NL8100671A - SPATIAL, LOGICAL TOY. - Google Patents

Description

4 £ -l-

Spatial, logical toy

The invention relates to a spatial, logical toy consisting of toy elaents; after assembling the toy elements, a solid octahedron or octahedron is obtained. The toy elements assembled in this way, forming the solid octagon, can be rotated in either direction relative to each other along the axes passing through the geometric centers of the triangles bounding the octagon; therefore the possibility of several variations has been given.

10 are several spatial, logical toys. known. As an example, reference is made to the spatial, logical toy which is generally known and is described in the applicant's Hungarian patent 170,062.

The essence of this toy lies in that a regular or irregular solid body is made up of a predetermined number of toy elements, while this given number of toy elements, the small solid bodies, can be rotated by means of elastic hinges and connecting elements, arranged along the spatial 20 axes, passing through the geometric center of the logic toy. By rotating these toy elements, the surfaces of the logical toy can; are formed according to the content determined by the figures, colors or other symbols on the toy elements. The number of possible variations depends on the number of toy elements used. With the so-called 3x3x3 cube, the number of possible variations is of the order of one billion.

The embodiment of the toy according to the present invention is a further development of the logic toy described above and is in the form of an octagon or octahedron.

The octagon is a regular solid body, which is bounded by eight equilateral triangles, the spatial, logical toy according to the invention correspondingly 81 00 6 7 1

* r -V

-2- is formed by toy elements, which when assembled form an octagon.

The toy elements, which together form the octagon, can be divided into three groups: 5 I. six identical toy elements, which can be derived from the octagon, H. four identically shaped toy elements, which can be derived from a tetrahedron, III. four identically shaped toy elements, including those of. 10 a tetrahedron can be derived.

The total of fourteen toy elements are connected to a centrally arranged connecting element with a regular shape, which preferably consists of a sphere or ball. In order to promote rotation, the toy elements, which together form the spatial, logical toy, are connected to the centrally disposed solid body by means of resilient connecting elements.

The invention will be explained in more detail with reference to the drawing with a preferred embodiment.

Pig. 1 is a front view of the assembled assembled logic toy; Fig. 2 is a cross-section of the toy element belonging to the group II and forming part of the spatial, logical toy of Fig. 1; Fig. 3 is a sectional view of the toy element belonging to group III; Fig. 4 shows one toy element of the six elements belonging to the group I; Fig. 5 shows one toy element of the four elements belonging to the group II and Fig. 6 shows a toy element belonging to the third group.

The drawing shows that the spatial, logical toy according to the invention has the shape of an octahedron or octahedron. The first group of toy elements, 8 1 00 6 7 1 im -3-, which form the octagon, include six identically shaped toy element cuts, i.e. solid bodies, the shape of which can be derived from the octagon, see fig. 4. This solid body consists of two parts: the top part is formed by a square pyramids 1, which is bounded by four equilateral triangles; to the square, which forms the base, a truncated pyramids 7 is added, the corner of which is formed with a spherical surface, from which - in a position parallel to the two opposite sides of the base of the square pyramids - a semi-prism, which is bounded by flat surfaces, protrudes; the two ends of that half prism are chamfered and are connected to the side surfaces of the truncated pyramids by an elongated crimped surface. In this way, 15 of the spherical surface of the truncated pyramids protrudes a semi-prism, which is provided with a flat cover surface and which further comprises side surfaces which are curved at the bottom and which enclose an obtuse angle with the cover surface and the chamfered end faces overhanging the spherical cover face of the truncated pyramids; these end faces are also inclined towards the profiled body and after they enclose a substantially right angle, they are connected to the two opposite side faces of the truncated pyramids 7.

The second group of toy elements includes four identically shaped solid bodies, which can be derived from the tetrahedron, see fig. 5. These toy elements 2 are formed as follows:

The base surface of the toy element 2 is formed by an equilateral triangle, which is congruent with the boundary surface of the pyramids, which forms the upper part of the toy elements belonging to the first group.

On all three sides of the triangle, a plane is added to the base plane, which forms the truncated pyramid 9. The truncated pyramid is formed with a concave part-shaped top surface, on which the top part of the profile sits.

The base plane of that profile is formed by the convex spherical surface, which is larger than the spherical concave surface of the truncated pyramids, on which it fits precisely; accordingly, a curved surface that forms the flange 3 and hangs over the three sides, while the curved surface is substantially triangular with a rounded top.

The three side faces are planes parallel to the side faces of the truncated pyramid; viewed from the side, a trapezoidal profile is visible with a curved underside, the curvature of which corresponds exactly to the curvature of the bottom part of the toy elements belonging to the first group, while the angle of inclination also corresponds to the angle of inclination of the lower boundary surface of the half prism. Thanks to this design, the two surfaces, when fitted together, form the boundary surface of the toy elements.

The third group of toy elements consists of four solid bodies 4. These solid bodies each serve to complete one boundary plane of the octagon, which forms the spatial, logical toy according to the invention. The bottom flat surface thereof forms the small triangle, which will lie at the center of the triangle, which forms one of the boundary surfaces of the octagon, while the top of the few small triangles lies at the center of the side of the neighboring triangle.

The toy elements, ie the profiles, 4 are formed in the following manner: Their base surface is formed by the triangle, which is congruent with the aforementioned equilateral triangles.

Their lateral boundary surface is in the form of a truncated pyramid 10, but the cover surface thereof is not flat, but a concave surface and in the center of which is a small cam 35 in the form of a truncated pyramid, while the 8f 00 6 7 t * The side faces of the truncated pyramid run parallel to the lateral spherical surfaces of the bottom truncated pyramids. In this manner, the concave spherical surface forms a flange with a spherical surface around the cam located in the center. A shape in the curvature of the flange with a spherical surface is chosen such that the surfaces of the three solid bodies, which have identical curves, closely match the surface of the solid body 6, preferably a sphere or ball, which is arranged in the geometric center of the octagon and which simultaneously forms the last building element of the spatial, logical toy according to the invention.

In the hollow toy elements belonging to the third group, in contrast to the toy elements 15 of the first and second groups, which consist of solid profiles, towards the longitudinal axis of the small truncated pyramids, which protrudes from the spherical concave surface a bore in which a threaded pivot 5 is mounted which is enclosed by a spring. The spring bears against the part of the concave bounding surface of the toy element, which lies in the vicinity of the protrusion, while the rotary shaft is preferably screwed into the centrally arranged body in the octagon, preferably the sphere 6. Accordingly, the four toy elements, belonging to the third group, the assembled toy elements fixed in the form of an octagon to the centrally arranged ball 6. The diameter of the ball 6 and at the same time the dimensions of the other toy elements are chosen such that after the elements are combined, a regular octagon is obtained and that the spherical surfaces with curved boundary lines are easily displaceable relative to each other and to the ball 6.

It is clear from the above that by connecting the centers of the equilateral triangles, each of which forms an 8100671 • r -6 boundary plane of the octagon, thereby realizing the spatial, logical toy according to the invention, four "small Triangles are formed which form a plane of the single profiles. After the octagon has been assembled from the fourteen toy elements and the centrally disposed sphere and the position of the profiles has been fixed by means of the threaded ends of the resilient pivot axes, an octagon according to the invention is obtained, wherein seven elements each with respect to each other, 10 can be rotated by means of the resilient hinge axes, while the rotation takes place along spatial axes, which pass through the centers of the triangular planes, which form the octagon. and that are perpendicular to those triangular planes. A rotation is possible around each of the spatial axes and in both directions. With regard to the mutual arrangement of the toy elements, a large number of variations can be achieved depending on the content, determined by the colors, figures, letters or any other symbols, which are arranged on the "small triangles".

One essential feature of the octahedron according to the invention is - and compared to the main embodiments, the main difference occurs precisely in this feature - that the rotation of the toy elements of the known spatial, logical toys takes place in three-fold and six-fold respectively. intersecting axes, which lie in a rectangular coordinate system, while, in contrast to these known embodiments, the octagon toy elements according to the invention which can be rotated relative to each other are slidable along the axes of quadruple and octagonal intersecting axes, while in proportion until the rectangular coordinate system the single axes enclose an angle α with each other.

The resilient pivot axes, which enable the pivotal movement, attach the toy elements to the 8100671 -7- centrally arranged profile along the axes, which are directed towards the geometric center of the octagon; the centrally disposed profile is preferably a sphere or ball, but may also be another solid body derived from the eight-five plane and the surface of which the spherical surfaces of the toy elements can easily rotate.

The spatial, logical toy according to the invention can be made with the possibility of a fixed game; in this case, on each of the triangles, which form the surface of the octagon, a protruding hinge shaft is mounted, on which ring-shaped toy elements can be mounted.

8100671

Claims (6)

1. Spatial, logical toy, which is built up from different solid bodies into a uniform whole and in which the solid bodies can be rotated relative to each other as toy elements by means of a resilient rotating axis, 5 spatial axes, which point towards the center of the logical toy are oriented, characterized in that the spatial logical piece of goods is designed as an octagon and is composed of toy elements (1, 2, 4), which belong to three groups 10 and which belong to each group are identically shaped such that the toy elements (4J bounded by the triangular plane formed by the centers of the equilateral congruent triangles forming the bounding planes of the back plane are hollow and along the centerline leading to the geometric center of the triangle is oriented, a through bore is provided and a resilient pivot axis (5) is mounted in that bore and is connected to the rear elongated body, which is arranged in the geometric center of the octagon, simultaneously attaching the assembled toy elements 20 to each other. Spatial logic toy according to claim 1, characterized in that the first group of toy elements consists of six identically shaped toy elements (1), the second group consists of four identical toy elements (2} and that the third group consists of four identically shaped toy elements (4), while a regular solid body, preferably a ball or ball (6), is arranged in the geometric center of the octagon. 3. Spatial logic toy according to claim 1 or 2, characterized in that the toy elements belonging to the first group have the form of a composite solid body, one part of which is bounded by a square pyramids by congruent, equilateral triangular faces, on the base face of which a truncated pyramid (7). with a base surface of the same truncation and shape provided / while the top trimming surface of the truncated pyrantide has a concave spherical surface and that of that surface protrudes a semi-prism (8), which is bounded at the top by an elongated surface and on both sides by curved oblique surfaces and that the ends thereof projecting beyond the concave spherical surface are beveled outwardly and steeply, thereby forming a substantially right angle. Spatial logic toy according to claim 1 or 2, characterized in that the second group of the toy elements consists of four identical toy elements, each of which constitutes a composite solid body, one part of which consists of one. truncated pyramid, which is closed by a concave spherical surface, on the spherical surface of which a truncated pyramids has a spherical surface with an identical cut, such that the spherical surface of the second truncated pyramids is larger than the corresponding surface of the first truncated pyramids, so that the bounding surface forms a flange (3) with a curved surface. Spatial logic toy according to any one of the preceding claims, characterized in that the spatial axes around which the solid bodies, which mount the toy elements, are rotatably mounted relative to each other, are simultaneously the axes passing through the geometric centers of the bounding planes of the octagon, corresponding to the coordinates, which enclose an angle with the rectangular coordinate system. 6. Spatial, logical toy, substantially as described in the description and / or shown in the drawing. 8100671