RU2624316C1 - Method of modified manufacturing three-dimensional object by origami fusen method - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: method of modified manufacturing three-dimensional object using the origami fusen method characterized in that in the manufactured flat preform to impart the internal volume by filling it, having four external large angles and two outer small angles spaced opposite, locking is provided from the side, from which, when manufactured by the origami fusen method, inflation and folding are performed on the line between the sides of the smaller angle of the tenth, the eleventh layers from the upper layers so that after folding the part of the tenth layer forms the thirteenth layer, the part of the eleventh layer forms the twelfth layer, and fixation is provided from the side, from which, when manufactured by the origami fusen method, inflation and folding are performed on the line between the small angle sides of the fourteenth, the fifteenth layers from the upper layers so that after folding the fourteenth layer part forms the seventeenth layer, the fifteenth layer part forms the sixteenth layer of all twenty-eight layers after fixion the layer folding.

EFFECT: improving the convenience of manufacturing three-dimensional objects, expanding the possibilities of using different materials and different methods, expanding the scope of manufacturing three-dimensional objects using the origami fusen method due to the ability to straighten a flat preform made to impart an internal volume by filling it, having four outer large angles and two oppositely located outer small angles, applying forces from the inside to the inner preform surfaces.

Description

FIELD OF THE INVENTION

The preferred field of application of the invention “Method for the modified manufacture of a three-dimensional object using the method of origami fusen” (hereinafter also referred to as “IZ”) is the manufacture of three-dimensional objects from paper.

State of the art

Well-known methods of manufacturing volumetric objects from paper by the method of origami fusen. As an analogue, the applicant knows a method of manufacturing the so-called “Paper bombs” (hereinafter also referred to as “A1”), disclosed in a source of information having bibliographic data on the Internet: http://womanadvice.ru/kak-sdelat-iz -bumagi-bombochku, by which a three-dimensional object called “Paper bomb” is made using the origami method of fusen, in which to create a three-dimensional object, a flat workpiece is made, having four large external corners and two opposite smaller external angles, consisting of twenty-four layers ev paper, which is "inflated" by filling inside with exhaled air. Signs A1, coinciding with the essential features of the claimed IZ, are: the use of the origami method of fusen, in which to create a three-dimensional object a flat blank is produced having four large external corners and two opposite smaller external angles. The applicant’s well-known reason that impedes, realizing A1, from achieving the technical result provided by IZ is the absence from the side, whence the fuseni is produced by “inflating”, bent along the line between the sides of the smaller angle of the tenth, eleventh, fourteenth, fifteenth from the upper layers so that after bending, part of the tenth layer forms the thirteenth layer, part of the eleventh layer forms the twelfth layer, part of the fourteenth layer forms the seventeenth layer, often Fifteenth layer formed sixteenth layer. As an analogue to the applicant, there is also known a method of directly producing origami “Fusen” (hereinafter also referred to as “A2”), disclosed in a source of information having bibliographic data on the Internet: http://pan-poznavajka.ru/publ/podelka_origami_fusen/ 2-1-0-433, by which a three-dimensional object called Fusen is made using the fusen origami method, in order to create a three-dimensional object, a flat workpiece is made that has four large outer corners and two opposite smaller outer corners, consisting of twenty-four layers boo Steps which "inflated" by filling the inside of the exhaled air. Signs of A2, which coincide with the essential features of the claimed IZ, are: the use of the origami method of fusen, in which to create a three-dimensional object, a flat workpiece is made, having four large external corners and two opposite smaller external angles. The reason known to the applicant that impedes the implementation, by implementing A2, of the technical result provided by IZ is the absence from the side where, when making the origami method, fusens are "inflated", bent along the line between the sides of the smaller angle of the tenth, eleventh, fourteenth, fifteenth from the upper layers so that after bending, part of the tenth layer forms the thirteenth layer, part of the eleventh layer forms the twelfth layer, part of the fourteenth layer forms the seventeenth layer, often Fifteenth layer formed sixteenth layer. The above method of manufacturing directly “Fusen” origami has an inherent set of features that is closest to the set of essential features of FM, therefore this analogue is indicated as a prototype.

Disclosure of invention

The essence of IZ, as a technical solution, is expressed in the following set of essential features, sufficient to achieve the technical result provided by IZ.

A method for the modified manufacturing of a volumetric object using the fusen origami method, characterized in that in the planar blank made to give the internal volume by filling it, it has four external large angles and two opposing external smaller angles that provide fixation from the side whence originated Fusen inflating, bending along the line between the sides of the smaller angle of the tenth, eleventh from the upper layers so that after bending part of the tenth layer about developed the thirteenth layer, part of the eleventh layer formed the twelfth layer, and provide fixation from the side, where, when making the origami method, fusen is inflated, bent along the line between the sides of the smaller angle of the fourteenth, fifteenth from the top layers so that after bending part of the fourteenth layer forms the seventeenth layer , part of the fifteenth layer formed the sixteenth layer of all twenty-eight after fixing the folding of the layers.

The above technical specifications achieve the following technical results.

Improving the convenience of manufacturing volumetric objects, expanding the possibilities of using various materials, various techniques, expanding the scope of manufacturing volumetric objects using the origami method of fusen due to the possibility of FROM expanding a flat billet made to give internal volume by filling it with four large external angles and two opposing outer smaller angles, exerting forces from the inside to the inner surfaces of the workpiece, following which eliminates the dependence of the features of manufacturing a volumetric object on the possibility of its "inflating" from the inside by exhaled air, or by anything at all, thereby providing the possibility of manufacturing volumetric objects of larger sizes than allows "inflation", manufacturing volumetric objects not only from those materials that allow "inflation", the manufacture of volumetric objects having a larger internal volume, even correlated with the size of a person or more, the manufacture of volumetric objects by various techniques.

Brief Description of the Drawings

Drawings are not given.

The implementation of the invention

FM will be described in detail below. It should be noted that the embodiments of FM described below do not limit the FM. In addition, the constituent elements of the FM embodiments described below include elements that can easily be represented by one of ordinary skill in the art, or elements that are essentially the same as elements that can easily be represented ordinary specialist in the relevant field of technology.

FROM can be carried out, for example, as manufacturing a three-dimensional object using the method of origami fusen, in which the sheet of paper used for this is folded into a single layer in the form of a square according to the well-known method of origami fusen to a triangle consisting of four layers of paper, which is taken as a rectangular one, t .e. in which the larger angle is called straight, its sides are further called legs, the line connecting the ends of its sides is called hypotenuse, and then the upper layer is bent along the lines of perpendiculars to the midpoints of the sides of the right angle onto itself, the upper layer is bent from itself along the lines of perpendiculars from the midpoints of the sides of the right angle to the hypotenuse, unbend the folds between the first and second layer from the midpoints of the sides of the right angle to the ends of these sides, bend the second layer along the lines of perpendiculars from the midpoints of the sides of the right angle to the hypotenuse, they irrigate the workpiece so that the lower layer becomes upper, bend the upper layer along the lines of perpendiculars to the midpoints of the sides of the right angle onto itself, bend the upper layer along the lines of perpendiculars from the midpoints of the sides of the right angle to the hypotenuse, unbend the folds between the first and second layer from the middle of the sides right angle to the ends of these sides, bend the second layer along the lines of perpendiculars from the midpoints of the sides of the right angle to the hypotenuse, bend the second and third from the upper layers of the resulting workpiece along the line of the perpendicular to the vertical line the axis of symmetry is a quarter of the height of this line from the lower edge of the workpiece, so that the part bent to the third layer becomes the fourth layer, and the part of the second layer bent to it becomes the fifth layer, turn the workpiece so that the lower layer becomes upper, bend the second and third from the upper layer of the resulting workpiece along the perpendicular line to the line of the vertical axis of symmetry at a quarter of the height of this line from the lower edge of the workpiece so that the part bent to the third layer becomes the fourth layer and the part of the second layer bent to it becomes the fifth with with a layer, unbend the upper layer from itself along the lines of perpendiculars from the midpoints of the sides of the right angle to the hypotenuse, restore the bends straightened between the first and second layers from the midpoints of the sides of the right angle to the ends of these sides, unbend the previously bent second layer along the lines of perpendiculars from the midpoints of the sides of the angle to the hypotenuse, turn the workpiece so that the lower layer becomes the upper one, straighten the upper layer away from you along the lines of perpendiculars from the middle of the sides of the straight corner to the hypotenuse, restore the bends, straightened wounds e between the first and second layer from the midpoints of the sides of the right angle to the ends of these sides, the previously bent second layer is bent along the lines of perpendiculars from the midpoints of the sides of the right angle to the hypotenuse, after which the resulting quadrilateral is continued to be folded, following the method of origami fusen, until it is made to give internal volume by filling it with a flat billet having four external large angles and two opposing external smaller smaller angles, after which, using the internal locking provided by FROM layers of the workpiece, allowing to straighten the workpiece from the inside, positioning the workpiece and its individual parts as efficiently as possible, penetrating inside until it can be completely in the corresponding internal space of the workpiece, straighten this workpiece, making efforts to optimally allow it to do as the places of internal surfaces blanks, giving the manufactured object the final shape, gradually approaching the shape of a cube, performing this in accordance with the most efficient way of giving the object the most stable shape both from the internal volume, which can be abandoned after this is completed, and as the object moves to the final position in space outside.

If necessary, the presentation of the above embodiment of the claimed IZ should be considered as a statement of at least the best of the proposed embodiments of the claimed IZ proposed by the applicant.

In conclusion, it should also be noted that while IZ was described with reference to exemplary embodiments, it should be understood that IZ is not limited to the exemplary embodiments, the material or structures described above, but covers any and all options in scope formulas FROM. It should also be understood that FM is intended to cover various modifications, and equivalent arrangements, and any other use cases of FM. In addition, it should be understood that while various elements of exemplary embodiments are described in various combinations and configurations that are exemplary, other combinations and configurations including more, fewer elements or only one element may also correspond to the essence and volume of FM.

Industrial applicability

It is obvious from the description and nature of the invention.

Claims (1)

A method for the modified manufacturing of a volumetric object using the fusen origami method, characterized in that in the planar blank made to give the internal volume by filling it, it has four external large angles and two opposing external smaller angles that provide fixation from the side whence originated Fusen inflating, bending along the line between the sides of the smaller angle of the tenth, eleventh from the upper layers so that after bending part of the tenth layer about developed the thirteenth layer, part of the eleventh layer formed the twelfth layer, and provide fixation from the side, where, when making the origami method, fusen is inflated, bent along the line between the sides of the smaller angle of the fourteenth, fifteenth from the top layers so that after bending part of the fourteenth layer forms the seventeenth layer , part of the fifteenth layer formed the sixteenth layer of all twenty-eight after fixing the folding of the layers.