RU108715U1 - DESIGN OF VOLUME RECTANGULAR MODULES - Google Patents

Abstract

 1. The designer of volumetric rectangular modules made on the basis of a cube with cylindrical holes located on the axis of symmetry between each two opposite face faces of the cube, at right angles to each other and plug-in connecting sleeves with end parts mating cylindrical holes, characterized in that volumetric rectangular modules are made hollow with two opposite open faces, cylindrical holes are located in the inner insert, made at the same time with volumetric rectangular lnymi modules. ! 2. The designer according to claim 1, characterized in that a part of the volumetric rectangular modules is made in the form of parallelepipeds, the volume of which is equal to the volume of two cubes, and each open face is two open faces of the cube. ! 3. The designer according to claim 2, characterized in that it includes hollow triangular prisms, the volume of which corresponds to half the volume of the cube, and the open face to the open face of the cube. ! 4. The designer according to claim 3, characterized in that the triangular prisms are made integral with the inner insert. ! 5. The designer according to claim 1, characterized in that the cylindrical holes on the front faces are made through and blind, in the form of sockets, and the inner insert is made cross-shaped. ! 6. The designer according to claim 5, characterized in that the end parts of the cross-shaped inner insert on the open faces are made in the form of sockets. ! 7. The designer according to claim 5, characterized in that the end parts of the cross-shaped inner insert on the open faces are made in the form of a socket and plug. ! 8. The designer according to claim 1, characterized in that the plug-in connecting sleeve optionally

Description

The utility model relates to entertaining volumetric games, namely to prefabricated game structures from various modules, for example, cubes, triangular prisms, parallelepipeds and plug-in connecting elements for assembling these modules, can be used to increase the fun in young children.

A well-known designer, containing as the main elements cubes made with non-removable connecting elements in the form placed on opposite faces, mating when connecting protrusions and sockets (US Pat. RU No. 2150985, MKI A63H 33/08, op. 2000).

The well-known design limits the game properties of the designer, since the connection of the basic elements-cubes is possible only in four of the six faces. At the same time, the nomenclature of structures created using the well-known designer is limited, non-removable protrusions interfere with the correct perception of the created structures.

The closest is the designer, consisting of volumetric rectangular modules made on the basis of a cube with cylindrical holes located along the axis of symmetry between each two opposite face faces, at right angles to each other and plug-in connecting sleeves with end parts mating with cylindrical holes (US Pat. RU No. 17679, MKI A63H 33/08, op. 2001 - prototype).

The essence of the famous designer is to create various combinations of the basic elements-cubes using all six faces of the connecting elements. However, the used connecting elements in the known constructor are inconvenient to use, the nomenclature of the main and additional elements limits the game properties of the constructor, which does not allow diversifying imagination in young children.

The objective of the proposed utility model is to expand gaming properties, increase amusement, and the ability to create more complex three-dimensional structures.

The problem is solved in that in the well-known designer of volumetric rectangular modules made on the basis of a cube with cylindrical holes located along the axis of symmetry between each two opposite face faces of the cube, at right angles to each other and plug-in connecting sleeves with end parts mating cylindrical holes, volumetric rectangular modules are made hollow, with two opposite open sides, cylindrical holes are located in the inner insert, made together with bulky rectangular modules.

Part of the volumetric rectangular modules is made in the form of parallelepipeds, the volume of which is equal to the volume of two cubes, and each open face - two open faces of the cube.

The structure of the designer additionally introduced hollow triangular prisms, the volume of which corresponds to half the volume of the cube, and the open face corresponds to the open face of the cube.

Triangular prisms are made integral with the inner insert.

Cylindrical holes on the front faces are made through and blind, in the form of sockets, and the inner insert is made cross-shaped.

The end parts of the cross-shaped inner insert on the open faces are made in the form of sockets or in the form of a socket and plug.

Plug-in connecting sleeves are additionally equipped with external and internal stops located along the symmetry axes perpendicular to each other.

The external limiter is made in the form of a ring with diametrically located grooves, and the internal one is in the form of grooves of forks located on the end parts of the hollow cylinder.

The designer is additionally equipped with covers corresponding to the open faces of the rectangular modules.

The covers are made with holes coaxial to the inner inserts, the diameter of which is less than the diameter of the external limiters of the plug-in connecting sleeves.

The designer is made of a copolymer of acrylonitrile or butadiene or styrene-ABS plastic.

The achievement of the technical result is facilitated by the expansion of the range of volumetric rectangular constructor modules, their implementation in the form of a cube, parallelepiped - a double cube, a triangular prism, as well as various designs of the end parts of the inner inserts. The game features of the designer are also enhanced by the presence of internal inserts and plug-in connecting sleeves, which are used in various combinations to interface the main parts - various volumetric rectangular modules. The presence of covers allows you to more interestingly draw the outline of the final volumetric design.

The essence of the utility model is illustrated by drawings.

Figure 1 presents the designer of the conjugate volumetric rectangular modules;

figure 2 - view aa, figure 1;

figure 3 - view BB in figure 1;

figure 4 - plug-in connecting sleeve in isometry.

The designer consists of sets of volumetric rectangular modules made of a copolymer of acrylonitrile or butadiene or styrene-ABS plastic in the form of a cube 1, parallelepiped 2, triangular prism 3 and plug-in connecting sleeves 4 (see Figs. 1-3).

The front faces of the cube 1 and the parallelepiped 2, equal in width to two cubes, are made with cylindrical holes 5 located along the axis of symmetry between each two opposite face faces of the cube 1, at right angles to each other with end parts 6, 7 corresponding to the cylindrical holes 5 The cylindrical holes 5 on the front faces are made through 8 and blind, in the form of sockets 9.

Volumetric rectangular modules of cubes 1 and parallelepipeds 2 are hollow, with two opposite open faces 10. Moreover, the cylindrical holes 5 are located in the inner, cross-shaped insert 11, made integral with the volumetric rectangular modules.

Hollow triangular prisms 3, the volume of which corresponds to half the volume of the cube, and the open face corresponds to the open face of the cube 10, also made integral with the inner insert 12.

The end parts of the plug-in connecting sleeves 4 are made in the form of forks 13. The plug-in connecting sleeves 4 are additionally equipped with an external, made in the form of a ring 14 with diametrically located grooves 15, and an internal, in the form of grooves 16 of the forks 13, with limiters located along the symmetry axes perpendicular to each other ( figure 4).

The designer also contains covers 17, 18 made of a copolymer of acrylonitrile or butadiene or styrene-ABS plastic, corresponding to the open faces of the rectangular modules of cubes 1, triangular prisms 3 or parallelepipeds 2. The covers 17, 18 are made with holes 19, coaxial to the inner inserts 11, diameter d which are smaller than the diameter D of the external stops 14 of the plug-in connecting sleeves 4.

The constructor for constructing various volumetric structures is used as follows.

Cubes 1, parallelepipeds 2, a triangular prism 3 with cylindrical holes 5 are connected to each other by means of plug-in connecting sleeves 4 or end parts 6, 7 of the inner inserts 11, made at the same time with their front faces. In this case, the mating faces are arranged towards each other with mating end parts: socket 9 - plug 13. Moreover, the number of used main elements 1, 2, 3, plug-in connecting sleeves 4 and covers 17, 18 is limited by the imagination of the child.

Thus, through the use of the proposed material and the implementation of the basic elements of volumetric rectangular modules, hollow assembly of the final volumetric part is facilitated, and the proposed nomenclature of parts, the design of plug-in connecting sleeves and end inserts contribute to the expansion of gaming properties, increase the fun, the ability to create more complex volumetric structures. connecting elements.

Claims (12)

1. The designer of volumetric rectangular modules made on the basis of a cube with cylindrical holes located on the axis of symmetry between each two opposite face faces of the cube, at right angles to each other and plug-in connecting sleeves with end parts mating cylindrical holes, characterized in that volumetric rectangular modules are made hollow with two opposite open faces, cylindrical holes are located in the inner insert, made at the same time with volumetric rectangular lnymi modules. 2. The designer according to claim 1, characterized in that a part of the volumetric rectangular modules is made in the form of parallelepipeds, the volume of which is equal to the volume of two cubes, and each open face is two open faces of the cube. 3. The designer according to claim 2, characterized in that it includes hollow triangular prisms, the volume of which corresponds to half the volume of the cube, and the open face to the open face of the cube. 4. The designer according to claim 3, characterized in that the triangular prisms are made integral with the inner insert. 5. The designer according to claim 1, characterized in that the cylindrical holes on the front faces are made through and blind, in the form of sockets, and the inner insert is made cross-shaped. 6. The designer according to claim 5, characterized in that the end parts of the cross-shaped inner insert on the open faces are made in the form of sockets. 7. The designer according to claim 5, characterized in that the end parts of the cross-shaped inner insert on the open faces are made in the form of a socket and plug. 8. The designer according to claim 1, characterized in that the plug-in connecting sleeves are additionally provided with external and internal stops located along the symmetry axes perpendicular to each other. 9. The designer of claim 8, characterized in that the external stop is made in the form of a ring with diametrically spaced grooves, and the internal one in the form of grooves of forks located on the end parts of the hollow cylinder. 10. The designer according to claim 9, characterized in that it is further provided with covers corresponding to the open faces of the rectangular modules. 11. The designer of claim 10, wherein the covers are made with holes coaxial to the inner inserts, the diameter of which is less than the diameter of the external stops of the plug-in connecting sleeves. 12. The designer according to one of claims 1 to 11, characterized in that it is made of a copolymer of acrylonitrile, or butadiene, or styrene-ABS plastic.