DD208039A3 - THREE-DIMENSIONAL LOGICAL AND CONSTRUCTIVE TOY - Google Patents

Abstract

THE INVENTION RELATES TO A THREE-DIMENSIONAL LOGICAL AND CONSTRUCTIVE TOYS with regular, HALBREGELMAESSIGER, spherical or AMORPHOUS external KOERPERFORM, PREFERABLY IN THE FORM OF A tetrahedron, WITH THE BODY FROM EACH OTHER TURNING MOBILE TEILKOERPERN COMPOSITE IS AND KOERPERMITTELPUNKT A six-armed ZENTRALKOERPER WITH mutually perpendicular ARMS ARRANGED IS. According to the invention, the central body consists of three rigid and three movable arms, the front sides of which, on the one hand, have one large and one small, and on the other hand, four small protrusions. BETWEEN THE POOR ARE ZWOELF slide segments ORDERED WHICH KREISFOERMIGE AUSSENFLAECHE A FUEHRUNGSBAHN HAVING, IN ACCORDANCE WITH PROFILED IN STAGES OF TWO sliding IN THE FORM OF A THREE-SIDED PYRAMID PERFORMED ARE, SO THE EIGHT sliding TOGETHER A Grundkoerper IN THE FORM OF A regular octahedron MAKE TO THREE VERTICAL TOGETHER SPACE AXLES ARE ROTATABLE TOGETHER. THE SLIP BODY HAS A HALF-CIRCULAR OPENING FOR RECEIVING EACH THREE SIDES AND THREE RECTANGULAR SAVINGS. THE OUTER SURFACE OF EVERY SLIDING BODY IS UNLEASHABLY CONNECTED TO A COVERING ELEMENT.

Description

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Title of the invention:

Three-dimensional logical and constructive toy

Field of application of the invention. The invention relates to a three-dimensional logical and constructive toy with regular, semi-regular, spherical or amorphous outer body shape, preferably in the form of a tetrahedron, wherein the body is composed of mutually rotatable part bodies and in the spatial body center a six-armed central body is arranged with mutually perpendicular arms. The invention can be applied on the one hand as a logical toy, from a disordered amount and position of sub-bodies by relative movement in three planes of rotation and without decomposition of the total body a group of symbols, Pa B * different Paianordnung, numbers, illustrations groupwise ordered quantities can be formed and vice versa · The external shape of the toy is a closed three-dimensional spatial form whose initial and final shape, eg a tetrahedron is equal to

On the other hand, the invention can also be used as a form-forming, constructional toy in which various spatial forms can be achieved from a closed three-dimensional spatial form, eg a tetrahedron, by means of one or more relative movements of the part bodies in the three planes of rotation, during play changes the external spatial form and offers a constructive gaming experience · The playfulness can be increased if different spatial bodies with symetrical symbols are to be formed «,

Based on these game variations is the generic toy as a teaching and. Learning materials already suitable for preschoolers and can also be used as a test device, especially for children, to test certain statements z. The invention can also be used as an advertising medium and / or pendant ζ · B · key fob, and can be used to gain constructive thinking through its variational and combinational capabilities.

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.Characteristic of the known technical solutions

There are already a number of logical and constructive toys known that consist of interconnected, adjustable or rotatable elements or of in / or mating individual elements »The principle of operation of the conventional three-dimensional puzzle is essentially the same and consists of a number of individual elements In, - Joining or composing a given body shape with different color combination or different body shapes form · The individual elements can, for. B "is the shape of a cube (US-PS 4"189,151; US-PS3 * 788 _# 645; US-PS 3 # 655 * 2Ο1), a pyramid (US-PS 3-949994), an octahedron and tetrahedron (DE GM 7407123) or V-shaped and U-shaped (US Pat. No. 4,121,831). The individual parts can also be connected to one another, eg, corresponding shaping, "connecting pins, and magnets." Common brook part of this conventional puzzle in that they consist of parts which can easily be lost ·

It is also a constructional toy known as a "magic snake" whose elements consist of hollow prisms with triangular bases and square side surfaces. The elements are inseparable from spring-loaded pins inserted through the contacting surfaces of the elements Body connected * The elements on the contacting flat surfaces are radially rotatable about the connecting pins »whereby different three-dimensional figures can be formed from the elements · However, this known technical solution does not represent a logical toy *

A logical toy in the shape of a cube is described in HU-PS 170062. The complete cube forming a closed unit is composed of 27 cube-shaped parts in such a way that each litter is formed by 9 side surfaces of the middle, edge and corner pieces. '' "'; ...,'.

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The 6 side surfaces of the entire cube are differently colored or provided with different symbols in the initial state. Each 9 cube-shaped portions forming a side surface are common and at the same time around the center of the centerpiece and the spatial coordinate axes at angles of 90 °, 180 °, 270 ° and 360 ° rotatable, whereby the edge and corner pieces take a changed position and the originally monochrome sides of the entire cube are dissected color · The play stimulus is to arrange by appropriate rotation of the side surfaces of the total cube these again according to the initial state. »The cohesion of the sections and the rotation is achieved by a six-armed rotary star located at the center of the body of the complete cube * The star consists of a cube whose 6 sides, each with a hollow axle, each with a square pin The rest of the cube-shaped edge and corner pieces have radial recesses and projections, which engage in each other and in the radial recesses of the center pieces, that the sections are positively held against each other. In the hollow axles compression springs are additionally arranged, which make it possible that the side surfaces not _; This solution has the gate part, so that the cube-shaped parts can not be dismantled after assembly into a total cube during the use according to the invention, so that the parts can not be lost. As calculated by mathematicians In the case of this cube - shaped, loggic toy, there are to be more than 43 trillion different possible combinations of parcels, so that the restoration of the original parable without the application of the solution rules published in the meantime is very difficult and too difficult for many players. A further disadvantage is that the outer body shape of the cube during Spielablaufa ^: or · after completion of the rotation of the side surfaces does not change the nature and thus does not allow a constructive Spielerlebnia. \

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This toy is therefore a purely logical toy * In addition, the overall dimensions of the cube are relatively large overall, so this game is not particularly handy *.

In DE-GM 8104382 a patience game in the form of a composite regular body with non-perpendicular, rotatable side surfaces, preferably a regular tetrahedron or a regular dodecahedron is disclosed. In this solution, each side surface comprises a, rotatable center and this surrounding edge and corner pieces, which are guided by positive engagement behind each other and the centerpiece so that all any side surface forming part body are rotatable together around the center of the side surface. In the dodecahedron , whose twelve surfaces are each formed by regular pentagons, the centerpiece has the shape of a regular pentagon surrounded by 5 edge pieces and 5 corner pieces · The dodecahedron has a total of 12 centerpieces, 20 corner pieces and 30 edge pieces · In the clearing center of the body is a twelve - armed Spider mounted, on whose arms the 12 Mittelstüeke are fixed by means of screws and rotatably mounted. The screw head is concealed by a cover plate fastened on the outside of the center piece. The side surfaces can also be colored differently · Due to the large number of side surfaces and part bodies, the number of possible combinations is even greater and the gameplay even more difficult than in the solution according to the HU-PS 170062 · Also this dodecahedron is a purely logical toy whose The tetrahedron is made up of four rotatable middle pieces, 4 corner pieces and 6 edge pieces, with a four-armed rotary star placed in the center of the body * Each of the four triangular faces of the tetrahedron is also around the center of the triangular Center piece rotatable · The other versions are analogous to that of the dodecahedron. Due to the small number of side surfaces and partial bodies V, the number of possible combinations is smaller, so that a solution is also possible without the use of mathematical release methods.

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· The tetrahedron is also a purely logical toy that does not offer a constructive gaming experience «A common EFachteil this. , two variations is that for each outer body form a special rotating star (here twelve- and four-armed) must be formed * _

Object of the invention

The object of the invention is to allow the three-dimensional toy a constructive and / or logical gaming experience, wherein the number of possible combinations can be less and the solution can be found even without complicated mathematical rules. At the same time, the field of application of the inventors is to be expanded and the production costs reduced *

Explanation of the essence of the invention .

The invention has for its object to provide a generic three-dimensional toy whose outer body shape is composed of groups against each other rotatable ieilkörpern, which is not dismantled after assembly during normal use, with a arranged inside the body "turning and guiding device so should be designed so that it can be used as a self-contained unit without constructive adaptation for the realization of a variety of outer body shapes and it makes it possible to create relatively small handy body shapes * Furthermore, the toy should be consistently made of plastic material and it should no molded parts such as screws, ball bearings, springs, etc. are used *

According to the invention, the object is achieved in that all six arms of a central body arranged in the center body have the same square cross-section and the same length. In this case, three of these arms are rigid and perpendicular to each other as a "closed unit running * At the front of these rigid arms are each a large square projection and this diagonal

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The edge length of the square projection is advantageously equal to or slightly smaller than half the edge length of the square cross section of the arms. In a further embodiment of the invention, the three other arms of the central body are made rotatable and each consist of a central body sleeve · The central body bushings are secured by a non-detachable connection ζ * B * by damming against axial movement on the trunnion · The three trunnions are also arranged at right angles to each other and firmly connected to the rigid arms of the central body * Pemer are on 4 small square projections are also provided at the corner points of the end face of the central body bushes. In the free spaces between the rectangular lateral surfaces / the rigid arms of the central body and / or the central body bushings, 12 circular segment-like sliding segments are used In order to guarantee assembly of the entire sliding and guiding device, advantageously one of the sliding segments parallel to the circular segment surface is divided into two identical parts which, after assembly, are again detachably connected to the separation point by gluing to a single side gluer * the circular outer surface of the sliding segments a circular profiled guideway is incorporated, which form together with the end faces of the rigid arms and the central body bushings and the large and small projections 3kreisförmige, identical, profiled sliding and Pührungsbahnen. These three tracks intersect each other in the center of the axes of the arms of the central body and are perpendicular to each other. The invention is further characterized in that correspondingly profiled inner webs of each two juxtaposed or superimposed sliding bodies are arranged in the guide and web tracks. By virtue of the fact that the length of the circular inner webs is advantageously greater than the edge length of the square arms and. Zentralkörpe.rbuchsen is, engages during rotation of the body is always an inner web in the circular profiled guideway of 'opposite sliding segment before he from the

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The sliding bodies have approximately the shape of a three-sided hollow pyramid. In this case, a semicircular opening is provided in the pyramid tip directed towards the center of the central body to accommodate three sliding segments each. At the outlet and in the vertical axis of symmetry OCE semi-circular opening 3 right ~ shaped recesses are formed · These recesses are _s expediently dimensioned such that they are equal to the length of the large square projections and the half edge length of the square, arms or * the central body jacks "In The 3 sliding and guideways are a total of 8 sliding guided, Uach the assembly ι of central body, central body bushings, sliding segments and sliders to get a turning and guiding device, which is a self-contained self-contained unit or a body and has the shape of a regular octahedron "The outer sides of this basic body are still open. With this basic body a multiplicity of outer body shapes can be realized without constructive adaptation of this basic body. If the still open outer sides are closed with 8 triangular flat covering elements, then If one obtains a relatively small, handy toy in the form of an octahedron, which can be used, for example, as a pendant or as a key ring, if a set of 8 tetrahedron points is formed, a star-shaped body is produced. If a partial body is set with a shäric outer surface, one obtains one

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Spherical Body * Not only regular but also irregular toy bodies or amorphous outer body forms (z * B * carcasses) can be realized with the same basic body. Preferably, the open outer sides of the octahedral basic body are provided with four triangular flat cover elements and four If a suitable placement of these parts is achieved, a tetrahedron with 16 triangular single-surface areas is formed, each 8 individual surfaces being rotatable together around three mutually perpendicular spatial axes at angles of 90 °, 180 °, 270 ° and 360 ° the body shape tetrahedron the octahedral body inside

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of the tetrahedron are arranged so that the axes of rotation pass through the edge centers of the tetrahedron. This results in the formation of three planes of rotation which do not coincide with the coordinate axes of the tetrahedron, which is unusual for normal spatial performance, making the solution of a twisted tetrahedron more difficult and difficult When the tetrahedron is rotated, the original body shape tetrahedron is lost and new three-dimensional body forms are formed with each further rotation, so that not only logical, but also constructive possibilities of play are provided.

embodiment

The invention will be explained in more detail below with reference to several exemplary embodiments, wherein a tetrahedron has been selected as the preferably outer body shape. In the accompanying drawing:

Pig · / 1 j the tetrahedron in three-dimensional representation Pig · 2: the internal structure of the tetrahedron in individual parts ·,

dissects Pig «3: the internal structure of the tetrahedron in a combined ,. ,

set Porm Pig · 4: the tetrahedron in three-dimensional representation with removed cover element and sliding body

Pig # 5: the tetrahedron in three-dimensional representation and in such a position that the axes of rotation X _f Y, Z agree with the space coordinates Pig · :. 6: the tetrahedron in three-dimensional representation around the '

Y axis "rotated:;

Pig * 7: the tetrahedron in three-dimensional representation around the

Z-axis turned. ,

Pig _# 8: the tetrahedron in three-dimensional representation around the

Z-axis turned. '· · ·'

Pig · St the tetrahedron in three-dimensional representation and in the starting position for the Yerring. , .

Pig »10: a body shape of the twisted tetrahedron, the initial position according to Pig, 9 rotated by 90 °; ,

Pig »11: a body shape of ^; Twisted, tetrahedron, the body shape according to Pig »10 rotated by another 90 °

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Pig. 12: a body shape of the twisted tetrahedron, the body shape according to Pig * 1Ö by 180 ° or according to Pig * do 90 ° ,. turned , '

Pig · 131 Pig »14: other twisting achievable 'drums.

First, the structure of the tetrahedron will be described, which is shown substantially in the Pig «2, 3 and 4. In the spatial center of the body of the tetrahedron there is a six-armed central body 1 with mutually perpendicular arms having the same square cross-section and the same length (Pig * 2). Three of these arms are rigid, perpendicular to each other, and are considered to be a closed unit On its front side, these three arms are provided with a large square projection 9 and this diagonally opposite with a small square projection 11 * Here, the edge length of the large square projection 9 is equal to or slightly smaller than half the edge length of the square cross section * of the arms of the central body 1 _# The three other arms of the central body T are rotatable and each consist of a central body bushing 2, which is mounted on a pivot pin 7 * The central body bushings 2 are against axial movement on the pivot pin 7 by a aichtlösbare connection z * B * by Dipping the Dre The three pivot pins are also arranged at right angles to one another and are firmly connected to the rigid arms of the central body 1. In the corner points of the square end face of the central body bushings 2, four small square projections 11 are also formed. In the free spaces between the rectangular Mantle surfaces of the rigid arms of the central body 1 and / or the toe-body bushes are twelve-segment segment-like sliding segments arranged (Pig * 3 and 4) to allow the assembly of the entire sliding and Pührüngseinrichtung, · one of the sliding segments 3. parallel to Kreissegmentfläehe as two identical , separate parts are to be carried out * These two parts.jver after assembly at the point of separation again not detachable with each other, connected, z. B * by sticking * If the plastic material used corresponds to a

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 elasticity, the entire sliding and guide device can be mounted without separating and then connecting one of the sliding segments 3 'in the circular outer surface of the sliding segments 3 is' a circular profiled guideway incorporated, which together with the end faces of the rigid arms and the central body 2 and the large and small square gate jumps 9 and 11 form three circular, identical, profiled sliding and Pührungs tracks * These three tracks intersect each other in the axis center of the arms of the central body 1 and are perpendicular to each other »In the slide and guideways are correspondingly profiled inner webs 8 each two juxtaposed or superimposed sliding body 4 out. Characterized in that the length of the circular inner webs 8 is greater than the edge length of the square cross-section of the rigid arms or the central body bushings

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2 is executed, engages during rotation of the body always an inner web 8 in the circular profiled guideway of the opposite sliding segment 3 before he out of the track of the other sliding segment ^ keraustrit-t · The sliding bodies 4 have the shape of a three-sided hollow pyramid, wherein in the directed to the center of the central body. Pyramid tip is a semicircular opening for receiving each of three sliding segments is provided * At the outlet and in the vertical axis of symmetry 'this semicircular opening three rectangular recesses are formed · These recesses are dimensioned so that: they equal the length of the large square projection 9 and the half edge length of the square cross-section of the \ rigid arms and _{# of} the central body bushings 2, respectively. In the three sliding and guideways a total of eight sliding bodies 4 are guided. The assembly of the central body with the rigid arms and rotating central body bushings with the track segments 3 and the guide bodies 4 gives a base body in the form of a regular octahedron, which is in three planes of rotation and at angles of 90 °, 180 °, 270 ° and 360 ° ° can be twisted. The open outsides .. of each slider are in the embodiment tetrahedron with a total of four triangular flat Abdeckelemen-

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th 5 and four tetrahedron tips 6 closed; whereby in the correct placement of these parts, the tetrahedron shown in Pig · 1 and 9 is formed with a total of 16 triangular single surfaces * Each of the four tetrahedral faces consists of four identical triangular faces, which are uniformly provided for each tetrahedron surface and symbol symbols to the other tetrahedral surfaces, z "B-. with different colors, colored dots, numbers or illustrations. FIG. 5 shows the arrangement of the octahedral basic body in the interior of the tetrahedron and the axes of rotation X, Y, Z. The basic body is located in such a position that the axes of rotation X, Y, Z pass through the edge centers of the tetrahedron. The plane of rotation of the X-axis is limited by the points A, S, O, F, The plane of rotation of the Y-axis is formed by the points, A, B, D, C and the plane of rotation of the Z-axis is through the points E, B, F, D represented · Hg · 6 shows an executed rotation of 4 Teilkörpern and.8 triangular individual surfaces around the Y-axis * Fig »7 and 8 show the rotation about the Z-axis or · X-axis, Fig * 9 shows the tetrahedron in three-dimensional representation and in starting position for the rotation * In Fig. 10, the resulting new outer body shape is shown, which is formed by rotation of the initial position shown in FIG. * 9 by 90 ° * twisted according to the body shape Fig, TO by another 90 °, one obtains an n The body shape according to FIG. 12 arises when the body shape according to FIG. 10 is rotated by 180 ° or according to FIG. 11 by a further 90 °. FIGS. 14 and 14 show further new body shapes achievable by twisting *

 For the tetrahedron there are the following game options:

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1, Formation of the basic tetrahedron or other symmetrical body without regard to the colors or symbols * This possibility of playing is already suitable for preschoolers ..-

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2. Formation of the basic form tetrahedron with four triangular surfaces, each with the same color or symbols from an arbitrarily twisted body shape »

3 · Formation of different body shapes with symmetrical color arrangement

To ensure the desired rotation, it is essential in the three planes that the central body 1 with its three rigid arms together with the rotatable central body bushings 2 determine the spatial arrangement of the sliding segments 3 relative to one another by its shape Edge, which is formed by the formed circular guideway over the inner webs 8 of two adjacent sliding body 4 and holds them together in one direction * However, since in each slider 4 three GIeitsegmente 3 engage, a cohesion of the entire Qktaederförmigeη basic body Ln is ensured all three coordinate axes , In order to prevent a change in the coincidence of the position of the axes of the central body 1 with the axes of the planes of rotation (X * Y, Z) during rotation of the main body, the aforementioned large square projections 9 are formed on the three rigid Armen.des central body 1, the engage the recesses 10 of a slider 4 * The central body i thereby has the same position to this slider 4. The small square projections 11 at the end faces of the rigid arms and the central body sleeves 2 prevent rotation of the body in, a plane simultaneous rotation Otherwise, the inner webs 8 of the slider 4 would not re-engage in the sliding and guideways of the GIeitsegmentes 3 during rotation of the second level and the cohesion of the sliding 4 would be lost · Is the left in Fig. 3 shown : Part of the basic octahedron, the four sliding bodies : 4, for example ·. , twisted about the horizontal X axis (FIGS. 2 and 5), the central body 1 with its three rigid arms does not change its position and also changes two of the rotatable central body axes.

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Bushings 2 remain rigid during this rotation. Only the left, about the X-axis rotatable central body bushing 2 rotates on the left horizontal pivot 7 of the central body 1 together with arranged on their four lateral surfaces four GIeitSegmenten 3 and the associated four sliders * Here are perpendicular to the X-axis arranged four Sliding segments 3 with the end faces of two rigid arms and two central body bushings 2 a GIeit and guideway in which the inner webs 8 of the left four sliding body 4 can be rotated at angles of 0 ° to 360 ° · The likewise engaging in the sliding and guideway Innenst ^ ge 8 of the right basic body part, however, remain rigid and do not move in this rotation, Should now the right part of the body are rotated, the left, rotatable about the X-axis central body sleeve 2 remains rigid and the right part rotates with its left pivot in the left central body socket 2 * not only the three are rigid Arms and two central body bushings 2 and four sliding segments 3 and four sliding body 4 but also the four sliding segments 3, which together form the corresponding sliding and guideway, rotated about the X-axis.

Analogously, the mode of operation is when the upper or lower part of the octahedral basic body is to be twisted. According to another embodiment variant, all the still open outer sides of the eight. Slider with triangular, flat cover elements 5 unsolvable, closed, so that a relatively small, handy octahedron is created, the outer dimensions may be ca * 4 cm * In this embodiment, the invention 'toys as a pendant z' B * key chain usable * The triangular individual surfaces * can be provided in each corner> with different colored dots, wherein the game stimulus is to arrange the points by appropriate rotation so that the dots occupy the same color at each vertex of the octahedron z * B. This octahedron, which is inextricably sealed with "flat cover elements 5, can, according to a further exemplary embodiment, be used as a basic principle.

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be used on the triangular outer surface detachable z. B. by a pin connection ¹ and interchangeable other body parts any outer surface but can be placed with appropriate triangular base «Using the same octahedral base body, a number of different outer body shapes may arise * Be example, the eight Outer surfaces of the octahedron put on tetrahedron tips, so - creates a star-shaped outer body shape. If one sets on the eight octahedral surfaces partial body with spherical outer surface, so creates a ball or another spherical body, which is rotatable in three planes of rotation. "On the outer surface of the attachable part body can also join three-sided lateral surfaces, whereby the size of the total body accordingly If, for example, eight partial bodies in the form of spherical caps are used to form a sphere, then the spherical diameter corresponds only to the spatial diagonal of the basic body of the octahedron. The spherical diameter becomes correspondingly larger if the partial bodies consist of spherical cavities and adjoining lateral surfaces The outer surface of the part bodies may also be irregular or amorphous, for example when the total body of the toy is a reduced size of a pet consisting of eight different part bodies e number of different body parts together with the octahedral base body are combined to form a kit, so that the player can assemble the various outer body shapes itself »Of course, the body parts can be placed without the interposition of flat cover 5 indissoluble on the open octahedron surfaces * In this case arises but '.' In each case a self-contained body shape, whose part body can not be exchanged *

Claims (1)

Bring us; s ans pr u ch Three-dimensional logical and constructive toy with regular, semi-reticular, spherical or amorphous outer body shape, preferably in the form of a. Tetrahedron, the body being composed of mutually rotating part bodies and having a six-axis central body with right-angled arms, characterized in that all six arms of the central body (i) have the same square cross-section and equal length and three identical, rigid to each other ¹ vertical arms. their front side with a large square projection (9) and this diagonally opposite a small square projection (.11) are provided and the three other arms each consist of a central body bushing (2) rotatably and aerial secured by a non-detachable connection to a ^ Pivot (7) is arranged, wherein in the vertices of the square end face of the central body bushing (2) four small square projections (11) are formed and that in the free spaces between the rectangular lateral surfaces of the arms of the central body (1) and / or the central body bushings (2) are twelve circular segment sliding segments (3), in the circular outer surface of a circular profiled guideway is incorporated, which together with the end faces of the rigid arms of the central body (i) and the end faces of the central body bushings (2) three kreisu lokalu.ige identical profiled .Gleit; - and Pülirungsbahnen form, ie e intersect each other in Achstnittelpunkt the Arrne, the central body (1) and are mutually perpendicular, wherein in the, Gleit- and Pühruhgsbahnen corresponding profiled inner webs (S) each two juxtaposed, or, one above the other .. arranged sliding body (k ) in the form of a , three-sided pyramid, and that in the - to the midpoint of the '. Central body (1) directed pyramidal tip of the - "sliding" body, (if), a lialbkreisf ra rige Cf fnun.g g.Aufnähme each three "Gloitsegtnente (3). as well as at the outlet of the circle-o-ring opening and in its vertical sytnnietri axis: I ό Ί.-Ο 15. ö three rectangular recesses are formed, which are equal to the length of the large square Yorsprunga (9) and half the edge length of the square cross-section of the arms, so that the eight sliding bodies (h), which together form a basic body in the form of a regular octahedron by three mutually perpendicular spatial axes (X, Y, Z) against each other rotatably formed at angles of 90 °, 180 °, 2 70 ° and 3ö0 and forms various configurations of the eight part body and further that the außeniiegende side of each slider (k) inextricably a cover ( 5) « 2 »three-dimensional logical and constructive toy according to point 1, characterized in that on den Abdeckeleiaent (5) a flat triangular leaflet and / or a body of any outer surface and color design, with and without three-sided outer surface, as an expedient part of Gesacitkörperoberflache the Spielzetiges detachable and thus arranged interchangeable, 3. Dreidiinensiona logical and constructive toy according to item 1, characterized in that the edge length of the large square projection (9) not greater than half the edge length of the square cross-section of the arms of the central body (1). BSRs. the central body shell (2), .- · '. , ''',' .- ' h, three-dimensional logic and constructive toy according to item 1, characterized in that the length of the krsisförniigen inner webs greater than the ICantenläng-e of the square cross-section of the arms of the central body (1) bzis. Central or via cans (2) .is » 5 · Dreidiinensionaies.logical and constructive toy after point. 1, characterized in that one of the Gleitsegniente (3) parallel to the circular segment surface in ζήθχ identical parts is executed separately, which are not detachably connected after assembly to the Trennüngssteile.