RU2688300C1 - Modelling method based on polygonal cutting from thick-sheeted material - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to methods for prototyping three-dimensional items based on polygonal cutting, and can be most effectively used in industrial design both during demonstration, and exploratory modelling, in the manufacture of three-dimensional objects and models for advertising and design and educational purposes. Essence of the invention consists in the fact that creating a prototyping method based on polygonal cutting from a plate material, which includes a polygonal pattern virtual modelled object and assembly of mock-up based on it, characterized by that polygonal pattern is made of plate material, connected polygonal elements of mock-up during assembly are glued from inner side of mock-up with the help of hot-melt glue, and to ensure correct joint of glued elements and shape of glued fragment of mock-up, connected polygonal elements of mock-up to gluing them with the help of hot melt glue are fixed to each other on outer side of mock-up by means of temporary retainers.EFFECT: technical result of the invention is simple and fast assembly of the mock-up when using the polygonal pattern and improved strength characteristics of the mock-up based on the polygonal pattern.1 cl, 2 dwg

Description

The invention relates to methods for the manufacture of three-dimensional products based on the principle of using polygonal cutting of sheet materials, and can most effectively be used in the field of industrial design in the manufacture of three-dimensional objects and layouts for decorative and applied and educational purposes.

A known method of manufacturing bulk products using a flat paper cutting (Kalmykova N., Maksimova I. Designing from paper and cardboard: Tutorial. - M .: Book house "University", 2000). This method provides for the assembly of three-dimensional volumetric objects from separate flat elements of the paper pattern by gluing the elements of the pattern together with the help of special auxiliary fixing paper strips-valves, the curvilinear surfaces of the object being designed by bending the flat elements of the pattern.

The disadvantage of this method is that with its help, the layout can be made exclusively of paper no thicker than whatman paper, since the existing need to bend the elements of the pattern is not possible when using thicker sheet materials.

Also known is a method of manufacturing three-dimensional volumetric products based on the use of polygonal cutting of sheet material (M. Winninger. Models of polyhedra. - M .: Mir, 1974). In accordance with this method, three-dimensional objects are formed from a polygonal pattern containing flat polygons (polygons) cut from sheet paper no thicker than a drawing paper and interconnected by means of special auxiliary fixing paper strips-flaps. Curvilinear surfaces of the object being modeled are performed without bending the flat elements of the pattern due to the size and shape of the polygons, the corresponding connection of which allows you to simulate any surfaces of a three-dimensional object.

The disadvantage of this method is the duration of the layout assembly process (step-by-step gluing of the elements of the pattern takes time to dry, without which the assembly cannot be continued) and insufficient rigidity of the layout, requiring subsequent strengthening of the layout (covering the inner surface of the layout with papier-mâché layers, epoxy putties or other strength characteristics of the layout, materials).

Of the known methods of manufacturing three-dimensional products, based on the principle of their formation from flat elements of the pattern of sheet material, the closest in technical essence is the children's designer of construction equipment (British patent GB 2344770 A dated June 21, 2000). This constructor is a set of sheets of plate material with formed rectangular polygons with perforations along the lines of supposed folds. The necessary parts are cut, bent along the perforation lines and glued together in a manner typical of paper patterns, namely, using a so-called valve.

The disadvantages of this prototype are the duration of the layout assembly process, the gluing of the elements of the pattern is carried out in stages, as it requires technological time to dry the previous gluing for the subsequent gluing. In addition, the fold lines on the plate pattern are formed by pre-perforation, which can only be done under conditions of mass industrial production, and this makes it impossible to use this method of working with plate cutting for the purpose of making unique design layouts, educational models and art objects in the field of industrial design , arts and crafts and the educational process. In general, the known method of polygonal assembly of three-dimensional objects from a plate pattern is designed for the manufacture of volumetric primitives and does not allow for the execution of arbitrary shapes with a high degree of detail.

The technical problem is to expand the Arsenal of methods for manufacturing three-dimensional objects by creating a prototyping method based on polygonal cutting from a thick sheet material that has a short layout assembly time using a polygonal pattern, easy layout assembly, and improved strength characteristics of the layout.

The technical result of the invention is a simple and fast assembly of the layout when using a polygonal pattern and improving the strength characteristics of the layout based on the polygonal pattern.

The problem is solved due to the fact that a prototyping method is created based on polygonal cutting from a plate material, which includes a polygonal pattern of a virtual model of the object being projected and a layout based on it, while a polygonal pattern is made from a polygonal material the layout during the assembly are fixed to each other from the outside of the layout using temporary fixers, and from the inside of the layout using hot melt glue.

The analysis of the technique conducted by the applicant, including the search for patent and scientific and technical information sources, and the identification of sources containing information about analogues of the claimed invention, allow to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention.

The invention is illustrated by the following drawings, which depict:

FIG. 1 depicts the outer side of the assembled fragment of a polygonal pattern consisting of two elements.

FIG. 2, depicts the inner side of the assembled fragment of a polygonal pattern consisting of two elements.

The positions in the drawings denote: polygonal pattern element 1, temporary fixative 2, thermoplastic adhesive 3, reinforcement element 4.

The proposed method is implemented as follows.

The method is designed for prototyping three-dimensional objects based on the use of a polygonal pattern, made using a plate material, such as, for example, beer or binding cardboard, plastic sheet, etc., and contains the following implementation steps: creating a virtual model of the object being modeled, obtaining a polygonal patterns of the mockup object; assembly of the mockup object using hot melt; final processing of the mockup.

A virtual three-dimensional model of the object being created is created using computer editors of 3d models, for example, using Autodesk’s 3ds Max editor. It is possible to obtain a virtual model by scanning a real object using a 3d scanner. In addition, the virtual model can be taken from online resources, namely, from databases of 3d models.

Using a computer editor, 3d models translate a virtual model into a polygonal view, and then with the help of specialized computer editors, for example, using the Pepakura Designer program, get a polygonal pattern of the object being designed.

The resulting polygonal pattern is cut from a plate material, for example, from a beer or binding cardboard, using a cutting plotter. It is possible that the polygonal layout pattern is printed on a printer on plain paper or paper paper, and then the printout is used as a stencil for cutting out elements of the polygonal pattern 1 from a thick sheet material.

In accordance with the assembly instructions produce a phased assembly of the layout. The elements of the polygonal pattern 1 are held together by gluing from the inside with hot melt 3. In FIG. 2 shows the inner side of the assembled fragment of the layout, consisting of two three-polygonal elements 1. Thermal glue 3 is applied along the joining lines of the elements of the pattern 1 to be joined, and the hot glue 3 can be applied either with a solid line or with a dot. In addition, in order to impart greater rigidity and strength to the assembled model, it is possible to reinforce the connection of elements of a polygonal pattern 1 with the help of reinforcement elements 4, which are also fixed with hot melt 3.

For accurate reproduction of a mock up object, ensuring correct angular articulation of elements of a polygonal pattern 1 and ease of assembling a layout, prior to the connection of elements of a polygonal pattern 1 using a hot melt 3, they are fixed on the outside of the assembled fragment of the layout with temporary fixers 2. In FIG. 1 shows the outer side of the assembled fragment of the layout, consisting of two three-polygonal elements 1, which are fixed between each other by temporary fixers 2. As temporary fixatives 2, for example, adhesive tape, including construction, clay, and other materials that ensure the correct retention of elements can be used polygonal pattern 1 of the assembled fragment of the layout from its outer side for the period of gluing the fragment of the layout from the inner side using hot melt 3. Upon completion of gluing the fragments and melting layout temporary retainers 3 2 removed.

After complete assembly of the layout, its outer side is subjected to finishing procedures, such as, putty, polishing, painting and other finishing operations, in order to give curvilinear surfaces of the layout of the required type, corresponding to the shape of the layout object, and to eliminate the granularity of the surface of the layout that occurs when assembling the polygonal pattern .

Thus, the above information indicates the implementation when using the proposed method, the following cumulative conditions:

- the claimed method in its implementation, is intended for use in industrial design for the manufacture of demonstration models, and in the field of advertising and design and manufacturing business, and, in particular, in the educational process;

- for the claimed method as it is described in the independent clause of the stated claims, the possibility of its implementation is confirmed using the means and methods described in the application or known before the priority date;

- the claimed method in its implementation, is able to ensure the achievement perceived by the applicant of the technical result, which consists in a simple and quick assembly of the layout when using a polygonal pattern, improving the strength characteristics of the layout based on the polygonal pattern.

The proposed method in comparison with the prototype, which is taken as the traditional way of assembling a layout from a polygonal pattern, allows you to immediately assemble a layout with strength characteristics that do not require a reinforcement operation. In the traditional way, the layout is assembled from polygonal elements made of drawing paper, which have special valve strips with which the polygonal elements of the layout are glued together. Therefore, after assembling the layout, before proceeding with the elimination of the “facetiness” and giving the surface of the layout the shape and type of the object being designed, a stage is needed to strengthen the internal surface of the layout so that it will gain sufficient structural rigidity and strength. In the proposed method, the elements of the polygonal pattern are made of a plate material and the layout assembled using the proposed method immediately has the required rigidity and strength. In addition, the absence of the stage of strengthening the layout reduces the time spent on the production of the layout, and also simplifies the process of working on the layout.

In general, the process of assembling the layout significantly accelerated and simplified. When gluing polygonal elements with hot melt adhesive, structural strength is gained in 10 ... 20 seconds, during which the glue cools and hardens. In the traditional method, when gluing elements with paper strip-valves, a much longer time is required for them to dry out and gain structural strength, which allows the assembly process to continue.

In addition, the preliminary fixing of the glued polygonal elements with temporary clamps ensures the correct articulation of the glued elements and the shape of the glued fragment of the layout, reduces the likelihood of errors during assembly, makes the process of subsequent gluing with hot melt more comfortable. Assembling the layout without temporary fixers will lead to, given that the hot melt quickly and firmly hardens, the layout fragments assembled with the wrong corner joint will not be possible to correct later.

Additional advantages and advantages of the proposed method of prototyping in case of its use in the educational process are: students mastering a non-sophisticated prototyping technique that allows them to master the entire design process from the development of a virtual computer model to its material implementation in the form of a good quality mockup; they develop figurative spatial thinking and practically consolidate the fundamentals of stereometry

Example. The possibility of practical implementation of the proposed method of prototyping was tested by manufacturing an assembly consisting of two tripolygonal elements. Elements of a polygonal pattern were cut from beer cardboard with a density of 570 g / m2 and a thickness of 1.5 mm. After fixing the elements of the polygonal pattern from the outside with a Remontix masking tape of 40 mm thickness, which ensured the correct articulation of the elements of the polygonal pattern of the assembled fragment along the junction line, gluing was carried out from the inside. Yellow transparent rods of hot melt based on ethylene vinyl acetate (EVA) were used (diameter 11 mm, operating temperature 180 ... 190 degrees Celsius, Brookfield viscosity at 180 degrees Celsius 4200 ... 4800 mPas, setting time 15 ... 20 s) and hot melt gun Specialist BGZH-60 SPEC-3234. The assembled fragment showed good stiffness and strength, allowing work on the processing of its external surface. Even better strength characteristics were obtained when reinforcing the assembly using copper wire grade SV08G2S with a diameter of 0.8 mm, the brackets from which were fixed to the inner surface of polygonal elements using hot melt adhesive.

Claims (2)

1. Method of prototyping based on polygonal cutting from a plate material, including a polygonal pattern of a virtual model of the object being designed and assembling a model based on it, and making a polygonal pattern from a plate material, wherein the joined polygonal elements of the model are glued to during assembly the inside of the layout using hot melt glue; polygonal elements of the layout before gluing them with a hot-melt adhesive are fixed between themselves from the outside of the layout with the help of temporary fixtures with ensuring the correct articulation of the glued elements and the shape of the glued fragment of the layout. 2. A method of prototyping based on polygonal cutting from a thick sheet material according to claim 1, characterized in that in order to obtain enhanced strength characteristics of the layout, the connected polygonal layout elements are strengthened along the connecting lines using reinforcement elements fixed with hot melt glue.

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