PL189448B1 - Puzzle - Google Patents

Abstract

Brain-twister (1) consists of movable elements which are arranged into the groups (2) of at least four mutually separated and mutually movable flat elements (3, 4) in the scope of 360 DEG , wherein one element of each group (2) creates a central flat element (3) and at least three orbital flat elements (4) are arranged symmetrically around this central flat element (3), wherein at least one of these orbital flat elements (4) is a part of the same number of orbital flat elements (4) of a neighbour group (2) of flat elements (3, 4) again with a central flat element (3), wherein all the groups (2) of flat elements (3, 4) create an infinite and closed chain in all directions and the chains are arranged into a shape of a ball.

Description

There are special toys designed to exercise your imagination and combination skills. These puzzles are constructed as groups of moving elements, assuming the possibility of changing their mutual positions. These elements usually have surfaces painted with different colors, or fragments of the picture are printed on these surfaces or segments, and the player's task is to create a geometric shape or assemble the picture by moving these elements. These elements can be moved either individually or in rows or groups.

A typical example of a puzzle of this kind is a flat toy consisting of a frame in which flat square pieces are placed, but there is one empty space within the frame to allow one of these pieces or a whole row of pieces to be moved. However, it is a simple toy for small children that cannot attract the attention of older children or even adults.

A more complicated puzzle is the so-called The "Rubik's Cube" that was immensely popular in the early 1980s. It was a next-generation puzzle. 27 small colored cubes are arranged in three sides made of 3x3 cubes. Each of these three faces represents a group of 9 cubes and this group can be rotated in two perpendicular planes. The surfaces of the cubes are multi-colored and the problem is solved if on each surface of the Rubik's cube there are stripes of the same color. The Rubik's Cube, however, has an unfavorable, angular shape and its structure is relatively complicated.

The object of the invention is to provide a puzzle in a pleasant spatial form, without sharp edges, sufficiently complex to attract older children and adults, with the possibility of creating patterns or pictures that cannot be obtained in a cube form.

The above-mentioned shortcomings are largely eliminated by the puzzle of the invention, the main purpose of which is that the movable elements are arranged in groups of at least four mutually separated and mutually displaceable over a range of 360 ° flat elements, one element of each group forming the central the flat element and at least three orbital flat elements are arranged symmetrically around this central flat element, and at least one of these orbital flat elements is part of the same number of orbital flat elements of an adjacent group of flat elements, again with a central flat element, but all groups flat elements can form endless and closed chains in all directions and the chains are arranged in the shape of a sphere.

In a preferred embodiment, there are five planar orbital elements in a group wherein the central planar element has the shape of a regular pentagon and the planar orbital elements have the shape of regular hexagons.

In another preferred embodiment, the central flat element is rigidly mounted on the inner sphere-shaped structure and the orbital elements are arranged to be moved around and relative to each other.

In another preferred embodiment of the invention, the central flat elements have a smaller diameter than the orbital flat elements.

The invention will be illustrated with reference to the drawing, in which Fig. 1 is an exploded view of a spherical shell formed by flat circular elements in one embodiment of the puzzle of the invention, and Fig. 2 is another form of the puzzle of the invention, but the flat elements have pentagonal or hexagonal in shape typical of a soccer ball.

The puzzle 1 is in the preferred embodiment spherical, but as the principle is better illustrated, Fig. 1 shows a view of a spherical shell in an unfolded plane formed by circular elements 3, 4. The shell covers an internal spherical structure which is not shown and is not shown. made of groups 2 of flat elements 3, 4. These groups 2 always consist of six flat elements 3, 4, separated from each other and movable in relation to each other in the range of 360 °, one of the elements 3, 4 in group 2 is considered to be the central planar element 3, and five orbital planar elements 4 are arranged symmetrically around this central planar element 3. How many and which elements 3, 4 belong to one group 2 of the elements 3, 4 are indicated by a closed loop marked with a dashed line. The central flat element 3 in this form has a diameter approximately 20% smaller than the orbital flat elements 4. The surfaces of all the flat elements 3, 4 partially overlap so that the group 2 of the orbital flat elements forms a tight loop around the flat central element 3 and together with it. . However, there is an alternative form where all the elements are of the same dimensions, and then each planar element 3, 4 may at some point be a central or an orbital element. Due to the circular movement of the group 2 of planar orbital elements 4, the planar orbital elements 4 are mutually displaced in adjacent groups 2 of other planar orbital elements 4. In principle, it is possible for the groups 2 of planar elements 3, 4 to consist of at least three planar elements. orbital 4 arranged symmetrically around the central flat element 3, where all four flat elements 3, 4 are able to move in relation to each other in the range of 360 °. At the same time, at least one of the planar orbital elements 4 is part of an adjacent group 2 of the planar orbital elements 4. It is obvious, however, that with such an embodiment there would be relatively large gaps between the planar orbital elements 4 and would need to be filled for aesthetic reasons. Also in variants with all members of the same size there would be a gap problem.

A preferred form of the puzzle 1 is shown in Fig. 2. In this case, it is again a view of a spherical shell made of five-sided and hexagonal flat elements 3, 4, and the central flat elements 3 are in the shape of a regular pentagon, and the orbital flat elements 4 are in the shape of a spherical shell. regular hexagon. In this form

The central pentagonal flat element 3 is also 20% smaller in diameter than the orbital hexagonal flat elements 4.

In both embodiments, always two of the five planar orbital elements 4 forming group 2 form part of an adjacent group 2 of planar elements 3, 4 which again consists of five planar orbital elements 4 and one planar central element 3. All groups 2 of planar orbital elements 3 , 4 form an endless and closed chain in all directions, and the chains are arranged in a ball-shaped shell on the inner ball-shaped structure.

In both embodiments, the central planar element 3 can be rigidly mounted on the sphere-shaped internal structure, and the orbital planar members 4 are displaceable around them. However, the form may be used without any fixed flat central element 3.

Claims (4)

Patent claims 1. A puzzle consisting of moving elements, characterized in that the movable elements are arranged in groups (2) of at least four separated and mutually displaceable in the range of 360 ° flat elements (3, 4), one element from each group (2) is the central planar element (3), and at least three planar orbital elements (4) are arranged symmetrically around this central planar element (3), but at least one of the planar orbital elements (4) is part of the planar element (4). the same number of orbital flat elements (4) from an adjacent group (2) of flat elements (3, 4), also with a central flat element (3), while all groups (2) of flat elements (3, 4) form an endless and closed chain in all directions, and the chains are arranged in the shape of a ball. 2. A puzzle according to claim The method of claim 1, characterized in that there are five orbital planar elements (4) in one group (2), and the central planar element (3) has the shape of a regular pentagon, and the planar orbital elements (4) have the shape of a regular hexagon. 3. A puzzle according to claim 1 A plate as claimed in claim 1 or 2, characterized in that the central flat element (3) is rigidly mounted on the inner sphere-shaped structure and that orbital flat elements (4) are arranged around them for movement around them and each other. 4. A puzzle according to any of the claims A method as claimed in claim 1, 2 or 3, characterized in that the central flat elements (3) have a smaller diameter than the orbital flat elements (4). The present invention relates to a puzzle consisting of plane elements movable relative to each other and arranged as a coating on an inner sphere-shaped structure.