RU2012114226A - METHOD FOR PRODUCING A CELLULAR STRUCTURE - Google Patents

Abstract

1. A method of manufacturing a cellular structure, according to which stretching and two-way orientation of a plastic starting material are used, in which an array of hexagons of substantially identical shape and size formed by holes is preformed so that essentially each hole is in the corner of each of the three hexagons, formed by holes, resulting in a lot of strips connected to each other in thickened nodes that form an array of hexagons consisting of and central thickened nodes and upper, lower and middle angular thickened nodes, and a tensile force is applied to such an extent that the strips are oriented, extending to essentially every place of their connection with the thickened nodes, and the branching point between each pair of adjacent strips is oriented in the direction passing at the branching point, as a result of which there is a continuous orientation from the edge of one strip to the edge of the adjacent strip at the branching point, characterized in that they get a corrugation tapered nodes of the X-shaped shape and the aforementioned orientation of all pairs of strips is carried out in the direction along the contour of this shape, moreover, in the hexagons formed by the thickened nodes, horizontal displacement of the upper and lower angular thickened nodes is offset relative to each other, while the strips are parallel to one from the directions of stretching and orientation of the cellular structure, are made wider and thinner than the remaining strips. 2. The method according to claim 1, characterized in that the stretching of the plastic source material is used

Claims (4)

1. A method of manufacturing a cellular structure, according to which stretching and two-way orientation of a plastic starting material are used, in which an array of hexagons of substantially identical shape and size formed by holes is preformed so that essentially each hole is in the corner of each of the three hexagons, formed by holes, resulting in a lot of strips connected to each other in thickened nodes that form an array of hexagons consisting of and central thickened nodes and upper, lower and middle angular thickened nodes, and a tensile force is applied to such an extent that the strips are oriented, extending to essentially every place of their connection with the thickened nodes, and the branching point between each pair of adjacent strips is oriented in the direction passing at the branching point, as a result of which there is a continuous orientation from the edge of one strip to the edge of the adjacent strip at the branching point, characterized in that they get a corrugation tapered nodes of the X-shaped shape and the aforementioned orientation of all pairs of strips is carried out in the direction along the contour of this shape, moreover, in the hexagons formed by the thickened nodes, horizontal displacement of the upper and lower angular thickened nodes is offset relative to each other, while the strips are parallel to one from the directions of stretching and orientation of the cellular structure, are made wider and thinner than the rest of the strips. 2. The method according to claim 1, characterized in that the stretching of the plastic source material in one of the directions is not perpendicular to the other direction of its stretching. 3. The method according to claim 1, characterized in that inside of at least one hexagon formed by holes in the plastic source material, at least one additional hole is made preliminarily with a size of at least the size of the holes of this hexagon. 4. The method according to claim 3, characterized in that the additional hole is transformed with its location in one of the thickened nodes.