RU2009682C1 - Toy and method of manufacturing it - Google Patents

Abstract

FIELD: teaching toys. SUBSTANCE: toy has a reticular structure with fixed crossing portions. The structure is formed of a flexible long-size member the ends of which are joined. The method involves forming the reticular structure from a flexible long-size member by folding it for defining the crossing portions and joining the ends of the element. The folded flexible long-size element is further fixed in crossing locations. EFFECT: simplicity of manufacturing. 2 cl, 6 dwg

Description

 The invention relates to educational toys, in particular to models of flexible long element.

 The purpose of the invention is an increase in entertainment.

 In FIG. 1 schematically shows a toy; in FIG. 2 - toy with a ribbon element, general view; in FIG. 3 is a topological diagram of a toy in the form of a unicursal graph; in FIG. 4 is a topological diagram of the deformation of the element in the manufacture of toys (transitions I and II); in FIG. 5 - detail of the mutual arrangement of the ends of the curved-twisted element; in FIG. 6 is the same as in FIG. 4 (transitions III and IV).

 The toy has (Figs. 1 and 2) cross nodes 1 at the vertices of polygonal cells 2 and is formed by a flexible long-length element 3 with two connected ends 4 and 5. Each node is located at the intersection of sections 6 and 7 of element 3.

 The toy can be made in the form of a mesh shell.

 The element can be a tape 8 (Fig. 2 and 5) and can be made of metal, plywood, paper, in particular laminated, from polymer. The element may have different shapes and forms, be one-dimensional or multidimensional, flat or three-dimensional, in particular wire, tubular, inflatable.

 The nodes can be rigid or articulated, with the possibility of mutual forced shift or rotation of the cross sections, in particular detachable. The connection of the ends of the element can be rigid and detachable, in particular, in a node or between nodes. When connecting the ends, the element can be bent or bent and twisted.

 The toy may have (Fig. 3) a zigzag belt 9 and two central cells 10 and 11, between each of which and the belt 9 are quadrangular cells 12. The belt 9 may include alternating spacers 13 and two-sided segments 14, the sides 15 of each of which are untied at least one jumper 16 formed by the interstitial site. The number of inter-site sections 17 in the side 15 of each segment 14 is 1 greater than in the spacer 13, and the segments 14 and the sides, for example 32, 33, 34 of any central cell, in particular cell 10, are numerically equal.

 When executing a transformable toy, you can change the number of nodes, the composition and relative position of the cells.

 A toy is made by deforming the element (Fig. 4) with the formation of at least two loop sections 18 and 19 (transition I), which mutually overlap at least two nodes 20 and 21 (transition II).

The ends 4 and 5 of the element 3, in particular, are mutually twisted at an angle 22 multiple of the full (Fig. 5). In the shell of FIG. 2 angle 22 is 4˙360 ^about .

 In particular, element 3 is deformed (Fig. 6) to form a central triangular cell 10 and three arched sections 23.24 and 25, any of which includes a loop section 26.27.28, respectively, and a triangular section 29.30.31, respectively, having the common side is 32.33.34, respectively, with the central cell 10 (transition III). The loop sections 26,27,28 and triangular sections 29,30,31 of different arched sections 23,24,25 overlap in pairs at two nodes (transition IV). For example, loop section 26 of arch section 23 and triangular section 30 of arch section 24 overlap at nodes 36 and 37. Finally, the second central cell 11 is fixed, common for loop sections 26.27 and 28. The number is next to the corresponding section (Fig. 4 and 6, transitions I, II, and III) denotes the length of the section in the case of equilateral cells (the cell side is taken as the unit).

 The toy can be used as a visual and educational tool on labor, drawing, drawing, descriptive and differential geometry, topology and biophysics of proteins, psychological testing, as well as medical and labor therapy, decorative and applied art, small form architecture, design and advertising installations.

 The toy allows you to improve finger motility, develop observation, spatial imagination and creative abilities. (56) Copyright certificate of the USSR N 1450834, cl. A 63 H 33/16, 1986.

Claims (2)

TOY AND METHOD FOR ITS MANUFACTURE
1. A toy containing a mesh structure with fixed cross-sectional areas, characterized in that, in order to increase amusement, the mesh structure is formed by a flexible long-dimensional element with two connected ends.  2. A method of manufacturing a needle, including the formation of a mesh construction with fixed cross sections, characterized in that, in order to increase amusement, the mesh construction is formed from a flexible long-dimensional element by bending it with the possibility of forming a cross-section and connecting the ends of a flexible element long element in cross sections.

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