WO2004103497A1 - Cubic logic toy - Google Patents
Cubic logic toy Download PDFInfo
- Publication number
- WO2004103497A1 WO2004103497A1 PCT/GR2004/000027 GR2004000027W WO2004103497A1 WO 2004103497 A1 WO2004103497 A1 WO 2004103497A1 GR 2004000027 W GR2004000027 W GR 2004000027W WO 2004103497 A1 WO2004103497 A1 WO 2004103497A1
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- WO
- WIPO (PCT)
- Prior art keywords
- visible
- toy
- pieces
- solid
- dimensional
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63F—CARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
- A63F9/00—Games not otherwise provided for
- A63F9/06—Patience; Other games for self-amusement
- A63F9/08—Puzzles provided with elements movable in relation, i.e. movably connected, to each other
- A63F9/0826—Three-dimensional puzzles with slidable or rotatable elements or groups of elements, the main configuration remaining unchanged, e.g. Rubik's cube
- A63F9/0838—Three-dimensional puzzles with slidable or rotatable elements or groups of elements, the main configuration remaining unchanged, e.g. Rubik's cube with an element, e.g. invisible core, staying permanently in a central position having the function of central retaining spider and with groups of elements rotatable about at least three axes intersecting in one point
- A63F9/0842—Three-dimensional puzzles with slidable or rotatable elements or groups of elements, the main configuration remaining unchanged, e.g. Rubik's cube with an element, e.g. invisible core, staying permanently in a central position having the function of central retaining spider and with groups of elements rotatable about at least three axes intersecting in one point each group consisting of again a central element and a plurality of additional elements rotatable about three orthogonal axes at both ends, the additional elements being rotatable about at least two axes, e.g. Rubik's cube
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H33/00—Other toys
- A63H33/04—Building blocks, strips, or similar building parts
- A63H33/10—Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements
Definitions
- This invention refers to the manufacriring of three — dimensional logic toys, which have the form of a normal geometric solid, substantially cubic, which has N layers per each direction of the three - dimensional rectangular Cartesian coordinate system, the centre of which coincides with the geometric centre of the solid.
- the layers consist of a number of smaller pieces, which in layers can rotate around the axes of the three — dimensional rectangular Cartesian coordinate system.
- Such logic toys either cubic or of other shape are famous worldwide, the most famous being the Rubik cube, which is considered to be the best toy of the last two centuries.
- the first one substantially cubic in shape, lies towards the solid's surface, the intermediate second part, which has a conical sphenoid shape pointing substantially towards the geometric centre of the solid, its cross section being either in the shape of an equilateral spherical triangle or of an isosceles spherical trapezium or of any spherical quadrilateral, and its innermost third part, which is close to the solid geometric centre and is part of a sphere or of a spherical shell, delimited appropriately by conical or planar surfaces or by cylindrical surfaces only when it comes to the six caps of the solid. It is obvious, that the upper cubic part is missing from the separate smaller pieces as it is spherically cut when these are not visible to the user.
- each separate piece extends to the appropriate depth in the interior of the solid and it is protected from being dismantled, on the one hand by the six caps of the solid, that is the central separate pieces of each face, and on the other hand by the suitably created recesses - protrusions, whereby each separate piece is intercoupled and supported by its neighbouring pieces, said recesses-protrusions being such as to create, at the same time, general spherical recesses-protrusions between adjacent layers.
- Each separate piece is self-contained, rotating along with the other pieces of its layer around the corresponding axis in the way the user desires.
- the three side surfaces of that sphenoid solid are parts of the surfaces of the mentioned cones and, as a result, the said sphenoid solid can rotate in the internal surface of the corresponding cone, when the corresponding cone axis or the corresponding semi - axis of the three - dimensional rectangular Cartesian coordinate system rotates.
- Their conical sphenoid part for the configuration of which at least four conical surfaces are used, can have the same cross section all over its length or different cross-section per parts.
- the shape of the cross-section of the said sphenoid part is either of an isosceles spherical trapezium or of any spherical quadrilateral.
- the configuration of this conical sphenoid part is such so as to create on each separate piece the above-mentioned recesses-protrusions whereby each separate piece is intercoupled and supported by its neighbouring pieces.
- the configuration of the conical sphenoid part in combination with the third lower part of the pieces creates general spherical recesses-protrusions between adjacent layers, securing the stability of the construction and guiding the layers during rotation around the axes.
- the lower part of the separate pieces is a piece of a sphere or of spherical shell.
- each cube is fixed on a central three - dimensional solid cross whose six legs are cylindrical and on which we screw the six caps of each cube with the appropriate screws.
- the caps that is the central separate pieces of each face, whether they are visible or not, are appropriately formed having a hole (figure 1.7) through which the support screw passes after being optionally surrounded with appropriate springs (figure 1.8).
- the way of supporting is similar to the support of the Rubik cube.
- the present invention is fully understood by anyone who has a good knowledge of visual geometry. For that reason there is an analytic description of figures from 2 to 11 accompanying the present invention and proving that: a) The invention is a unified inventive body. b) The invention improves the up to date manufactured in several ways and by several inventor cubes, that is 2x2x2, 4x4x4 and 5x5x5 cubes, which, however, present problems during their rotation. c) The classic and functioning without problems Rubik cube, i.e. the 3x3x3 cube, is included in that invention with some minor modifications. d) It expands for the first time worldwide, from what we know up to now, the logic toys series of substantially cubic shape up to the number No 11, i.e.
- the separate pieces of each cube form groups of similar pieces, the number of said groups depending on the number K of the conical surfaces per semi — axis of the cube, and said number being a triangle or triangular number.
- the corner piece 1 (figure 3.1) and in total eight similar pieces, all visible to the toy user, the intermediate piece 2 (figure 3.2) and in total twelve similar pieces, all visible to the user, and finally piece 3, (figure 3.3) the cube cap, and in total six similar pieces, all visible to the toy user.
- the piece 4 is the non- visible central three - dimensional solid cross that supports the cube (figure 3.4). In figures 3.1.1, 3.2.1, 3.2.2, 3.3.1 we can see the cross-sections of these different separate pieces by their symmetry planes.
- figure 3.5 we can see these three different pieces placed at their position along with the non- visible central three - dimensional solid cross that supports the cube.
- figure 3.6 we can see the geometrical characteristics of the cubic logic toy No 3.
- figure 3.7 we can see the internal face of the first layer along with the non-visible central three - dimensional solid cross that supports the cube.
- FIG 3.10 we can see the final shape of the cubic logic toy No 3.
- the cubic logic toy No 3 consists of twenty- seven (27) separate pieces in total along with the non- visible central three - dimensional solid cross that supports the cube.
- the non- visible intermediate layer of the toy No 2 becomes visible in the toy No 3 while both the cubes consist of the same total number of separate pieces.
- this has already been mentioned as one of the advantages of the present invention and it proves that it is unified.
- figure 4.14 we can see the external face of the second layer with the intermediate non- visible layer and the non-visible central three - dimensional solid cross that supports the cube.
- figure 4.15 we can see the internal face of the first layer of the cube with the non- visible central three — dimensional solid cross that supports the cube.
- figure 5.9 we can see at an axonometric projection these six different pieces placed at their position along with the non-visible central three - dimensional solid cross that supports the cube.
- figure 5.10 we can see the internal face of the first layer of the cubic logic toy No 5.
- figure 5.11 we can see the internal face of the second layer and in figure 5.14 its external face.
- the cubic logic toy No 5 consists of ninety- nine (99) separate pieces in total along with the non-visible central three — dimensional solid cross that supports the cube, the same number of pieces as in the cubic logic toy No 4.
- Piece 1 (figure 6a.1) and in total eight similar pieces, piece 2 (figure 6a.2) and in total twenty-four similar pieces, piece 3 (figure 6a.3) and in total twenty-four similar pieces, piece 4 (figure 6a.4) and in total twenty-four similar pieces, piece 5 (figure 6a.5) and in total forty-eight similar pieces, piece 6 (figure 6a.6) and in total twenty-four similar pieces, up to this point all visible to the user of the toy.
- the non- visible, different pieces that form the intermediate non visible layer in each direction of the cubic logic toy No 6a are: piece 7 (figure 6a.7) and in total twelve similar pieces, piece 8 (figure 6a.8) and in total twenty-four similar pieces, piece 9 (figure 6a.9) and in total twenty-four similar pieces and piece 10 (figure 6a.10) and in total six similar pieces, the caps of the cubic logic toy No 6a.
- piece 7 (figure 6a.7) and in total twelve similar pieces
- piece 8 (figure 6a.8) and in total twenty-four similar pieces
- piece 9 (figure 6a.9) and in total twenty-four similar pieces
- piece 10 (figure 6a.10)
- figure 6a.14 we can see the internal face of the first layer of the cubic logic toy No 6a along with the non visible central three-dimensional solid cross that supports the cube.
- figure 6a.15 we can see the internal face and in figure 6a.16 we can see the external face of the second layer of the cubic logic toy No 6a.
- figure 6a.17 we can see the internal face and in figure 6a.18 we can see the external face of the third layer of the cubic logic toy No 6a.
- figure 6a.19 we can see the face of the non- visible intermediate layer in each direction along with the non -visible central three-dimensional solid cross that supports the cube.
- figure 6a.20 we can see the sections of the separate pieces of the intermediate layer as well as of the non visible central three dimensional solid cross that supports the cube by an intermediate symmetry plane of the cube, and we can also see the projection of the separate pieces of the third layer on this plane, said third layer being supported on the intermediate layer of the cubic logic toy No 6a.
- figure 6a.21 we can see at an axonometric projection the first three layers that are visible to the user, as well as the intermediate non visible layer in each direction and the non visible central three-dimensional solid cross that supports the cube.
- the cubic logic toy No 6a consists of two hundred and nineteen (219) separate pieces in total along with the non- visible central three-dimensional solid cross that supports the cube.
- Piece 1 (figure 6b.1) and in total eight similar pieces, piece 2 (figure 6b.2) and in total twenty-four similar pieces, piece 3 (figure 6b.3) and in total twenty-four similar pieces, piece 4 (figure 6b.4) and in total twenty-four similar pieces, piece 5 (figure 6b.5) and in total forty eight similar pieces, piece 6 (figure 6b.6) and in total twenty-four similar pieces, up to this point all visible to the user.
- the non visible different pieces that form the intermediate non visible layer in each direction of the cubic logic toy No 6b are: piece 7 (figure 6b.7) and in total twelve similar pieces, piece 8 (figure 6b.8) and in total twenty-four similar pieces, piece 9 (figure 6b.9) and in total twenty-four similar pieces and piece 10 (figure 6b.10) and in total six similar pieces, the caps of the cubic logic toy No 6b.
- piece 7 (figure 6b.7) and in total twelve similar pieces
- piece 8 (figure 6b.8) and in total twenty-four similar pieces
- piece 9 (figure 6b.9) and in total twenty-four similar pieces
- piece 10 (figure 6b.10) and in total six similar pieces, the caps of the cubic logic toy No 6b.
- figure 6b.11 we can see the non-visible central three-dimensional solid cross that supports the cube No 6b.
- figure 6b.12 we can see the ten different pieces of the cubic logic toy No 6b, placed at their position along with the non visible
- figure 6b.13 we can see the geometrical characteristics of the cubic logic toy No 6b, for the configuration of the internal surfaces of the separate pieces of which three conical surfaces have been used per semi direction of the three-dimensional rectangular Cartesian coordinate system.
- figure 6b.14 we can see the internal face of the first layer of the cubic logic toy No 6b along with the non visible central three-dimensional solid cross that supports the cube.
- figure 6b.15 we can see the internal face and in figure 6a.16 we can see the external face of the second layer of the cubic logic toy No 6b.
- figure 6b.17 we can see the internal face and in figure 6b.18 we can see the external face of the third layer of the cubic logic toy No 6b.
- figure 6b.19 we can see the face of the non- visible intermediate layer in each direction along with the non- visible central three-dimensional solid cross that supports the cube.
- figure 6b.20 we can see the section of the separate pieces of the intermediate layer as well as of the non- visible central three- dimensional solid cross that supports the cube by an intermediate symmetry plane of the cube.
- FIG 6b.21 we can see at an axonometric projection the first three layers that are visible to the user, as well as the intermediate non -visible layer in each direction and the non visible central s three-dimensional solid cross that supports the cube.
- figure 6b.22 we can see the final shape of the cubic logic toy No 6b.
- the cubic logic toy No 6b consists of two hundred and nineteen (219) separate pieces in total along with the non-visible central three-dimensional solid cross that supports the cube. We have already mentioned that the only difference between the two versions of the cube No6 is in their final shape. V ⁇ .
- Piece 1 (figure 7.1) and in total eight similar pieces, piece 2 (figure 7.2) and in total twenty- four similar pieces, piece 3 (figure 7.3) and in total twenty-four similar pieces, piece 4 (figure 7.4) and in total twenty-four similar pieces, piece 5 (figure 7.5) and in total forty eight similar pieces, piece 6 (figure 7.6) and in total twenty-four similar pieces, piece 7 (figure 7.7) and in total twelve similar pieces, piece 8 (figure 7.8) and in total twenty-four similar pieces, piece 9 (figure 7.9) and in total twenty-four similar pieces and piece 10 (figure 7.10) and in total six similar pieces, the caps of the cubic logic toy No 7.
- figure 7.12 we can see the ten different pieces of the cubic logic toy No 7 placed at their position along with the non-visible central three-dimensional solid cross that supports the cube.
- figure 7.13 we can see the geometrical characteristics of the cubic logic toy No 7, for the configuration of the internal surfaces of the separate pieces of which three conical surfaces per semi direction of the three-dimensional rectangular Cartesian coordinate system have been used.
- figure 7.14 we can see the internal face of the first layer per semi direction of the cubic logic toy No 7.
- figure 7.15 we can see the internal face of the second layer per semi direction along with the non -visible central three-dimensional solid cross that supports the cube and in figure 7.16 we can see the external face of this second layer.
- figure 7.17 we can see the internal face of the third layer per semi direction along with the non -visible central three-dimensional solid cross that supports the cube and in figure 7.18 we can see the external face of this third layer.
- figure 7.20 we can see the section of the separate pieces of the intermediate layer and of the non-visible central three-dimensional solid cross that supports the cube by an intermediate symmetry plane of the cube.
- figure 7.21 we can see at an axonometric projection the three first layers per semi direction along with the intermediate layer in each direction, all of which are visible to the user of the toy along with the non- visible central three-dimensional solid cross, which supports the cube.
- the cubic logic toy No 7 consists of two hundred and nineteen (219) separate pieces in total along with the non- visible central three-dimensional solid cross that supports the cube, i.e. the same number of pieces as in the cubic logic toy No 6.
- Piece 1 (figure 8.1) and in total eight similar pieces, piece 2 (figure 8.2) and in total twenty-four similar pieces, piece 3 (figure 8.3) and in total twenty-four similar pieces, piece 4 (figure 8.4) and in total twenty-four similar pieces, piece 5 (figure 8.5) and in total forty-eight similar pieces, piece 6 (figure 8.6) and in total twenty-four similar pieces, piece 7 (figure 8.7) and in total twenty-four similar pieces, piece 8 (figure 8.8) and in total forty- eight similar pieces, piece 9 (figure 8.9) and in total forty- eight similar pieces and piece 10 (figure 8.10) and in total twenty-four similar pieces, all of which are visible to the user of the toy.
- the non visible different pieces that form the intermediate non visible layer in each direction of the cubic logic toy No 8 are: piece 11 (figure 8.11) and in total twelve similar pieces, piece 12 (figure (8.12) and in total twenty-four similar pieces, piece 13 (figure 8.13) and in total twenty-four similar pieces, piece 14 (figure 8.14) and in total twenty-four similar pieces and piece 15 (figure 8.15) and in total six similar pieces, the caps of the cubic logic toy No 8.
- piece 11 (figure 8.11) and in total twelve similar pieces
- piece 12 figure (8.12) and in total twenty-four similar pieces
- piece 13 figure 8.13 and in total twenty-four similar pieces
- piece 14 (figure 8.14) and in total twenty-four similar pieces
- piece 15 (figure 8.15) and in total six similar pieces
- the cubic logic toy No 8 consists of three hundred and eighty eight (387) pieces in total along with the non -visible central three-dimensional solid cross that supports the cube. IX.
- Piece 1 (figure 9.1) and in total eight similar pieces, piece 2 (figure 9.2) and in total twenty-four similar pieces, piece 3 (figure 9.3) and in total twenty-four similar pieces, piece 4 (figure 9.4) and in total twenty-four similar pieces, piece 5 (figure 9.5) and in total forty eight similar pieces, piece 6 (figure 9.6) and in total twenty-four similar pieces, piece 7 (figure 9.7) and in total twenty-four similar pieces, piece 8 (figure 9.8) and in total forty eight similar pieces, piece 9 (figure 9.9) and in total forty eight similar pieces and piece 10 (figure (9.10) and in total twenty-four similar pieces, piece 11 (figure 9.11) and in total twelve similar pieces, piece 12 (figure 9.12) and in total twenty-four similar pieces, piece 13 (figure 9.13) and in total twenty-four similar pieces, piece 14 (figure 9.14) and in total twenty-four similar pieces and finally, piece 15 (figure 9.15) and in total six similar pieces, the caps of the cubic logic toy No 9. Finally, in figure
- figure 9.24 we can see the section of the separate pieces of the intermediate layer in each direction as well as of the non -visible central three-dimensional solid cross that supports the cube by an intermediate symmetry plane of the cubic logic toy No 9.
- figure 9.25 we can see at an axonometric projection the four layers in each semi direction along with the fifth intermediate layer of this direction and the non visible central three- dimensional solid cross that supports the cube.
- the cubic logic toy No 9 consists of three hundred and eighty eight (387) separate pieces in total along with the non -visible central three-dimensional solid cross that supports the cube, the same number of pieces as in the cubic logic toy No 8.
- Piece 1 (figure 10.1) and in total eight similar pieces, piece 2 (figure 10.2) and in total twenty-four similar pieces, piece 3 (figure 10.3) and in total twenty-four similar pieces, piece 4 (figure 10.4) and in total twenty-four similar pieces, piece 5 (figure 10.5) and in total forty eight similar pieces, piece 6 (figure 10.6) and in total twenty-four similar pieces, piece 7 (figure 10.7) and in total twenty-four similar pieces, piece 8 (figure 10.8) and in total forty eight similar pieces, piece 9 (figure 10.9) and in total forty eight similar pieces and piece 10 (figure 10.10) and in total twenty-four similar pieces, piece 11 (figure 10.11) and in total twenty-four similar pieces, piece 12 (figure 10.12) and in total forty eight similar pieces, piece 13 (figure 10.13) and in total forty eight similar pieces, piece 14 (figure 10.14) and in total forty eight similar pieces, piece 15 (figure 10.15) and in total twenty-four similar pieces, up to this point all visible to the user of the toy.
- the non visible different pieces that form the intermediate non visible layer in each direction of the cubic logic toy No 10 are: piece 16 (figure 10.16) and in total twelve similar pieces, piece 17 (figure 10.17) and in total twenty-four similar pieces, piece 18 (figure 10.18) and in total twenty-four similar pieces, piece 19 (figure 10.19) and in total twenty-four similar pieces, piece 20 (figure 10.20) and in total twenty-four similar pieces, and, piece 21 (figure 10.21) and in total six similar pieces, the caps that of the cubic logic toy No 10. Finally, in figure 10.22 we can see the non -visible central three-orthogonal solid cross that supports the cube No 10.
- figure 10.27 we can see the internal face and in figure 10.27.1 we can see the external face of the fourth layer per semi direction of the cubic logic toy No 10.
- figure 10.28 we can see the internal face and in figure 10.28.1 we can see the external face of the fifth layer per semi direction of the cubic logic toy No 10.
- figure 10.29 we can see the face of the non -visible intermediate layer in each direction along with the non- visible central three-dimensional solid cross that supports the cube.
- figure 10.30 we can see the internal face of the intermediate layer in each direction and the internal face of the fifth layer per semi direction said fifth layer being supported on the intermediate layer, along with the non visible central three-dimensional solid cross that supports the cube.
- figure 10.31 we can see the section of the separate pieces of the intermediate layer in each direction and of the central non visible three-dimensional solid cross by an intermediate symmetry plane of the cube as well as the projection on it of the separate pieces of the fifth layer of this semi direction.
- figure 10.32 we can see the geometrical characteristics of the cubic logic toy No 10 for the configuration of the internal surfaces of the separate pieces of which, five conical surfaces per semi direction of the three-dimensional rectangular Cartesian coordinate system have been used.
- figure 10.33 we can see at an axonometric projection, the five visible layers per semi direction along with the non-visible central three-dimensional solid cross that supports the cube.
- the cubic logic toy No 10 consists of six hundred and three (603) separate pieces in total along with the non- visible central three-dimensional solid cross that supports the cube.
- Piece 1 (figure 11.1) and in total eight similar pieces, piece 2 (figure 11.2) and in total twenty-four similar pieces, piece 3 (figure 11.3) and in total twenty-four similar pieces, piece 4 (figure 11.4) and in total twenty-four similar pieces, piece 5 (figure 11.5) and in total forty eight similar pieces, piece 6 (figure 11.6) and in total twenty-four similar pieces, piece 7 (figure 11.7) and in total twenty-four similar pieces, piece 8 (figure 11.8) and in total forty eight similar pieces, piece 9 (figure 11.9) and in total forty eight similar pieces, piece 10 (figure (11.10) and in total twenty-four similar pieces, piece 11 (figure 11.11) and in total twenty-four similar pieces, piece 12 (figure (11.12) and in total forty eight similar pieces, piece 13 (figure 11.13) and in total forty eight similar pieces, piece 14 (figure 11.14) and in total forty eight similar pieces, piece 15 (figure 11.15) and in total twenty-four similar pieces, piece 16 (figure 11.16) and in total twelve similar pieces, piece
- figure 11.31 we can see the geometrical characteristics of the cubic logic toy No 11 for the configuration of the internal surfaces of the separate pieces of which five conical surfaces per semi direction of the three-dimensional rectangular Cartesian coordinate system have been used.
- figure 11.32 we can see at an axonometric projection, the five layers in each semi direction and the sixth layer in each direction, as well as the intermediate layer along with the non- visible central three-dimensional solid cross that supports the cube.
- the cubic logic toy No 11 consists of six hundred and three (603) separate pieces in total along with the non- visible central three-dimensional solid cross that supports the cube, the same number of pieces as in the cubic logic toy 10.
Abstract
Description
Claims
Priority Applications (16)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
BRPI0410204A BRPI0410204B1 (en) | 2003-05-21 | 2004-05-13 | cubic logic toy |
CA2522585A CA2522585C (en) | 2003-05-21 | 2004-05-13 | Cubic logic toy |
SI200430528T SI1599261T1 (en) | 2003-05-21 | 2004-05-13 | Cubic logic toy |
US10/555,013 US7600756B2 (en) | 2003-05-21 | 2004-05-13 | Cubic logic toy |
PL04732666T PL1599261T3 (en) | 2003-05-21 | 2004-05-13 | Cubic logic toy |
DE602004008747T DE602004008747T2 (en) | 2003-05-21 | 2004-05-13 | CUBE LOGIC TOY |
EP04732666A EP1599261B1 (en) | 2003-05-21 | 2004-05-13 | Cubic logic toy |
AU2004241790A AU2004241790B2 (en) | 2003-05-21 | 2004-05-13 | Cubic logic toy |
UAA200511895A UA79699C2 (en) | 2003-05-21 | 2004-05-13 | Cubic logic toys |
JP2006530607A JP2007509640A (en) | 2003-05-21 | 2004-05-13 | Cubic logic toy |
DK04732666T DK1599261T3 (en) | 2003-05-21 | 2004-05-13 | Cubic logical toy |
IL171549A IL171549A (en) | 2003-05-21 | 2005-10-24 | Cubic logic toy |
EGNA2005000739 EG23956A (en) | 2003-05-21 | 2005-11-16 | Cubic logic toy |
NO20055913A NO20055913L (en) | 2003-05-21 | 2005-12-13 | Cubic logical toy |
HK06106257A HK1086212A1 (en) | 2003-05-21 | 2006-05-30 | Cubic logic toy |
HR20070548T HRP20070548T3 (en) | 2003-05-21 | 2007-12-04 | Cubic logic toy |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GR20030100227 | 2003-05-21 | ||
GR20030100227 | 2003-05-21 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2004103497A1 true WO2004103497A1 (en) | 2004-12-02 |
Family
ID=36204767
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/GR2004/000027 WO2004103497A1 (en) | 2003-05-21 | 2004-05-13 | Cubic logic toy |
Country Status (26)
Country | Link |
---|---|
US (1) | US7600756B2 (en) |
EP (1) | EP1599261B1 (en) |
JP (2) | JP2007509640A (en) |
KR (1) | KR101042136B1 (en) |
CN (1) | CN100500251C (en) |
AT (1) | ATE372153T1 (en) |
AU (1) | AU2004241790B2 (en) |
BR (1) | BRPI0410204B1 (en) |
CA (1) | CA2522585C (en) |
CY (1) | CY1107031T1 (en) |
DE (1) | DE602004008747T2 (en) |
DK (1) | DK1599261T3 (en) |
EG (1) | EG23956A (en) |
ES (1) | ES2291876T3 (en) |
GR (1) | GR1004581B (en) |
HK (1) | HK1086212A1 (en) |
HR (1) | HRP20070548T3 (en) |
IL (1) | IL171549A (en) |
NO (1) | NO20055913L (en) |
PL (1) | PL1599261T3 (en) |
PT (1) | PT1599261E (en) |
RU (1) | RU2320390C2 (en) |
SI (1) | SI1599261T1 (en) |
UA (1) | UA79699C2 (en) |
WO (1) | WO2004103497A1 (en) |
ZA (1) | ZA200508909B (en) |
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WO2012160395A2 (en) | 2012-06-12 | 2012-11-29 | Seven Towns Limited | Spatial logic puzzle |
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