RU189658U1 - ANTI-EROSION CONTAINER ROMBIC - Google Patents

Abstract

The technical solution relates to rhombic anti-erosion containers (PC-R), which are means of protecting underground engineering and main structures from scouring or erosion in trenches, and is intended to restore the profile of the trench or to strengthen the bottom, and can be used at near-bottom areas at underwater crossings . The task is to create a PC-R with improved performance. The technical result is to reduce the degree of filtration between the laid PC-R by taking into account both the strength and deformative characteristics while maintaining the PC-R shape, which ensures the stability of the constructed structures to the water flow. This is achieved by the fact that the anti-erosion container is made in the form of a container of polyester technical fabric with a loading neck, lifting loops and sewn side inserts, each of which has a diamond shape and forms a prism-shaped capacity with a cloth, the loading neck of which is sewn along its upper edge, and each load-lifting loop is sewn to the diamond-shaped insert parallel to its diagonal with the ends, and the load-lifting loops are made with a length that allows their connection I am with each other and the location of the place of such a connection over the loading neck, and its side inserts are made of polyester technical fabric having a surface density of 250 to 380 g / ms equal to the basis and weft of a breaking load of 60 to 130 kN / m and sewn in the cloth in such a way that when a load is applied, 25% of the breaking load have an elongation on the base and a duck from 3 to 30%. 2 hp f-ly, 2 ill.

Description

The technical solution refers to rhombic anti-erosion containers (PC-R), which are means of protecting underground engineering and main pipelines from scouring or erosion in trenches, and are intended to restore the trench profile or strengthen the bottom and can be used at near-bottom sections at underwater crossings of pipelines, for creation of engineering protection (lintels) that prevent water erosion of the soil, causing erosion of pipelines and associated buildings and structures.

The closest known is an rhombic anti-erosion container, made in the form of a container made from a cloth of polymer, preferably polyamide, technical fabric with sewn side inserts, a loading neck and lifting loops, in which each side insert is diamond-shaped to form a prism-shaped container with a cloth, loading the neck of which is sewn along its upper edge, and each lifting loop is sewn to the rhomb-shaped insert along one of its diagonals or forming the load-lifting loop with the branches obliquely at equal angles to the diagonal of the diamond insert, the load-lifting loops are made with the ability to connect with each other directly or by means of a connection, for example, flexible — in the form of a cord or rigid — in the form of a clip or wire-twisting over the loading neck (RU # 84497 U1, 07/10/2009).

In a rhombic anti-erosion container, due to its deformability, it is not possible to preserve the shape filled with the bulk material after it is transported and installed in the design position, which leads to the formation of gaps between the containers and insufficient insulation from the water flow. The ground blocking of cracks formed by the soil is not an effective form of combating soil erosion due to the possibility of washing out the soil under the loose surfaces of PC-R.

The task is to create a PC-R with improved performance.

The technical result of this technical solution is to reduce the degree of filtering between the laid PK-R by taking into account both their strength and deformative characteristics while maintaining the PC-R shape, which ensures the stability of the constructed structures to the water flow.

This is achieved by the fact that the anti-erosion container is made in the form of a container of polyester technical fabric with a loading neck, lifting loops and sewn side inserts, each of which has a diamond shape and forms a prism-shaped capacity with a cloth, the loading neck of which is sewn along its upper edge, and each load-lifting loop is sewn to the diamond-shaped insert parallel to its diagonal with the ends, and the load-lifting loops are made with a length that allows their connection I have between myself and the location of the place of such a connection over the loading neck, and the diamond-shaped inserts are made of polyester technical fabric, with the weft yarn and the base of the diamond-shaped insert parallel to the corresponding side, and the polyester technical fabric of the inserts has a surface density of (250-380) g / m ² with a breaking load (60-130) kN / m on the base and weft and sewn into the cloth in such a way that when 25% of the breaking load is applied, they have an elongation on the base and a duck not exceeding 30% (in the range of 3-30%). Thus, the side inserts are made in the form of a rhombus with equal diagonals, and the ends of each lifting loop are located at an angle of 45 ° to the weft and to the base in the plane of the corresponding side insert.

The materiality of the signs is ensured by their focus on achieving a technical result. Indeed, the rhombic shape of the prism-shaped inserts of the container contributes to the most dense and stable laying of PC-R into the structure under construction and reduces soil erosion. The arrangement of the weft yarns and the diamond insert base is parallel to their respective side and allows to minimize the deformation of the container shape, since in this case the load from the inert material is evenly distributed, keeping the diamond shape of the insert. The location of the loading neck along its upper edge excludes leaching of inert material, as well as the execution of lifting loops with a length that provides the possibility of their connection among themselves and the location of the place of such a connection above the loading neck - prevents arbitrary decoupling of the neck under the action of water flow. The implementation of the side inserts of polyester technical fabric, taking into account the interval density of 250-380 g / m ² eliminates the leaching of inert material from it. When the lower limit decreases, filtering can take unacceptable values, and as the values above are increased, increased rigidity is obstructed, making it difficult to evenly distribute the inert material, which can lead to loss of PC-R shape and non-uniform filtration along its surface boundaries. The optimal deformability of the PC-R is determined by the fact that with equal to the basis and duck breaking load of the side inserts, 60-130 kN / m, based on the design load (see table 1) and fixing them in a cloth so that 25% of the bursting, they have a relative elongation on the basis and the weft from 3 to 30% maintains the required form of PC-R. Thus, it is optimal to perform the side inserts in the form of a rhombus with equal diagonals, and the ends of each lifting loop should be located at an angle of 45 ° to the weft and to the base in the plane of the corresponding side insert.

FIG. 1 shows a general view of the anti-erosion container PK-R.

FIG. 2 shows the layout of weft threads and the basics of the diamond-shaped side inserts.

The anti-erosion container is a container of 1 polyester technical cloth with side sewn inserts along the edges 2 of diamond shape, which is called a diamond shape. Inert material is loaded through the loading neck 3, holding the container with lifting loops. The side inserts 2 are formed into a prism-shaped container with a diamond-shaped (i.e., diamond-like or diamond-like) side panels. The loading neck 3 is sewn along the top edge of the container in the slot of the cloth or at the seam of the joint of its edges, and each lifting loop with 4 ends is sewn to the diamond-shaped insert 2 in parallel (one by one) of its diagonals. Lifting loops 4 are made with the ability to connect with each other directly or by means of connection 5, for example, flexible - in the form of a cord or rigid - in the form of a clip or wire twist, and the connection of the lifting loops 4 is located above the loading neck 3. The side inserts 2 are made in the form diamond pattern.

The proposed container erosion rhombic (KP-R) is performed in accordance with TU 4834-005-89632342-2009 or replacing it and is a further improvement in terms of the essential features of this technical solution.

Anti-erosion containers - rhombic type KP-R are filled with a mobile bunker device. The caps of the containers KP-R put on the neck of the bunker and secured with bandage elements. The KP-P cargo elements are fixed on the bunker cargo elements so that when the KP-R is filled with inert material, the pressure of the filled KP-P containers falls on the KP-P cargo elements, and not on the KP-R necks to prevent them from jumping off the hopper necks. Before loading with inert material, the bottom of the KP-P containers should be straightened in order to avoid wrinkling and uneven loading of the containers. The filling of the bunker with inert material is produced by an excavator, if necessary with intermediate leveling of the soil with shovels. Filling of KP-R tanks with inert materials from the dump using a bunker device should be carried out with loose mineral soil with a fraction size not exceeding 50 mm; snow and ice should not be allowed into the KP-R tank. The loading is performed in two stages: - at the beginning, the bunker tanks are filled with inert material to the upper level - with the help of a hoisting mechanism, the bunker is lifted to the second stage a distance sufficient to completely fill the KP-P tanks with soil, as a result of the KP-P hangs on the cargo elements and inert material from the tanks hopper poured into the container KP-R. At the end of the filling, the hopper is lowered onto the filled KP-R to ease the tension of the cargo elements of the KP-R container. Dump the cargo elements of the container KP-P with the cargo elements of the bunker. Open the bandage elements of the hopper, remove the neck of the container KP-R with the hopper mouths. Bunker rearranged with the help of a lifting mechanism on the free space. The surface of the inert material in the cavities of the mouth of the container KP-R is distributed manually evenly over the cross-sectional area, after filling the neck is tied with braid sewn into the mouth of the container KP-R. KP-P filled with inert material is moved only when they are suspended by all cargo elements. Filled with soil KP-R is stored on a flat platform on a pallet or flooring. In order to protect in winter from freezing of inert material in the KP-P tank and / or freezing it to the ground, the KP-P is filled with inert material immediately before use. With a crane or other similar equipment, the KP-P is installed in accordance with the requirements of the project developed by the design organization. When stacking containers in a staggered order of height, the almost gapless adjoining of containers by adjacent walls is provided. Due to the distribution of the force of the weight of the container, taking into account the above parameters of the PC-R, gaps between adjacent containers are practically not formed. This prevents the flow of water to the protected object and prevents the destruction of the object due to leaching of the soil. Thus, panels of polyester technical fabric with a surface density of 250 to 380 g / m ² can be used, for example: TBG-360 GHV according to TU 8288-111-53578992-2015 (TU and CTO are given only as examples of the materials used and are not required to use).

Claims (3)

1. Anti-erosion container, made in the form of a container made of polyester technical cloth with a loading neck, load-lifting loops and sewn side inserts, each of which has a diamond shape and forms a prism-shaped form with a cloth, the loading neck of which is sewn along its upper edge and the load-lifting loop is sewn to the diamond-shaped insert parallel to its diagonal with the ends, and the load-lifting loops are made with a length that allows them to be interconnected and located Nia place of such a compound on the loading mouth, characterized in that the weft and warp yarns are parallel to their corresponding side rhomboid inserts which are made of polyester technical fabric having an areal density (250-380) g / m ² with an equal warp and weft breaking load component (60-130) kN / m, and sewn into the cloth in such a way that when a load is applied, 25% of the breaking load have an elongation on the base and weft from 3 to 30%. 2. Anti-erosion container under item 1, characterized in that the side inserts are made in the form of a diamond with equal diagonals. 3. Anti-erosion container according to claim 1 or 2, characterized in that the ends of each lifting loop are located at an angle of 45 ° to the weft and to the base in the plane of the corresponding side insert.

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