RU2670691C1 - Toy construction set element and toy construction set - Google Patents

Abstract

FIELD: satisfaction of human vital requirements.SUBSTANCE: present group of inventions refers to the elements of the designer, which can be used both in children's building kits and puzzles, and in designers for the manufacture of various transformable models. Constructor contains the elements of the designer in the form of polyhedrons, made with the possibility of connecting with each other, and the connecting elements made with the possibility of connecting the elements of the designer, each element of the constructor comprising upper and lower faces, four side faces and protruding portions configured to be connected to the counter-protruding portions of the other major elements of the designer. First protruding part of the polyhedron is made on the first lateral face of the polyhedron and contains a transverse groove, the second protruding part is located on the upper face of the polyhedron, is made in the form of a first parallelepiped and is provided with an opening on the upper face of the parallelepiped and a facet on one of its edges, the third protruding part is located on the upper face of the polyhedron, adjoining one of its lateral faces to the first parallelepiped, is made in the form of a second parallelepiped of lower height than the first parallelepiped, and is provided with a rod on the upper face of the parallelepiped and chamfered on an edge opposite to the edge with a chamfer of the first parallelepiped; on the edge formed by the second and third lateral faces of the polyhedron, the latter of which is opposite to the first lateral face of the polyhedron, a chamfer is located; on the edge formed by the third and fourth lateral faces of the polyhedron, the last of which is adjacent to the first lateral face of the polyhedron, is the eyelet. Each connecting element is made in the form of a prism with a section in the form of an oval with rods on the upper edge in the edge parts with the possibility of connecting with the elements of the designer the upper face of the connecting element with the upper edges of the elements of the designer and with the possibility of passing the rods of the connecting element through the eyes of the elements of the designer located adjacent to each other by the second and fourth side faces, wherein at least eight structural elements are adapted to be connected to at least two connecting elements to form a double-acting pivot connection.EFFECT: technical result consists in expanding the functionality of the designer by increasing the options for connecting the elements of the designer.2 cl, 7 dwg

Description

The present group of inventions relates to the elements of the designer, which can be used both in children's construction sets and puzzles, and in designers with unified details to create various transformable models.

An element used as a toy or a learning tool is known, which comprises a central part and a connecting part, the central part comprising a connecting part and at least one encircling groove, and the connecting part contains an eyelet and an end part which is connected to the connecting part of the central part and the lug complements the surrounding groove of the adjacent central part. The connection of several elements to be connected can be in different directions from the element to be connected. From a variety of known elements, spatial structures can be obtained (patent RU 2642530 C2, published 01/25/2018).

A designer element is known having a hexagon with a central hole and with protrusions on the side faces, with the protrusions on opposite faces arranged in pairs opposite each other, and the hexagon is provided with two groups of additional protrusions, each of which includes four protrusions identical to the protrusions side faces and placed on each base of the element at the corners of the central hole in pairs opposite each other (patent RU 4236 U1, published 06.16.1997).

A polygonal element is known for forming multi-faceted structures (game constructor) by swiveling a plurality of such elements in butt joint, in which each lateral edge of the polygonal element contains an inner edge and an outer edge, first and second protrusions extending outward from the outer edge and defining a recess between them, indicated the first protrusion consisting of a pair of spaced parts, and the outer side surfaces of these parts are located at a distance, the outer surface of this part, adjacent to the a second second protrusion forming the first lateral side of said recess and forming a supporting surface, a second lateral surface of said recess formed on said second protrusion and having a hinged seat formed therein, and an outer lateral surface of the part provided with a hinged protrusion (US Pat. No. 5501626 A, published 03.26.1996).

As the closest analogue, a constructor element is selected, which contains the main element and protruding parts placed on it, which form four groups of projections. In the first group, the projections are made with a cross-shaped cross section. In the second group, the protrusions are tubular with a cross-section in the form of a square. In the third group, the protrusions are made in the form of rectangular plates having sides on the short sides. The sides are inclined towards each other with the formation of a gap between their end parts. In the fourth group, the protrusions are made in the form of corners, the shelves of which are arranged perpendicular to the plane of the base on its adjacent ends flush with these ends. All protrusions are placed on the base in accordance with the coordinate grid. The protrusions of the first group are located at the intersection of the grid lines, the protrusions of the second group are located at the intersection of the diagonals of the grid cells, the protrusions of the third group are in the middle between the end portions of the adjacent protrusions of the first group that lie flush with the base ends, the protrusions of the fourth group are in the corners of the base (patent US 9675900 B2, published on 13/06/2017).

A known constructor contains a set of elements, part of which is made with one connecting node, and part with two or more connecting nodes, while the connecting node is made in the form of a three-dimensional body with faces, at least part of which lies in the planes of the faces of the cube, on at least one of the above-mentioned faces there are protrusions containing four sections located one at a time in the planes of the faces adjacent to the face of the cube on which the protrusions are made, and the distance between the centers of the adjacent cubes lying on and, perpendicular to the faces of the cubes, made with the possibility of contact of the connected constructor elements by the above sections, each facet of the connecting node lying in the plane of the face of the cube lies either in the plane of one of the faces of the cube of the other connecting node or in a plane parallel to the plane of one of the faces of the cube another connecting node (patent RU 2509590 from 03.20.2014).

A common disadvantage of well-known designers, building toys and their constituent elements is that when the elements are connected together, they form a single, static structure and cannot rotate (rotate) relative to each other in order to change the angular position, and therefore they provide less variability .

A puzzle device containing a plurality of puzzle elements and interrelated overlapping hinge elements is known, each hinge element joining two of the above puzzle elements, no two puzzle objects are connected by more than one hinge element, and the puzzle elements that are connected together form a connected object (US patent 8393623 B2, published 12.03.2013).

As the closest analogue for the inventive constructor, a constructor is selected that is formed by a set of basic elements that are pivotally connected by means of connecting elements. The main elements are made in the form of polyhedra, each of which contains a first semi-polyhedral element having a straight edge, a second semi-polyhedral element having a straight edge aligned with the edge of the first semi-polyhedral element; as well as a hinge connecting two semi-polyhedral elements, from edge to edge; a rotatable axis held at the first end and the second end, respectively, of the first and second half polyhedral element, for rotating the semi-polyhedral element with each other. In this case, the hinge connecting the halves of polyhedrons at two edges, is a flexible film hinge or one-piece folding hinge (patent US 5538452 B2, published on July 23, 1996).

The disadvantage of the closest analogue, like well-known designers and puzzles, is the low functionality associated with the fact that the elements of the constructor are preliminary, i.e. before the start of assembly (design), are already interconnected by hinged joints, therefore the number of variants of the assembled structures or states is limited and small. In addition, the disadvantage of the closest analogue is the limited movement of the swivel, and, accordingly, the low number of degrees of freedom of the constructor elements, which in turn reduces the functionality of the designer, reducing the number of variants (combinations) of the transformation of the designer.

The basis of the present group of inventions declared is the task of creating a constructor with such constructive implementation of its elements, which provides many options (combinations) of compounds of the same type and universal constructor elements and, accordingly, creates a large number of different transformable models, for example, snake, cube, kaleidocycle, etc. .

The technical result of the group of inventions is to expand the functionality of the constructor element and the designer based on it by increasing the connection options of the declared element with the same type constructor elements, as well as increasing the number of degrees of freedom of the designer elements due to the new swivel joint, which also expands the functionality of the designer.

The technical result is achieved by the fact that the constructor element containing protruding parts, according to the invention, is made in the form of a polyhedron containing upper and lower faces and four lateral faces, while

- the first protruding part is made on the first side face of the polyhedron and contains a transverse groove,

- the second protruding part is located on the upper face of the polyhedron, made in the form of the first parallelepiped and provided with a hole on the upper face of the parallelepiped and a facet on one of its edges,

- the third protruding part is located on the upper face of the polyhedron, adjoining one of its side faces to the first parallelepiped, is made in the form of the second parallelepiped of smaller height than the first parallelepiped, and is equipped with a rod on the upper face of the parallelepiped and a facet on the edge opposite to the edge with the face of the first parallelepiped ,

- on the edge formed by the second and third side faces of the polyhedron, the last of which is opposite to the first side face of the polyhedron, there is a chamfer,

- on the edge formed by the third and fourth side faces of the polyhedron, the last of which is adjacent to the first side face of the polyhedron, is an eyelet.

The technical result is also achieved by the fact that a constructor containing constructor elements configured to be connected to each other, and connecting elements adapted to interconnect the constructor elements, each constructor element being made in the form of a polyhedron containing upper and lower faces, four side faces , and protruding parts, according to the invention - the first protruding part is made on the first side face of the polyhedron and contains a transverse groove,

- the second protruding part is located on the upper face of the polyhedron, made in the form of the first parallelepiped and provided with a hole on the upper face of the parallelepiped and a facet on one of its edges,

- the third protruding part is located on the upper face of the polyhedron, adjoining one of its side faces to the first parallelepiped, is made in the form of the second parallelepiped of smaller height than the first parallelepiped, and is equipped with a rod on the upper face of the parallelepiped and a facet on the edge opposite to the edge with the face of the first parallelepiped ,

- on the edge formed by the second and third side faces of the polyhedron, the last of which is opposite to the first side face of the polyhedron, there is a chamfer,

- on the edge formed by the third and fourth side faces of the polyhedron, the last of which is adjacent to the first side face of the polyhedron, is an eyelet,

and each connecting element is designed in the form of a prism with an oval-shaped cross section with rods located on the upper edge in the marginal parts with the possibility of connecting with the designer elements the upper edge of the connecting element with the upper edges of the designer elements and with the possibility of passing the rods of the connecting element through the lugs of the designer elements located adjacent second and fourth lateral faces, with at least eight constructor elements made with the possibility joints with at least two connecting elements with the formation of a double-acting swivel.

The present group of inventions is illustrated by drawings (Fig. 1-7), an example of the implementation of the element of the designer and the designer on which, however, is not the only possible, but clearly demonstrate the possibility of achieving the stated technical result. In this case, the examples of the implementation of the claimed group of inventions do not limit the possibilities of its implementation, not beyond the scope of the claims, and are not exhaustive.

FIG. 1 shows the inventive constructor element.

FIG. 2 shows the sequence (diagram) of the connection of the elements of the constructor and the connecting elements during the assembly of the constructor.

FIG. 3 shows the model of the designer “Kaleidocycle” and the variant of its transformation.

FIG. 4 shows a transformable snake model.

FIG. 5 shows two variants of transformation of the "snake" model.

FIG. 6 shows the operating principle of a double-acting swivel.

FIG. 7 shows possible options for the transformation of the constructor.

The design element is made in the form of a polyhedron 1 with protruding parts, made with the possibility of connection with the response protruding parts of other elements of the designer. The polyhedron 1 contains the top face 2, the bottom face 3, the first side face 4, the second side face 5, the third side face 6, and the fourth side face 7 (Fig. 1 and 2).

The first protruding part 8 is made on the first side face 4 of the polyhedron 1 and contains a transverse groove 9. The second protruding part 10 is located on the upper face 2 of the polyhedron 1, made in the form of the first parallelepiped 11 and provided with a hole 12 on the upper face 13 of parallelepiped 11 and a facet 14 on one of the edges of parallelepiped 11 (Fig. 1). The third protruding part 15 is located on the upper face 2 of the polyhedron 1, adjoining one of its side faces to the first parallelepiped 11, is designed as a second parallelepiped 16 of lesser height than the first parallelepiped 11, and is equipped with a rod 17 on the upper face 18 of parallelepiped 16 and a face 19 on the edge opposite to the edge with a facet 14 of the first parallelepiped 11. The rod 17 is rigidly connected to the parallelepiped 16 and can be made in the form of a pin or pin. Hole 12 may be made deaf (Fig. 1).

On the edge 20 formed by the second side face 5 and the third side face 6 of the polyhedron 1, the third face 6 is opposite the first side face 4 of the polyhedron 1, there is a chamfer 21. On the rib 22 formed by the third side face 6 and the fourth side face 7 of the polyhedron 1, moreover, the fourth face 7 is located adjacent to the first side face 4, eyelet 23 is located (Fig. 1, 2).

The constructor contains the elements of the constructor 1, which are adapted to be connected to each other, and contains the connecting elements 24, which are adapted to interconnect the elements 1 and perform the rotational movements by the elements 1. Each element of the designer is made in the form of a polyhedron 1 with the top face 2, the bottom face 3, the first side face 4, the second side face 5, the third side face 6 and the fourth side face 7 and the protruding parts. The connecting elements 24 are made in the form of a prism with a cross section in the shape of an oval and contain two rods 26 located on the upper edge 25 in the peripheral (end) parts.

The connecting elements 24 are made with the possibility of a swivel with two elements of the designer so that the upper edge 25 of the connecting element 24 is adjacent to the upper edges 2 of the polyhedra 1 and with the possibility of passage of the rods 26 of the element 24 through the lugs 23 of the polyhedra 1, which are adjacent to each other second and the fourth side faces 5 and 7. The rods 26 can be made in the form of pins or pins (Fig. 2-5). At the same time, at least four designer elements are made with the possibility of connection with at least two connecting elements 24 with the formation of a double-acting hinged connection (also called a double-sided, pendulum loop / hinge, mechanical version of tritetraflexagon).

The designer is going as follows.

First connect the polyhedrons 1 with each other with the formation of figures 27 (Fig. 2, 3). The connection is as follows: the parallelepiped 11 of the first polyhedron 1 by the chamfer 14 enters the groove 9 of the second adjacent polyhedron 1, and the parallelepiped 16 of the third polyhedron 1 enters the chamfer 19 into the groove 9 of the fourth adjacent polyhedron 1. The holes 12 of the polyhedra 1 include rods 17 of the polyhedron 1, which placed on opposite sides. Then the rods 26 of the elements 24 are inserted into the lugs 23 of the polyhedra 1 (Fig. 2). The elements 24 are made with the possibility of a swivel with two polyhedra 1 so that the upper edge 25 of the connecting element 24 is adjacent to the upper edges 2 of the polyhedra 1. The rods 26 of the element 24 are inserted into the lugs 23 of the polyhedra 1, which are adjacent to each other second and fourth side faces 5 and 7. Rods 26 can be made in the form of pins or pins (Fig.2-5).

Due to the fact that the polyhedra 1 and the elements 24 are unified in the claimed designer, the functionality is expanded, because the number of variants of the connection of constructor elements with the same type constructor elements increases.

The connection formed during the assembly of the components of the constructor and the parts 24 is a two-way swivel that allows the assembly of the assembled elements of the constructor to rotate around the axes A, A ', B, B' passing through the holes of the lugs 23, with the appearance of reversibility, i.e. the possibility of moving in the opposite direction, which can be clearly seen in FIG. 6 and FIG. 7

The reciprocal arrangement of the connecting elements 24 gives the double-acting hinge connection with reversible properties. The implementation of the elements of the designer in the declared manner and the use of double-acting hinged joints in the design of the designer increases the number of degrees of freedom of the elements of the designer, and, accordingly, increases the number of possible assembly combinations. Thus, in FIG. 3-7 only some possible combinations and their transformations are presented. For example, the closed model in FIG. 5 can be transformed into a snake in FIG. 4. For example, the designer can be a closed transformable “kaleidocycle” model containing 6 figures 27, i.e. 24 polyhedron 1 and 12 of the connecting elements 24 (Fig. 3). FIG. 3 arrows show the possibility of transformation of the “kaleidocycle” from the right model to the left one and vice versa. Or, the constructor may be an open-ended snake model, which, as in FIG. 4 contains six figures 27, i.e. 24 polyhedra 1 and 12 elements 24. The simplest model of the assembly of the designer is two figures 27, i.e. 8 polyhedrons 1 and two elements 24. Further, the number of figures 27 in the constructor can be varied by increasing the number of polyhedrons 1 and connecting elements 24 so that at least four polyhedrons 1 can connect with at least two elements 24. In this case, a hinge double action with reversible properties.

The declared designer contributes to the stimulation of spatial thinking, the development of fine motor skills and coordinated hand activity, which is especially important for people with developmental delay, impaired formation of motor stereotypes, impaired movement of fingers in cardiovascular diseases or injuries. In these cases, the designer can be used as a developing tool or a therapeutic tool (simulator) for medical purposes.

A variant of the designer's assembly can be the kaleidocycle model closed along the contour (Fig. 3). The kaleidocycle contains six figures 27, each of which is assembled from four polyhedrons 1, with each figure 27 connected on one side by two elements 24 with the same figure 27 and on the other side by two elements 24 with figure 27.

A figure assembled from parts of a designer (a transformable model) may not be closed along a contour, representing a “snake” (Fig. 4 and 5). The number of its forming polyhedra 1 and double action hinges is unlimited.

Claims (13)

1. Design element containing protruding parts, characterized in that it is made in the form of a polyhedron containing the upper and lower faces and four side faces, while - the first protruding part is made on the first side face of the polyhedron and contains a transverse groove, - the second protruding part is located on the upper face of the polyhedron, made in the form of the first parallelepiped and provided with a hole on the upper face of the parallelepiped and a facet on one of its edges, - the third protruding part is located on the upper face of the polyhedron, adjoining one of its side faces to the first parallelepiped, is made in the form of the second parallelepiped of smaller height than the first parallelepiped, and is equipped with a rod on the upper face of the parallelepiped and a facet on the edge opposite to the edge with the face of the first parallelepiped , - on the edge formed by the second and third side faces of the polyhedron, the last of which is opposite to the first side face of the polyhedron, there is a chamfer, - on the edge formed by the third and fourth side faces of the polyhedron, the last of which is adjacent to the first side face of the polyhedron, is an eyelet. 2. A constructor comprising constructor elements adapted to be connected to each other, and connecting elements adapted to interconnecting constructor elements, each constructor element being made in the form of a polyhedron containing upper and lower faces, four side faces, and protruding parts, characterized in that - the first protruding part is made on the first side face of the polyhedron and contains a transverse groove, - the second protruding part is located on the upper face of the polyhedron, made in the form of the first parallelepiped and provided with a hole on the upper face of the parallelepiped and a facet on one of its edges, - the third protruding part is located on the upper face of the polyhedron, adjoining one of its side faces to the first parallelepiped, is made in the form of the second parallelepiped of smaller height than the first parallelepiped, and is equipped with a rod on the upper face of the parallelepiped and a facet on the edge opposite to the edge with the face of the first parallelepiped , - on the edge formed by the second and third side faces of the polyhedron, the last of which is opposite to the first side face of the polyhedron, there is a chamfer, - on the edge formed by the third and fourth side faces of the polyhedron, the last of which is adjacent to the first side face of the polyhedron, is an eyelet, and each connecting element is designed in the form of a prism with an oval-shaped cross section with rods located on the upper edge in the marginal parts with the possibility of connecting with the designer elements the upper edge of the connecting element with the upper edges of the designer elements and with the possibility of passing the rods of the connecting element through the lugs of the designer elements located adjacent second and fourth lateral faces, with at least eight constructor elements made with the possibility j connections with at least two connecting elements with the formation of a double-acting swivel.