RU2035934C1 - Method and device for forming three-dimensional body - Google Patents

Abstract

FIELD: cultural and welfare facilities. SUBSTANCE: method involves forming a three-dimensional body from seven rings in the form of a flexible strip hoop with or without six or eight radial holes around the perimeter. First, two pairs of rings are formed by installing one ring into the other at an angle then installing one pair of rings into the other one in pairs with perpendicular rings in different pairs with a possibility for forming square-shaped cells. Then the remaining three rings are installed in succession in relatively perpendicular planes along cell diagonals on the first four rings with a possibility of subsequent connection of all rings at the contact surfaces by a separable or inseparable joint. The device for forming a three-dimensional body comprises seven rings, each made of a hoop-shaped flexible strip with or without six or eight radial holes, arranging the first four rings pairwise at an angle of 60 deg, perpendicularly in pairs to each other and forming square-shaped cells while the three other rings are installed on the first four ones in relatively perpendicular planes along cell diagonals. The rings may be connected by a separable or inseparable joint. EFFECT: better entertainment. 2 cl, 5 dwg

Description

 The invention relates to cultural objects, in particular to decorative objects, folding products, toy sets, display stands, coasters, and can also be used as toys and puzzles.

 A known method of forming a three-dimensional body from a flexible tape: tetrahedron, octahedron, etc.

 The disadvantage is the weaving of the tape of large lengths, increased material consumption.

 A known set comprising five separate elements based on a hollow cube.

 The disadvantages are complication due to volumetric elements, docking and joining along the planes of long parts.

 Known disk puzzle consisting of six plate elements forming the sides of the cube.

 The disadvantage is the complexity of volumetric elements.

 Known spherical reservoir, the shell of which consists of interconnected spherical elements in the form of contacting spherical segments and curved spherical triangles.

 The disadvantage is the complexity of volumetric elements.

 There is a method of assembling an educational toy from rod elements connected to each other with the formation of a rod frame in the form of a polyhedron using hinged nodes.

One of the closest solutions is the device and method of forming a volumetric body [1]
The aim of the invention is to improve usability while expanding functionality.

This is achieved by the fact that the method of forming a volumetric body consists in forming a body of seven rings joined together to form a volumetric body. At the beginning, four rings, each of which is made in the form of a sample from an elastic tape with or without radial holes in the required combination, are introduced into each other in pairs by elastic bending and straightening, and then each part of two rings (each pair of rings) is introduced perpendicularly each other with the formation of a lattice sphere of four flat rings. Then, the three remaining rings, also made in the form of hoops of elastic tape with or without radial holes, are placed over the lattice sphere along the diagonals of its cells in the form of squares with the formation of a lattice body of three flat rings in mutually perpendicular planes, after which the rings in places of the platforms contact with or without holes are connected by fasteners or an integral connection or left free. This is also achieved in that the volume body device comprises seven rings, each of which is designed as a hoop of resilient band with radial holes, or without them, with the first four rings are arranged in pairs at an angle of ⁶⁰ °, and perpendicular to each other in pairs, and the other three the rings are located above them on the diagonal of their cells in the form of squares in three mutually perpendicular planes, while the rings, each of which is made with radial holes located uniformly around the circumference in the amount of six or eight, pad contact rings in places with radial openings or the uniformly circumferentially six or eight sites on each ring to form a latticework spheres with cells in the form of triangles (spherical) connected integrally or detachably with a compound of fastening elements or without them.

 Such a method of forming and arranging a volumetric body makes it possible to form a quick-detachable body in the form of a lattice sphere with cells in the form of triangles from an elastic tape or an integral spherical body.

 In FIG. 1 shows a volumetric body device; in FIG. 2 same, top view; in FIG. 3 ring with six holes of elastic tape; in FIG. 4 ring with eight holes of elastic tape; in FIG. 5 input rings in pairs.

 The method of forming a volumetric body is that the volumetric body is formed of seven rings 1, each of which is made in the form of a hoop of elastic tape with radial holes 2 or without them in the required combination, and at first two pairs of rings are formed by entering them into each other in pairs by means of elastic bending and straightening, and then one pair of rings is introduced into another perpendicular to each other by rings 1 to form a lattice sphere of four flat rings. After that, the other three rings 3 are installed over the lattice sphere along the diagonals of its cells in the form of squares with the formation of a lattice of three flat rings 3 in mutually perpendicular planes, and rings 1 and 3 are connected at the sites of the contact area 4 with holes 2 or without them through elements fastenings or one-piece connection or leave free.

Volumetric body apparatus comprises seven rings, each of which is designed as a hoop of resilient band with radial holes 2, or without them, with four rings 1 are arranged in pairs at an angle of ⁶⁰ °, and perpendicular to each other in pairs, and the other three rings 3 are disposed on the first four rings 1 on the diagonal of their cells in the form of squares in three mutually perpendicular planes, each ring 1 is made with radial holes 2 arranged uniformly around the circumference in the amount of six pieces, and each ring 3 is also made flaxen with radial holes 2 arranged uniformly around the circumference in the amount of eight pieces, moreover, the contact pads 4 are located in places with radial holes 2 or evenly circumferentially along six or eight sites on each ring 1 or 3 with the formation of a lattice sphere with cells in the form of triangles (spherical) and are connected by an integral connection, for example gluing, welding, strapping, etc., or detachable with fastening elements, for example a bolted connection, or without them. The elastic rings 1 and 3 of the tape can be made of different widths or the same of different materials, for example metal, plastic, paper, cardboard, etc. and various colors, transparent and opaque, mirror, etc.

 Work with the device of the volumetric body is as follows.

 A volumetric body is assembled from seven parts 1 and 3 of rings of elastic tape by introducing into each other with contact pads 4 evenly spaced on each ring on a circle, forming a lattice sphere with a detachable connection of contact pads 4 with holes 2 or with an integral connection and the assembled volumetric the body is mounted on a support plane with cells in the form of triangles in various positions and is used as a decorative body, exhibition or advertising stand, frame, toy, etc. from various materials, in whole or in part. Radial holes 2 facilitate the insertion of rings into each other when working with them with permanent or temporary fastening through them. Cells in the form of only triangles provide increased structural rigidity, i.e. provide its reliability.

 During transportation and storage, a volumetric body with a detachable connection is disassembled by disconnecting the fasteners and removing the elastic rings 1 and 3 from each other into separate parts that are stacked on top of each other.

 Using the method of forming and constructing a volumetric body allows to reduce weight and increase the rigidity of a volumetric body in the form of a spherical body to transport it at a small volume and to store, expand its operational qualities due to the execution of various materials in whole or in part, due to the formation of a set of parts of volumetric bodies and rings.

Claims (2)

 1. The method of forming a three-dimensional body, which consists in the fact that the three-dimensional body is formed from a set of rings by alternately installing one ring into another, characterized in that, in order to improve usability while expanding the functionality, the three-dimensional body is formed of seven rings, each of which is made in the form of a hoop of elastic tape with or without radial holes, while at first four rings are installed in pairs one at another at an angle to each other by elastic bending of one of the rings and p displace it inside another with subsequent straightening, and then one pair of rings is installed in another pair of rings mutually perpendicular to the rings in different pairs with the possibility of forming cells in the form of a square, after which the remaining three rings are installed on these rings in mutually perpendicular planes along the diagonals of the cells possible subsequent connection of all rings to each other in places of contact areas with holes or without them is indivisible or detachable by means of fasteners. 2. A device for forming a three-dimensional body containing a set of interconnected rings, characterized in that, in order to improve usability while expanding functionality, the set consists of seven rings, each of which is made in the form of a hoop from an elastic tape with six or eight radial holes provided uniformly along the perimeter, or without them, with four rings are arranged in pairs at an angle of 60 ^o in pairs and perpendicular to each other to form a cell in the form of a square, and three others to ltsa mounted on them in mutually perpendicular planes, along the diagonals of the cells, the rings being adapted to be releasably by means of fastening elements or without them or permanent connection between them in their places of contact pads, the number of which each ring is six or eight.

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