HU180385B - Spatial logic toy - Google Patents

Abstract

A puzzle of the type described in Hungarian Patent 170062 (Rubik), comprises a core 6 within a plurality of elements which can be rotated in groups about axes passing through the median points of the outer faces of the elements which have an odd number of edges and wherein the elements have interlockable lateral surfaces which are at least partly curved. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a spatial logic game having a regular, irregular, or amorphous encapsulation body formed of a variety of shaped bodies, such as signal carriers. The signal carrier elements forming the encapsulation body can be rotated with respect to each other about resilient elements arranged along the spatial-coordinate axes, such as rotation axes, passing through the geometric center of the encapsulation body.

Spatial logic games in which the signal carriers are rearranged by rotation are known. One of the best known of such spatial logic games is 170702. is a three-dimensional logic game of the same patent as the inventor of the present invention. No. 170,062. Hungarian patent specification discloses a three-dimensional logic game having a regular or irregular encoder body consisting of a predetermined number of signal carriers, and in the most common embodiment the cube and signal carrier elements of the encoder body are also cubes. During the game, the signal carrier elements can be rotated in six directions around three-dimensional coordinate axes and placed in a certain ordered position from a particular disordered state. During play, the corners and edges can be rotated, while the elements on the coordinate axes are fixed and only rotatable. The number of options available is in the order of billions.

Japanese Patent Publication No. 55-8192 discloses a solution which is completely identical in appearance to that described in the aforementioned Hungarian Patent, and which is equivalent in function and mode of play. This patent

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Ε for the solution, the cubes forming the outer bounding cube;

1 'move on the surface of the ball inside the cube ^! ponds - sliding - away »Six of the cubes, screws is attached to the ball. These six fixed small cubes are located in the middle of the big cube and are exposed by their edges squeezing or guiding the other game pieces, eight of which are corner pieces and twelve h are in the middle of the big cube. The inner surface of each cube is spherical, recessed, and with this surface they lie on the inner ball.

A similar spatial logic game is disclosed in Japanese Patent Publication No. 55-8193. In this solution altogether; eight gamerelos form a cube. Seven of the game props can be slid on a sphere with the same design and inside the cube, with a spherical recess at their inner corners. The eighth element of the cube · cube is the same size as the previous seven elements, but is fixed to the middle ball. The middle ball fe. at its intersection, at the intersections of the main circles, a canopy or a fungus; moose elements are mounted, which may fit under the pressure elements of the edges of the small cubes forming the cube. Such a design ensures assembly of the toy and rotation of the toy elements by a quadrilateral of spatial coordinate axes.

A common disadvantage of prior art spatial logic games is that games of the same logical level can only be created with a large number of signal carriers. _'Ύ j The aim of the invention is a spatial logical toy létrehozófi sa, which is the known logical toys possibilities of variation, f ji geivel same, or nearly the same number of variations provides, but!'! they implement these variations with a smaller * number of elements.

j / The object of the present invention is achieved by a logical game of the form space '', ß, whose enclosing body consists of three different groups of _λ elements of the same form, as signal carriers, in which the bodies are movable corner elements, movable central elements and a fixed central member, and wherein the fixed medium elements háromszögle- _t Tuek and hollow, the rotation tengelyeikben named bore REN 'tially which bores in the main body to each other viszo- ΐ open and providing rotation around through the main body geometrical center of the price difference between the coordinates axes valaj as a resilient member for securing the hollow center member to the center member at the geometric center of the housing body.

In a preferred embodiment of the spatial logic game according to the invention, the enclosing body is an octahedron consisting of fourteen shaped bodies, namely six movable corner elements of the same and derivative of an octahedron, four movable center elements of the same tetrahedron and four and derived from a fixed central element derived from a tetrahedron. The fixed central members are secured to a central element, preferably spherical, located at the geometric center of the enclosure body.

In a preferred embodiment of the spatial logic game according to the invention, the shape bodies can be divided into the following groups:

Group I comprises a movable corner element derived from six octahedrons, which

-2180.385 and consists of an upper part, where © the upper part is a pyramid bounded by a square and isosceles regular triangles, and to this gala the lower part of the corner element is joined. The lower part consists essentially of the stump and the midbrain, where the stump is. The base of W le is the same as the base of the square pyramid which forms the upper part, and the upper border of W is a concave spherical surface, and out of this concave spherical surface are the concave arcs? a side surface and a glossy lid ^J bounded by inclined planes; is a semicolon closed by a sheet, such that the cspnkagula. At its spherical boundary, a flange is formed for connecting the shaped bodies to each other. The ends of the cleft extend beyond the spherical surface of the stump and the lateral surfaces are fer. They are bounded by dorsal and approximately right-angled end faces.

* II. The upper part is a truncated nucleus whose base is an equilateral triangle, its upper border 7 is a concave spherical surface and the lower part of the middle element is connected to this concave spherical surface. The lower part is also in the shape of a stump, the base of which is parallel to the base of the stump forming the upper part. A further feature of the movable central element is that its lower part is larger than its upper part and thus a surface flange formed at the junction of the lower and upper part serves to connect the shaped bodies.

In III. The group consists of four fixed central elements, also derived from a tetrahedron. The fixed central elements also consist of an upper part and a lower element. ^1. The upper part of a truncated pyramid, a truncated pyramid which is based egyenlőoldalu 'triangle, the upper end surface and a concave spherical surfaces' · let. Along the concave spherical surface, the lower part of the central element is connected to the upper part, which is also a truncated nodule. The lower surface contacting the central element located in the geometric center of the enclosing body is formed so that it follows the surface of the central element. At the junction of the lower and upper parts of the fixed central element, there is also a flange for connecting the shaped bodies. The clog ^! The central element of the zitctt is hollow.

In preferred embodiments of the three-dimensional logic game of the present invention, a distinctive color and / or figure and / or number and / or other indication is present on the surface of the enclosing body of the latest time.

In a further preferred embodiment of the three-dimensional logic game according to the invention, spring-threaded studs are used to secure the hollow and fixed central element to the central element. The hollow center element cavity is sealed with a snap-on closure to ensure mounting.

The invention will now be described by way of example only. DETAILED DESCRIPTION OF THE INVENTION With reference to the accompanying drawings, in which:

Figure 1 is an axonometric view of the three-dimensional logic game of the present invention; Figure 2 is a sectional view of the three-dimensional logic game of Figure 1 taken along a slant perpendicular to the movable central element;

. a cross-sectional view of a spatial logic game,

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Figure 4 is an axonometric view of a movable ear element of the spatial logic game of Figure 1,

Figure 5 is an axonometric view of a movable central element of the spatial logic game of Figure 1,

Figure 6 is an axonometric view of one of the fixed central elements of the spatial logic game of Figure 1.

As can be seen in Figure 1, the octahedron body 22 is made up of three different bodies 1,2 and 4 as signal carriers.

During the play, the shaped bodies forming the enclosing body 22 - movable corner elements, 2 movable central elements and 4 fixed central elements - can be rotated relative to one another in the X, Y, Z and V coordinate axes of the enclosing body 22. The object of the game is to rotate the elements from an unordered state to create an ordered state. In the present case, this means that by rotating the elements, three-dimensional triangles of the same color are formed on the surface of the housing 22. During the game, the corner elements 1 can be rotated to replace another corner element 1. The movable center members 2 are also displaced by rotation to another center member 2. The fixed central elements 4 do not move. but they can only be rotated about their own axis. As the game rotates around four spatial coordinate axes, ie in eight directions, the number of variations is greatly increased.

Fig. 2 is a sectional view taken along a plane perpendicular to the movable center member 2, showing the connection and position of the corner members 1 and the center members 2 with respect to one another. The connection between the corner element 1 and the center element 2 is formed along the edge 9a of the corner element 1 and the edge 3 of the center element 2.

Fig. 3 illustrates a sectional view taken along a slant perpendicular to the fixed central element 4; Figure 3 illustrates the relative position and relationship of the corner member 1 and the fixed center member 4. The connection between the corner element 1 and the fixed center element 4 is formed along the edge 9a of the corner element 1 and the edge 18 of the fixed central element 4.

The fixed central members 4 have a hollow configuration, with snap-on closure plates 23 for closing the cavity. The fixed central elements 4 are secured to the spherical central element 6 by means of elastic elements 5 having the same axis 21 as the axes passing through the geometric center of the enclosure body 22, which are perpendicular to the closing plate 23.

The flexible fasteners 5 play a dual role: they provide the fastening of the central elements 4 to the central element 6 and, on the other hand, allow the central element 4 to rotate about the axis 21. In order to provide this dual function, the fastening member 5, formed as a threaded pin, is provided with a spring 19.------------------------------------ ---------------------- Figure 4 illustrates a preferred embodiment of the corner element 1. The corner element 1 consists of the lower part 8 and the upper part 7. The upper part 7 is a square-shaped pyramid bounded by equilateral triangles, the lower part 8 of which is connected to the base of the pyramid. The aleor 8 also consists of two parts: a stump and the semiconductor 8a. The base of the stump of the lower part 8 is common to the base of the square gully of the upper part 7 and its upper surface is a concave spherical surface which is a concave spherical surface.

From the surface of 180,385 the semicolon 8a protrudes. The bisector 8a has a side surface 9 bounded by oblique edges on two sides and a glossy topsheet 10. The ends of the semiconductor 8a extend beyond the spherical surface of the stump. Its lateral surfaces are oblique and bounded by approximately 11 right-angled end faces.

Fig. 5 illustrates a preferred embodiment of the movable central element 2. The movable central element 2 is also made up of two parts: the lower part 14 and the upper part 13.

The upper part 13 of the central element 2 is a truncated nucleus whose base plate is an equilateral triangle, its upper bounding surface is a pedal concave spherical surface, and the lower part 14 of the central element 2 is connected to this concave spherical surface. The bottom portion 14 is also shaped in the form of a truncated nucleus, wherein the base of the truncated nucleus is parallel to the face 12 of the truncated nucleus of the upper portion 13. Since the lower portion 14 is larger than the upper portion '13, a flange 3 is provided at the junction of the upper portion 13 and the lower portion 14 to facilitate the connection of the shaped bodies 1, 2 and 4.

Fig. 6 illustrates a preferred embodiment of the fixed central element 4. The central element 4 also consists of two parts: the lower part 17 and the upper part 16. The upper portion 16 is a stub nucleus whose baseplate 15 is an equilateral triangle and its upper bounding surface is a concave spherical surface. Connected to this concave spherical surface is the lower part 17 of the central element 4. The lower part 17 is also a truncated nucleus whose surface connected to the central element 6 is formed so that it follows the connecting surface of the central element 6. At the junction of the upper part 16 and the lower part 17 of the central element 4, there is also a flange 18 for connecting the shaped bodies 1, 2 and 4.

One of the advantages of the spatial logic game according to the invention is that it can also be used as a board game. In such a board game, each of the sheets constituting the surface of the enclosure body has a single stud protruding from the surface of the enclosure body, onto which the rings can be placed.

A further advantage of the spatial logic game according to the invention is that relatively few such - in this case, only fourteen elements - can provide the same level of difficulty as a game. the so-called twenty-six cubes known so far.

A further advantage of the spatial logic game according to the invention is that the design of the central element located inside its enclosure body does not affect the player since it does not have the surface or the surface of this element. The elements on its surface provide the paths needed to move the shaped bodies, but this central element serves only to fix the central elements and to assemble the whole toy in one piece.

Claims (9)

Patent claims 1. A spatial logic game having a regular, irregular or amorphous encapsulant consisting of a plurality of shaped bodies as signal carriers, wherein the encoder elements comprise spatial coordinate axes extending along the geometric center of the encoder, such as rotational axes, rotatable relative to one another, characterized in that the receptacle / 22 / into three different ceoports / 1., II., III /, · τ '• 4i.v A spatial logic game according to claim 180,385 or 2, characterized in that the enclosing body (22) consists of 'shaped bodies' (1, 2,' 4) of identical shape in groups, wherein the shaped bodies / 1, 2, 4 / J movable corner members / 1 /, movable center members / 2 / and fixed center members / 4 /, and that the fixed center members / 4 / are square and hollow, and in their axis of rotation they are provided with a hole / 20 / in which the holes / 20 / / 1, 2. 4 / relative to one another and rotating about the X, Y, Z, V / spatial coordinate axes through the geometric center of the enclosure body / 22 and of the hollow fixed member 4 / in the geometric center of the f22.f enclosure body has a known elastic member (5) for fixing it to a central element (6). An embodiment of the three-dimensional logic game according to claim 1, characterized in that the encoder body is / 22 / octahedron shaped. Embodiment of the three-dimensional logic game according to claim 1 or 2, characterized in that a movable corner element derived from fourteen shaped bodies / 1, 2, 4/4 of the six octahedra forming the enclosing body / 22 / from four tetrahedrons derivative movable central element / 2 /. and a further four are fixed center elements derived from a tetrahedron (4), and a regular body, preferably spherical, is centered on the geometric center of the enclosure body (22) (6). 4. An embodiment of the three-dimensional logic game according to any one of claims 1 to 5, characterized in that its movable corner elements (1) are formed from the lower part (8) and the upper part (7), wherein the upper part (7) has a square and an equilateral triangle a movable corner element / 1 / lower part / 8 /, this lower part / 8 / consisting essentially of zeonaglia and midbody / 8a /, where the base of the ozone is identical to the base of the upper part of the pyramid and its concave spherical surface, which is concave spherical protruding from the surface on two sides with a lateral plane bordered by an oblique boundary plane / 9 / with a flat topsheet / 10 / a closed half-column / 8a / such that the spherical boundary of the stub member / 1 / of the shaped bodies / 1, 2, 4 / are provided with a connecting edge 79a /, the semicolon / 8a / and their edges extend beyond the spherical surface of the stump and the lateral edges are oblique and bounded by approximately perpendicular ends (11). 5 »1-4. Embodiment of the spatial logic game according to any one of claims 1 to 3, characterized in that its movable central elements / 2 / lower part of zbol / 14 / upper part / 13 / are formed, wherein the upper part / 13 / is a stub with its base / 12 / and a concave spherical surface which is connected to a concave spherical surface by the lower part / 14 / _t which is also a truncated nucleus, wherein the base of the truncated nucleus is parallel to the top part of the upper part 3/12; as at the junction of the upper part (13), such as the lower part (14) and the upper part (13), there is a curved surface edge (3) for connecting the shaped bodies (1, 2, 4). 6. An embodiment of the three-dimensional logic game as claimed in any one of claims 1 to 4, characterized in that it has fixed central elements / 4 / from the mandible / 17 / ^{f from} the upper part / 16 / Composed in which the upper part / 16 / · -6180.385 a concave spherical surface connected to a concave spherical surface by a stub-shaped lower part IYII of the fixed central element, wherein the upper bounding surface of the stub-core is shaped to follow the central element / 6 / located in the geometric center of the enclosure body; At its junction 16 / and at its lower part (17), there is a flanged surface (18) for connecting the shaped bodies (1, 2, 4). 7. Embodiment of the three-dimensional logic game according to any one of claims 1 to 3, characterized in that the surfaces forming the boundary surfaces of the shaped bodies 1, 2, 4/22 have distinctive colors and / or figures and / or stems and / or other markings. 8. An embodiment of the three-dimensional logic game as claimed in any one of claims 1 to 4, characterized in that the hollow fixed central elements (4) have spring-threaded pins (5) for fixing the central element (6). 9. An embodiment of the three-dimensional logic game according to any one of claims 1 to 4, characterized in that its fixed corner element (4) has a snap-on closure plate (25). 1 drawing of you Wedge·.