RU206317U1 - MODULE OF ASSEMBLY HYDRAULIC STRUCTURE - Google Patents

Abstract

The utility model relates to a module for assembling hydraulic structures designed to dampen the wave force, prevent the erosion of the coastline and strengthen it, trap silt and sand particles, and raise the level of the coast or other land area. The technical result consists in increasing the reliability and durability of the module of the prefabricated hydraulic structure and, as a consequence, increasing the reliability and durability of the prefabricated hydraulic structure itself. This is achieved due to the module of a prefabricated hydraulic structure, which is a rectangular box, open on its upper side, in the bottom of which at least four holes are made, into at least one of which a connecting bracket is inserted, at one of its ends, and is fixed against falling out by a fixing element, while the diameter of the holes in the bottom is larger than the inserted part of the bracket, and the fixing element does not completely cover the hole in the bottom. 2 c.p. f-ly, 3 dwg

Description

This utility model relates to a module for the assembly of hydraulic structures designed to dampen the force of waves, prevent erosion of the coastline and strengthen it, capture silt and sand particles, and raise the level of the coast or other land area. This utility model can also be used in the construction of protective barriers, for example, in flood situations.

From the prior art, a module of a prefabricated hydraulic structure (RU195367U1, 01/23/2020) is known, which is a block made in the form of a rectangular parallelepiped, on the upper and lower sides of which, relative to the central axis, on the left and right, there are recesses in the form of rectangles, and in the center a hole is made for each recess, and fastening connections are located on the lateral opposite sides of the block. The mentioned module makes it possible to assemble hydraulic structures, the modules of which are connected in a staggered manner, creating a labyrinthine structure, and have the possibility of limited movement relative to each other.

However, when exposed to the force of waves, fasteners located on the lateral opposite sides of the module experience loads that contribute to their pulling out, which leads to possible damage to individual modules and the structure as a whole.

Based on the foregoing, the objective of the claimed utility model is to eliminate the disadvantages of the prior art, namely, to create a module for a prefabricated hydraulic structure with high reliability and durability.

The technical result of the claimed utility model is to increase the reliability and durability of the module of a prefabricated hydraulic structure and, as a consequence, to increase the reliability and durability of the prefabricated hydraulic structure itself.

The aforementioned technical result is achieved due to the module of a prefabricated hydraulic structure, which is a rectangular box open on its upper side, in the bottom of which at least four holes are made, into at least one of which is inserted, one of its ends, connecting bracket and is fixed against falling out by a fixing element, while the diameter of the holes in the bottom is larger than the inserted end of the bracket, and the fixing element does not completely cover the hole in the bottom.

In private forms of implementation of the module of a prefabricated hydraulic structure, the technical result is also achieved due to the following.

Reinforcement cage is installed inside the bottom of the box of the module of the prefabricated hydraulic structure.

The box of the module of the prefabricated hydraulic structure is made of sulfate-resistant concrete.

It should be noted that the connecting brackets installed in the holes in the bottom of the module, with a limited displacement of the modules relative to each other, caused by the perception of the wave force by the hydraulic structure, experience loads that contribute to their pulling out to a much lesser extent than in the prior art, in addition, the location holes in the bottom allows you to redistribute the load caused by the forces transmitted to the module through the connecting brackets, increasing the volume of the material taking the load, thus increasing the reliability and durability of the modules and the structure as a whole. At the same time, the rejection of additional holes for drainage makes it possible not to weaken the bottom of the module, which also contributes to an increase in reliability and durability.

In addition, the use of reinforcement at the bottom of the module also prevents its damage by forces transmitted through the connecting brackets.

This application is illustrated by the following graphic materials:

FIG. 1. Module of prefabricated hydraulic structures.

FIG. 2 and 3. Fragment of a hydraulic structure assembled from modules.

The module of a prefabricated hydraulic structure is a rectangular box (1), open from its upper side, in the bottom (2) of which at least four holes (3) are made, into at least one of which it is inserted by one of its end, the connecting bracket (4) and secured against falling out by the locking element (5), while the diameter of the holes (3) in the bottom (2) is larger than the inserted end of the bracket (4), and the locking element (5) does not completely cover the hole (3) in day (2).

Reinforcement cage (6) is installed inside the bottom (2) of the box (1) of the module of the prefabricated hydraulic structure.

The box (1) of the module of the prefabricated hydraulic structure is made of sulfate-resistant concrete.

The bottom of the module can be reinforced with a frame made of steel or plastic, in particular, fiberglass reinforcement.

The number of holes in the bottom of the module, which are both connecting and drainage holes, is selected based on the size of the module, however, to ensure that the modules are assembled in a staggered manner, there cannot be less than four.

The diameter of the holes in the bottom of the module is larger than the inserted end of the bracket by an amount that, taking into account the used fixing elements, provides the required drainage rate. The calculation of hole sizes is performed using mathematical modeling, or experimentally on scale models or full-size products.

At least one hole in the bottom of the module is provided with a connecting bracket. At the same time, several or all holes in the bottom of the module can be provided with connecting brackets, depending on the position of the module or group of modules in the hydraulic structure, as well as in order to ensure assembly.

Various elements, in particular of an elongated shape, attached to the ends of the connecting brackets, after they are inserted into the holes in the bottom of the module, without completely overlapping these holes, can be used as fixing brackets against falling out of elements.

In one embodiment, the connecting brackets are formed from a bent rod, and the elements that prevent them from falling out are in the form of short rods, which are attached, for example welded, to the ends of the brackets after they are inserted into the holes in the bottom of the module without completely overlapping these holes.

In the simplest example, the anti-fall element is the folded end portion of the end of the staple.

A hydraulic structure assembled from modules is a single structure formed by staggered modules connected to each other, while the connection is carried out with brackets inserted into the holes in the bottom of the module. This connection allows limited movement of the modules relative to each other. Thus, a single flexible structure is formed, including the cavities of the modules and the gaps between the modules of a complex labyrinth shape.

Waves or water currents carry with them particles of silt and sand, which settle in the cavities of the modules and the labyrinth between the modules, washing them, which prevents the erosion of the coastline and raises its level to the height of the modules.

It should be noted that the large supporting surface of the modules allows them to work effectively on finely dispersed soils and silts, without initially sinking into them.

In some cases, during the construction of a hydraulic structure, several rows or layers of modules are laid, in particular with a pyramid, to the required height, for example, until the wave stops eroding the cliff.

With such a stacking, due to the placement of parts of the brackets of the upper row or layer in the cavities of the modules of the lower one, at least a significant shift relative to each other from the force of the waves is excluded.

Claims (3)

1. The module of a prefabricated hydraulic structure is a rectangular box, open from its upper side, at the bottom of which at least four holes are made, into at least one of which a connecting bracket is inserted at one of its ends and is fixed from falling out by the fixing element, while the diameter of the holes in the bottom is larger than the inserted end of the bracket, and the fixing element does not completely cover the hole in the bottom. 2. The module according to claim 1, characterized in that a reinforcing frame is installed inside the bottom of the box. 3. The module according to claim 1, characterized in that the box is made of sulfate-resistant concrete.

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