WO2022255909A2 - Three-dimensional magnetic puzzle with movable segments - Google Patents

Abstract

The present invention relates to three-dimensional magnetic puzzles with movable segments designed so that their relative position to one another can be changed, said segments having movable elements arranged therein which form different states of the three-dimensional puzzle, and can be used for learning and for developing manual motor skills and cognitive skills. According to the invention, a three-dimensional magnetic puzzle is configured in the form of a cube consisting of 26 movable segments that are movable about a central crosspiece formed by three mutually perpendicular shafts, each end of said shafts having a platform with fixed magnets. All of the movable elements are comprised of an outer part and of an inner part with a magnet disposed thereon, and the movable segments are divided into eight corner segments, 12 end segments and six middle segments. When the three-dimensional puzzle is in any static position, the magnets interact with one another in pairs, causing the movable elements either to be drawn toward the centre or to be repelled away from it.

Description

3D MAGNETIC PUZZLE WITH MOVING SECTORS

The field of technology to which the invention belongs.

The present invention relates to three-dimensional magnetic puzzles with movable sectors, which are made with the possibility of changing the relative position relative to each other, in which the moving elements are located, forming different states of the three-dimensional puzzle, and can be used for learning, developing hand motor skills, thinking.

The level of technology.

A three-dimensional magnetic puzzle is known from the prior art with movable sectors made with the possibility of changing the relative position relative to each other, forming different states of the three-dimensional puzzle, see the description of the patent of the Russian Federation N° 2701264, published on September 25, 2019.

This device is the closest in technical essence to the claimed invention and is taken as a prototype. Thus, the proposed device in this description will be described in terms of differences from the prototype. At the same time, the technical problem of this invention is the expansion of the arsenal of three-dimensional puzzles with moving sectors. And the achieved technical result is the implementation of the specified purpose by the invention.

Disclosure of the invention.

The present invention mainly aims to propose a three-dimensional magnetic puzzle with movable sectors, made with the possibility of changing the relative position relative to each other, in which the moving elements are located, forming different states of the three-dimensional puzzle, which makes it possible to expand the arsenal of three-dimensional puzzles with moving sectors, which is a technical challenge.

To achieve this goal, the three-dimensional magnetic puzzle is made in the form of a cube, consisting of twenty-six movable sectors moving around the central cross, formed by three mutually perpendicular axes, each edge of which has platforms with fixed magnets. All movable elements have an outer part and an inner part on which the magnet is located and are divided into eight corner, twelve end and six central. The angular movable sectors have cavities in which three movable elements are located, having internal cavities for the possibility of placing mutually perpendicularly with the possibility of movement. The end movable sectors have cavities in which two movable elements are located, having internal cavities for the possibility of placing mutually perpendicularly with the possibility of movement. The central movable sectors have a cavity in which one movable element is located. In any static position of a three-dimensional magnetic puzzle, the magnets interact with each other in pairs, as a result of which the moving elements are either attracted to the center or repelled from it.

Thanks to such beneficial characteristics, it becomes possible to create a new puzzle in which the elements move according to the principle of the Rubik's cube, but instead of colors on the faces, the binary principle of two possible states of each face of each moving sector is used. Or the movable element on the specified face protrudes or is recessed - located closer to the center. Due to the presence of magnets inside the puzzle and their unusual internal arrangement, at each turn, a new interaction of pairs of magnets is obligatory. Due to magnetic attraction and repulsion, which depend on whether the magnets are oriented with the same poles in the new position or different, moving elements move, which change the appearance of the puzzle.

There is another possible, but not mandatory, variant of the invention, in which the platforms with fixed magnets are in the form of disks. Thanks to such advantageous characteristics, it becomes possible to easily implement the task when, in any static position of a three-dimensional magnetic puzzle, the magnets interact with each other in pairs, as a result of which the moving elements are either attracted to the center or repelled from it, thus forming various versions of the puzzle.

There is also an exemplary embodiment of the invention in which the fixed magnet pads each include four magnets. Thanks to such favorable characteristics, it becomes possible to implement the task in a specific way, when in any static position of a three-dimensional magnetic puzzle, the magnets interact in pairs with each other. Brief description of the drawings.

Other features and advantages of the present invention will clearly appear from the description below, by way of illustration and without being restrictive, with reference to the accompanying drawings, in which:

- figure 1 depicts the appearance of a three-dimensional magnetic puzzle, in the initial state, according to the invention,

- figure 2 depicts the appearance of a three-dimensional magnetic puzzle, in a state of face rotation, according to the invention,

- figures 3-6 depict the appearance from different sides of the angular movable sector of the three-dimensional magnetic puzzle, according to the invention,

- figures 7-11 depict sections of the angular movable sector of a three-dimensional magnetic puzzle, according to the invention,

- figures 12-15 depict the appearance from different sides of the movable element of the angular movable sector of the three-dimensional magnetic puzzle, according to the invention,

- figures 16-23 depict the appearance from different sides in different positions and the schematic arrangement of the movable elements of the angular movable sector of the three-dimensional magnetic puzzle, according to the invention,

- figures 24-28 depict the appearance from different sides of the end movable sector of a three-dimensional magnetic puzzle, according to the invention,

- figures 29-31 depict sections of the end movable sector of a three-dimensional magnetic puzzle, according to the invention,

- figures 32-35 depict the appearance from different sides of the movable element of the end movable sector of the three-dimensional magnetic puzzle, according to the invention,

- figures 36-38 depict the appearance from different sides in different positions and the schematic arrangement of the movable elements of the end movable sector of the three-dimensional magnetic puzzle, according to the invention,

- figures 39-42 depict the appearance from different sides of the central movable sector of a three-dimensional magnetic puzzle, according to the invention,

- figures 43-45 depict sections of the central movable sector of a three-dimensional magnetic puzzle, according to the invention, - figures 46-49 depict the appearance from different sides of the movable element of the central movable sector of the three-dimensional magnetic puzzle, according to the invention,

- figures 50-52 depict the appearance from different sides in different positions and the schematic arrangement of the movable elements of the central movable sector of the three-dimensional magnetic puzzle, according to the invention,

- figure 53 depicts the appearance of the central cross of the three-dimensional magnetic puzzle, according to the invention,

- figures 54-56 depict sections of the central crosspiece of a three-dimensional magnetic puzzle, according to the invention,

- figure 57 depicts the appearance of the central cross of a three-dimensional magnetic puzzle, complete with one corner, one end and one central movable sectors, according to the invention,

- figure 58 depicts the appearance of one side face of the assembled three-dimensional magnetic puzzle, according to the invention,

- figures 59-61 depict sections of the entire three-dimensional magnetic puzzle, according to the invention.

The figures indicate:

1 - angular movable sector,

2 - end movable sector,

3 - central movable sector,

11 , 21 , 31 - cavities of movable sectors

4 - moving elements,

41 - cavities of moving elements,

42 - the outer part of the moving elements,

43 - the inner part of the movable elements,

5 - magnets,

6 - cross,

61 - axis of the cross,

62 - platform of the cross.

Arrows show the direction of movement of elements.

N - north pole of magnets,

S is the south pole of the magnets.

According to figures 1-63 volumetric magnetic puzzle has movable sectors 1-3, made with the possibility of changing the mutual positions relative to each other. They contain moving elements 4, which form various states of a three-dimensional magnetic puzzle.

At least part of the movable elements 4 is connected to permanent magnets 5. The movable sectors have cavities 11, 21, 31, in which the movable elements are located. Each movable element 4 has the ability to move in the cavity 11 or 21 or 31 under the action of other permanent magnets of the puzzle when changing the relative position relative to each other of the movable sectors 1 -3.

Volumetric magnetic puzzle is made in the form of a cube, consisting of twenty-six movable sectors, forming the specified cube in the form of 3x3x3, moving around the central crosspiece 6, formed by three mutually perpendicular axes 61. Each edge of each axis has a platform 62 with fixed magnets 5.

All movable elements 4 have an outer part 42, and an inner part 43, on which the magnet 5 is located.

Movable sectors are divided into eight corner 1 , twelve end 2 and six central 3 sectors.

Angular movable sectors 1 have cavities 11 in which three movable elements are located, having internal cavities for the possibility of placing mutually perpendicular with the possibility of movement.

The end movable sectors 2 have cavities 21, in which two movable elements are located, having internal cavities for the possibility of placing mutually perpendicularly with the possibility of movement.

The central movable sectors 3 have a cavity 31 in which one movable element is located.

In any static position of a three-dimensional magnetic puzzle, the magnets 5 interact with each other in pairs, as a result of which the moving elements 4 are either attracted to the center or repelled from it, thus forming various versions of the puzzle.

The unusual design is that the axes along which the moving elements move do not coincide with the axes of the cross, that is, with the axes of symmetry of the puzzle. To be able to implement the puzzle, all the axes along which the moving elements move are displaced. Thus, the movable elements themselves, as can be seen in the figures, are not symmetrical, do not have axes of symmetry. This is clearly seen in the sections of the movable sectors, see, for example, Fig. 8 and 9, 10 and 11, as well as on the images of moving elements, see, for example, figs. 13, 14, 15.

Even more non-obvious is the solution of connecting the movable elements to each other in the angular movable sectors, see, for example, Fig. 17 or 19. To implement such a solution, the implementation of the movable elements is meant to be collapsible so that in principle it is possible to connect the movable elements to each other in this way.

All movable sectors have protruding elements that are not marked in a special way. This is necessary to ensure the integrity of the puzzle during the turns of the faces.

Figures 62 and 63 indicate the poles of the magnets, it clearly shows exactly how the position of the moving elements changes, when the same poles of the magnets are located side by side, they repel each other and this leads to the extension of the moving element, see, for example, any position 42 in figure 63. And when the opposite poles of the magnets are located side by side, they are attracted and this leads to the movement of the movable element to the center of the puzzle, which is located at the intersection of the axes of the cross, see, for example, any position 42 in figure 62.

Implementation of the invention.

Volumetric magnetic puzzle with movable sectors works as follows. We give the most comprehensive example of the implementation of the invention. Bearing in mind that this example does not limit the application of the invention.

In an arbitrary position of the puzzle, the edges of the movable sectors have different positions of the movable elements: part protrudes, and part is recessed. The player's task may be to bring the puzzle from a chaotic state to an orderly state, which is a very difficult task. Ordered state (initial, see figure 1) - when all movable elements are oriented in the same way outward, mostly recessed towards the center, there are no protruding parts. As soon as the face is rotated (see figure 2), the puzzle comes into a chaotic state, in which the movable elements are oriented outward in different ways: part protrudes, and part is recessed. Industrial applicability.

Volumetric magnetic puzzle with movable sectors can be implemented by a specialist in practice and in the implementation provide the implementation of the stated purpose, which allows us to conclude that the criterion of "industrial applicability" for the invention is met.

In accordance with the proposed invention, a prototype of a three-dimensional magnetic puzzle with movable sectors was made.

Tests of a prototype volumetric magnetic puzzle with movable sectors showed that it:

- allows you to easily move moving sectors while maintaining integrity,

- when the moving sectors move, the magnets interact with each other and change the position of the moving elements.

Claims

CLAIM

1. Volumetric magnetic puzzle with movable sectors made with the possibility of changing the relative position relative to each other, in which movable elements are located that form different states of a volumetric magnetic puzzle, at least part of the movable elements are connected to permanent magnets, while the movable sectors have cavities, in which the movable elements are located, and each movable element has the ability to move in the cavity under the action of other permanent magnets of the puzzle when the mutual position of the movable sectors relative to each other changes, characterized in that a. volumetric magnetic puzzle is made in the form of a cube,

B. consisting of twenty-six movable sectors forming the specified cube in the form of 3x3x3, c. moving around the central cross, d. formed by three mutually perpendicular axes, e. each edge of which has platforms with fixed magnets, f. moreover, all movable elements have an outer part and an inner part on which the magnet is located, e. while the movable sectors are divided into eight corner, twelve end and six central, h. at the same time, the angular movable sectors have cavities in which three movable elements are located, having internal cavities for the possibility of placing mutually perpendicularly with the possibility of movement, i. and the end movable sectors have cavities in which two movable elements are located, having internal cavities for the possibility of placing mutually perpendicularly with the possibility of movement, j. and the central movable sectors have a cavity in which one movable element is located, to. in any static position of a three-dimensional magnetic puzzle, the magnets interact in pairs with each other, as a result of which the moving elements are either attracted to the center or repelled from it.

2. Volumetric magnetic puzzle according to claim 1, characterized in that the platforms with fixed magnets are in the form of disks.

3. Volumetric magnetic puzzle according to claim 1, characterized in that the platforms with fixed magnets each include four magnets.