RU2009110645A - METHOD FOR MANUFACTURING SOIL GEOCONTAINER - Google Patents

Abstract

 1. A method of manufacturing a ground geocontainer, including loading soil into a container, compacting it, stripping the container and unloading the finished product, characterized in that before loading the soil into the internal cavity of the rigid forming container, the overall dimensions of which are set depending on the shape and weight of the geocontainer, a flexible container made of geotextiles is immersed, all sides of which from the outside are preliminarily sheathed with patch strips of geotextiles and are placed in the middle of each of the outer sides n flexible container, while the overall dimensions of the flexible container are set to exceed the overall dimensions of the rigid container-former, the height of the flexible container is set to the appropriate height of the rigid container-former and above it by a length sufficient for subsequent connection and bending of the upper free parts of the flexible container and the formation of the inner space for placement in it of a removable metal beam, providing convenient extraction of the geocontainer from a rigid container-shaped atelier and lightweight installation of the geocontainer at the place of its use, moreover, before the flexible container is immersed in a rigid container-former, its folding sides are fixed in a vertical position, after which the flexible container is lowered into the internal cavity of the rigid container-former to its entire depth until the bottom of the flexible container is in full contact the container with the bottom of the rigid container-former and form a single forming internal cavity, the volume of which corresponds to the internal volume rigidly

Claims (3)

1. A method of manufacturing a ground geocontainer, including loading soil into a container, compacting it, stripping the container and unloading the finished product, characterized in that before loading the soil into the internal cavity of the rigid forming container, the overall dimensions of which are set depending on the shape and weight of the geocontainer, a flexible container made of geotextiles is immersed, all sides of which from the outside are preliminarily sheathed with patch strips of geotextiles and are placed in the middle of each of the outer sides n flexible container, while the overall dimensions of the flexible container are set to exceed the overall dimensions of the rigid container-former, the height of the flexible container is set to the appropriate height of the rigid container-former and above it by a length sufficient for subsequent connection and bending of the upper free parts of the flexible container and the formation of the inner space for placement in it of a removable metal beam, providing convenient extraction of the geocontainer from a rigid container-shaped atelier and lightweight installation of the geocontainer at the place of its use, moreover, before the flexible container is immersed in a rigid container-former, its folding sides are fixed in a vertical position, after which the flexible container is lowered into the internal cavity of the rigid container-former to its entire depth until the bottom of the flexible container is in full contact the container with the bottom of the rigid container-former and form a single forming internal cavity, the volume of which corresponds to the internal volume rigidly about the container-former, with the upper free parts of the flexible container extending beyond the limits of the rigid container-former, together with patch strips, wrap on the outside of its folding sides and fasten on them around the entire perimeter of the rigid container-former, and then into the formed single forming the internal cavity through the upper open parts of both containers is soil of natural moisture until the hard container-former is fully loaded, and the soil is compacted layer by layer with the distribution of soil throughout the internal volume of the rigid container-former, until the ground mass is shaped corresponding to the shape of the rigid container-former and until a solid soil-monolith is formed in a single internal cavity of the rigid container-former as a bulk ground geocontainer, and then from the outside sides of the hinged sides of the rigid container-former remove the wrapped upper free parts of the flexible container and together with the overlay they are lifted up by strips, connected, then bent, two clamping metal plates are applied to these parts on both sides, they are rigidly connected to form an internal space under the bent upper free part of the flexible container, and the ends of this free part of the flexible container are left out from under the clamp a metal plate, after which a removable traverse is placed in the formed inner space, on which two ring-shaped elements are previously fixed from its two sides, o the dyne of which is carried out by drowning, after which the folding sides of the rigid container-former are opened, the removable metal cross-arm is seized by both ring-shaped elements and the ground geocontainer is removed from the internal cavity of the rigid container-former. 2. The method according to claim 1, characterized in that the geotextile fabric for a flexible container is set with a tensile strength of more than 200 N / linear. cm synthetic fabric. 3. The method according to claim 1 and 2, characterized in that the geotextile web for patch strips is set with a strength several times greater than the geotextile strength for a flexible container.