1. Field of the Invention
The present invention relates to a cube puzzle, and more particularly to a combined structure of an educational five-by-five cube puzzle having smooth rotation without unrotatable layers of blocks due to slightly skew block alignment.
2. Description of the Related Art
Conventional cube puzzles have different choices of cube sizes, such as 2×2×2, 3×3×3, 4×4×4 and larger cube sizes. As the cube sizes increase, the cube puzzles become more and more complicated in terms of the individual parts and the entire structure. Basically, each conventional cube puzzle has a central shaft and multiple blocks mounted on the central shaft and being pivotally rotatable with respect to the central shaft so as to generate diversified cube puzzles. Different colors and patterns are formed on the sides of each block. To solve a cube puzzle, users must keep rotating the blocks of the cube puzzle until each side of the cube puzzle shows a same color.
The cube puzzles have been widespread and popular since the first appearance, and the combined structure thereof has been also developed for over three decades. However, as far as the 5×5×5 cube puzzles are concerned, although each layer of the cube puzzles is normally rotatable, the blocks of each layer of the cube puzzles to be rotated may be locked and unrotatable when the layer of blocks slightly deviates from their supposed position. Such phenomenon arises from excessive friction among the blocks and low manufacturing tolerances of the gaps between the blocks, and thus results in an awkward operation and unsmooth moves of the cube puzzles when the user attempts to solve the cube puzzles.
An objective of the present invention is to provide a five-by-five cube puzzle having smooth rotation without unrotatable layers of blocks due to slightly skew block alignment.
To achieve the foregoing objective, the five-by-five cube puzzle has a central shaft assembly, six center blocks, twenty four first intermediate blocks, twenty four second intermediate blocks, twelve first edge blocks, twenty four second edge blocks and eight corner blocks.
The central shaft assembly has a multi-axis shaft unit, six inner shields and six outer shields. The multi-axis shaft unit has a base and six center shafts. The center shafts are formed on the base to respectively point to six mutually perpendicular directions. Each inner shield has an inner arch plate being square and detachably mounted around one of the center shafts. Each outer shield has an outer arch plate, a protruded shaft, a spring and a screw. The outer arch plate is square. The protruded shaft is formed on and protrudes inwardly from an inner side of the outer arch plate, and is centrally mounted through the inner shield. The spring is mounted in the outer shield. The screw is screwed into one of the center shafts through the spring so that a corresponding outer shield is movable along an axial direction of the protruded shaft and a stroke of movement of the outer shield is limited by an overall length of the screw.
Each center block has a square plate centrally mounted on the outer arch plate of one of the outer shields.
The first intermediate blocks are divided into six sets respectively mounted around the center blocks. Each first intermediate block has a square plate and a junction portion. One edge of the square plate adjoins a corresponding edge of the square plate of a corresponding center block. The junction portion detachably engages the outer arch plate of one of the outer shields, and has two ears respectively formed on and protruding from two sides of the junction portion, and each ear detachably abuts against an edge of the outer arch plate of a corresponding outer shield.
Each second intermediate block is mounted between two adjacent first intermediate blocks, is diagonally adjacent to one corner of one of the center blocks and has a square plate and an assembly portion. Two edges of the square plate respectively adjoin two edges of the square plates of two adjacent first intermediate blocks. The assembling portion is formed on an inner side of the second intermediate block and detachably engages the outer arch plate of one of the outer shields.
The first edge blocks are mounted between two adjacent first intermediate blocks on two adjacent sides of the cube puzzle. Each first edge block has a first piece and a connection portion. The first piece has two square faces perpendicularly connected. The connection portion is formed with the first piece and detachably connects with the inner arch plates of two adjacent inner shields and the outer arch plates of two adjacent outer shields.
Each second edge block has a second piece and an engagement piece. The second piece is formed on one end of the second edge block and has two square faces perpendicularly connected with each other. The engagement piece is formed on the other end of the second piece and detachably connects with the inner arch plates of two adjacent inner shields and the outer arch plates of two adjacent outer shields.
Each corner block is surrounded by three adjacent second edge blocks and has a corner body and a corner connection portion. The corner body has three square faces formed on one end of each corner block and perpendicularly connected with each other. The corner connection portion is formed on the other end of the corner body and detachably abuts against the inner sides of the inner arch plates of two adjacent inner shields.
Each center shaft of a multi-axis shaft unit of the central shaft assembly is combined with a movable inner shield. An outer shield is mounted on an outside of a corresponding inner shield with a spring and a screw. The inner shields and the outer shields are combined with the first intermediate blocks, second intermediate blocks, first edge blocks, second edge blocks and corner blocks to form the cube puzzle. Based on rotation of those blocks with respect to the movable inner shields and outer shields and sufficient tolerance among each block and corresponding inner shield and outer shield, smooth rotation of each block can be achieved without being affected by slightly skew block alignment.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
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Each first edge block 5 has a first piece 50 and a connection portion 51. The first piece 50 has two square faces 500 perpendicularly connected. The square faces 500 of each first edge block 5 respectively adjoin the square plates 30 of two adjacent first intermediate blocks 3 on two adjacent sides of the five-by-five cube puzzle. The connection portion 51 is integrally formed with the first piece 50, and has two flanges 511, two inner wings 513 and two outer wings 512. The flanges 511 are arch, are oppositely and respectively formed on and protrude from two edges of a free end of the connection portion 51, and respectively and detachably abut against two inner sides of the inner arch plates 110 of two adjacent inner shields 11. The inner wings 513 are arch, are respectively formed on and protrude from two sides of the connection portion 51, align in a direction perpendicular to that of the flanges 511, respectively and detachably abut against two edges of the adjacent inner arch plates 110 of two adjacent inner shields 11. The outer wings 512 are arch, are respectively formed on and protrude from two sides of the connection portion 51, are parallel to the inner wings 513, and respectively and detachably abut against two corresponding ears 32 of two adjacent first intermediate blocks 3. With the structure combining the inner wings 513, the outer wings 512 of the first edge blocks 5, the ears 32 of the first intermediate blocks 3 and the inner arch plates 110 and the outer arch plates 120 of the central shaft assembly 1, a double-layer sphere is formed inside the five-by-five cube puzzle.
Each second edge block 6 has a second piece 60 and an engagement piece 61. The second piece 60 is formed on one end of the second edge block 6, and has two square faces 600 perpendicularly connected with each other. The engagement piece 61 is L-shaped and formed on an inner end of the second piece 60, and has a gap 611 formed between the second piece 60 and the engagement piece 61. Each second edge block 6 adjoins one of the first edge block 5 and two adjacent second intermediate blocks 4. The gap 611 is detachably mounted in by one of the outer wings 512 of a corresponding first edge block 5, and the engagement piece 61 is detachably mounted between the corresponding outer wing 512 and inner wing 513 of one adjacent first edge block 5.
Each corner block 7 is surrounded by three adjacent second edge blocks 6, and has a corner body 70 and a corner connection portion 71. The corner body 70 has three square faces 700 formed on one end of the corner block 7 and perpendicularly connected with each other. The corner connection portion 71 has a pole 711 and a triangular plate 712. The pole 711 is formed on an inner portion of the corner body 70. The triangular plate 712 is formed on a free end of the pole 711, and detachably abuts against the inner sides of the inner arch plates 110 of two adjacent inner shields 11.
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The center blocks 2, the first intermediate blocks 3, the second intermediate blocks 4, the first edge blocks 5, the second edge blocks 6 and the corner blocks 7 can be formed with colors or patterns thereon. The colors or patterns on the six outer surfaces are different so as to be distinctly distinguished.
Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only. Changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.