the center both on a polymer film with anchor ribs on its edges that reach the surface of the soil, and on waterproof

From" spring-compressed strips, vertical crackers with a height of 1/2-1/3 of the thickness of the coating are formed, which allows you to completely abandon the complex cutting of slits.

Fig. 1 shows a section of a fragment of a monolithic cladding, in which a cavity 1 is created in the center of the temperature-shrinkage joint in the soil base, which is filled with low-permeable soil 2, and a gap 4 is created on the surface of the monolithic coating C, which is filled with ordinary soil 5.

Ge") Figure 2 shows a section of a fragment of a monolithic lining, in which a small (2-5 cm) deep cavity 1 is covered with a polymer film, the edges of which protrude to the surface of the soil and are pinned to the soil base with pins 7, and placed on them anchor ribs 8 are embedded in the concrete coating. 20 Fig. 3 shows a section of a fragment of a monolithic cladding, in which a vertical crack-creator 9 is formed in the center of the polymer film 6, above which a shrinkage gap 10 is created. a waterproof rubber strip 11 is laid on the soil base seam, which is pinned to the soil base with pins 7. 29 Fig. 5 shows a section of a fragment of a monolithic cladding, in which anchor ribs 8 are formed along the edges of the rubber strip 11s, which are embedded in the concrete coating 3.

Fig. b shows a section of a fragment of a monolithic cladding, in which a vertical crack generator 9 is created in the center of the rubber strip 11, above which a shrinkage gap 10 is formed in the concrete coating C.

The use of a useful model will allow to ensure a higher anti-filtration efficiency of 60 monolithic lining of canals and reservoirs, to significantly simplify and reduce the cost of its creation.

In addition, the useful model can be successfully used in the construction of monolithic facings in other ways, in particular, when laying in them seam-forming elements in the form of a flexible profile strip of the Konotop" type and cross-shaped.

Source of information: bo 1. Technology and organization of water construction. "Builder", Kyiv, 1977, section

"Concrete facings", pp. 109-112.

Claims (6)

The formula of the invention 1. The method of construction of monolithic linings of canals and reservoirs, which includes the preparation of the soil base, marking on it the place of passage of temperature-shrinkage joints, concreting, lining and arrangement of seams by cutting slits in freshly laid concrete to a depth of 1/3-1/2 of the thickness of concreting and their 70 sealing, which is distinguished by the fact that a cavity is formed in the center of the passage of the seams on the ground base, which is filled with a low-permeable, mostly water-swelling material. 2. The method according to claim 1, which differs in that a polymer screen is placed on the surface of the formed cavity. C. The method according to claims 1 and 2, which differs in that on the surface of a small (2-5 cm) cavity /5 depth, a polymer screen is laid, the edges of which extend to the surface of the soil base, on which anchor ribs are formed, which are multiplied into the concrete facing. 4. The method according to claim 1, which differs in that a waterproof spring-compressed strip is laid on the surface of the ground base in the center of the temperature-shrinkage joints, which is pinned to the ground base with pins along its edges. 5. The method according to claim 4, which is characterized by the fact that anchor ribs are formed along the edges of the waterproof spring-compressed strip, which are incorporated into the concrete coating. 6. The method according to claims 1, 3, 4 and 5, which is distinguished by the fact that in the center of the polymer screen, the edges of which with the anchoring ribs extend to the surface of the ground base and the waterproof spring-compressed strip, vertical crackers with a height of 1/3-1/2 thickness are formed concrete coating. that 2 "- (ze) (o) (Se) p - and? name) (o) se) (95) - 60 b5