RU190516U1 - CUBE HEAD - Google Patents

Abstract

The technical solution relates to the field of intellectual toys, in particular to three-dimensional puzzle cubes 4 × 4 × 4. The puzzle cube contains corner, rib and central blocks that form three mutually perpendicular groups of layers, each of which contains two outer layers and two intermediate layers, inside the cube there is a mechanism containing a central cross, central and rib elements, the central cross connected to the indicated the central elements, the upper sections of which are located in the grooves of the central blocks in the assembled position of the cube, the upper section of each rib element of the mechanism is designed as directional In the opposite sides of the two protrusions installed in the slots of the two rib blocks in the assembled position of the cube, each of the rib blocks of the cube is provided with two arcuate protrusions located on opposite sides of its body and installed in the response cavities of the two central blocks of the cube, each of the rib elements mechanism is provided with a lower protrusion with two protruding in opposite directions restrictive sections, while the lower peripheral sections of the corner blocks of the cube can be in contact with the On the inner surface of the three sides of the body of each corner block and the inner surface of the two sides of the body of each rib block of the cube, magnets are fixedly mounted with which the mating edges of the said bodies are attracted to each other. The technical result is to provide high-speed Assembly of the cube. 6 hp f-ly, 7 ill.

Description

The technical solution relates to the field of intellectual toys, in particular to three-dimensional puzzle cubes 4 × 4 × 4.

Prior art

Three-dimensional puzzle cubes, called magic cubes, are known in the art. These cubes also include 4 × 4 × 4 cubes, which contain sixteen flat or convex portions on each of their faces. The cube assembly speed can be affected by the design of the mechanism of rotation of the layers, the design of the blocks forming the specified cube, their relationship with each other, the presence of lubricant and other factors.

The cubic logical toy (hereinafter referred to as the cube), known from RU 2320390 C1, publication 04/27/04, IPC A63F 9/12 (2006.01) was adopted as the closest analogue. The specified device contains three mutually perpendicular groups of layers, each of which contains two outer and two intermediate layers. The specified device contains eight corner blocks, twenty four edge blocks, and four central blocks on each of the six faces of the cube. Inside this cube is a mechanism containing a central cross, made three-dimensional with six protrusions, connected by screws with six central elements of the mechanism. Each of these central elements of the mechanism is installed in the slots of the four central blocks of the cube. The mechanism contains rib elements, each of which is provided with a lower wedge-shaped section located between the protrusions of the central cross and an upper section installed in the grooves of the two central blocks in the assembled position of the cube.

The design of the corner and rib blocks, as well as the mechanism, does not allow for the speedy assembly of the cube, since a clear alignment of the cube faces does not always occur and there is a possibility that the layers are jammed during their rotation / rotation. In this situation, the player has to spend extra time aligning them in order to continue building the cube until each of its faces becomes monochromatic.

Disclosure of utility model

The technical result is aimed at ensuring high-speed Assembly of the cube.

This technical result is achieved in a cube device containing angular, rib and central blocks that form three mutually perpendicular groups of layers, each of which contains two outer layers and two intermediate layers, inside the cube there is a mechanism containing a central cross, central and rib elements, and the central crosspiece is connected to said central elements, the upper portions of which are located in the grooves of the central blocks in the assembled position of the cube, the upper portion of each rib According to the utility model, each of the rib blocks of the cube is equipped with two arc-shaped protrusions located on opposite sides of its body and installed in response cavities of two mechanisms. the central blocks of the cube, each of the rib elements of the mechanism is provided with a lower protrusion with two protruding in opposite directions to the restrictive sections, while the bottom n The peripheral portions of the corner blocks of the cube may come into contact with the upper surface of the specified restrictive sections of rib elements, on the inner surface of the three sides of the hull of each corner block and the inner surface of the two faces of the hull of each rib block of the cube magnets are fixed, with which the mating faces of the said hulls attract each other .

Each of the cube finder blocks contains two magnets on one of the faces of its case, located next to the two outer faces of the said case.

Magnets can be made cylindrical.

Magnets can be embedded in the body of the rib block.

Magnets can be embedded in the body of the corner block.

Magnets can be installed in cylindrical recesses.

Magnets can be fixed with adhesive material.

The set of features of the claimed cube device is in a causal relationship with the technical result achieved and presented in the formula of the utility model.

FIG. 1 shows the inventive cube device; general view.

FIG. 2 - schematically depicts a group of layers of the cube.

FIG. 3 - schematically shows the outer layer of the cube, view from the inside of the cube.

FIG. 4 shows a schematic view of the first intermediate layer from the side of the outer layer of the cube.

FIG. 5 shows a schematic view of the second intermediate layer from the side of the first intermediate layer of the cube.

FIG. 6 - schematically shows the cube rib block, explosion diagram.

FIG. 7 - schematically shows the corner block of the cube, the explosion diagram.

The above figures depict:

1 - cube;

2 - corner block;

3 - rib block;

4 - central unit;

5 - central cross;

6 - the central element of the mechanism;

6a — upper portion of the central element 6;

7 - rib element of the mechanism;

8 is a protrusion of the upper portion of the rib element 7;

9 - lower ledge;

10 - bounding area;

10a — upper surface of the restriction portion 10;

11 - groove rib unit 3;

12 - the case of the corner unit 2;

12a - the face of the housing 12;

13 - the lower part of the corner unit 2;

14 - the lower peripheral portion of the lower part 13;

15 - body rib unit 3;

15A - the face of the housing 15;

16 - arcuate protrusion rib unit 3;

17 - the deepening of the Central unit 4;

18 - magnet;

W is the outer layer;

I is an intermediate layer.

It should be understood that experts in the field of technology will be able to offer other options for the implementation of the utility model, and that some of its details can be changed in various other aspects, without going beyond the nature and scope of this utility model. Accordingly, the explanatory figures and the detailed description of the cube device are illustrative, but not restrictive.

The inventive device of the cube 1 (hereinafter referred to as the cube) contains angular 2, edge 3 and central 4 blocks forming four layers in each direction of the three-dimensional rectangular coordinate system (see Fig. 1). Each of the three mutually perpendicular groups of layers contains two outer layers W and two intermediate layers I of cube 1 (see Fig. 2).

In the specific example of performance, the invented cube 1 contains eight corner blocks 2, twenty four rib blocks 3, twenty four central blocks 4 and a mechanism installed inside the cube 1. On the outer side of the cube 1, two rib blocks 3 are located between each two corner blocks 2 , and on each of the six faces of the cube 1 there are four central blocks 4.

The above mechanism contains a central crosspiece 5, central 6 and rib 7 elements. The central cross 5 is volumetric and contains six protrusions connected to six central elements 6 of the mechanism. The specified connection can be made using fasteners, such as screws.

Each of the rib elements 7 mechanism contains: the upper section, made in the form of two protrusions 8, directed in opposite directions; the lower protrusion 9, forming two restrictive sections 10 protruding in opposite directions that prevent the angular blocks 2 from moving towards the center of the cube 1 (see Fig. 3). This design improves the reliability of the cube 1, since it minimizes the possibility of detaching the restriction sections 10 from the rib element 7 in cases when the indicated restriction sections 10 perceive an increased load, as well as, for example, when the cube 1 hits a hard surface.

In the assembled position of the cube 1, when all six of its faces are clearly formed, the projections 8 of the upper portion of each rib element 7 of the mechanism are installed in the slots 11 of two adjacent rib blocks 3 of the cube 1, and the upper sections 6a of the central elements 6 of the mechanism are located in the slots of the central blocks 4 cube 1. In a specific example of execution, the upper portion 6a of each central element 6 of the mechanism is located in the grooves of the four central blocks 4 of the cube 1.

Each of the corner blocks 2 of the cube 1 contains: a housing 12 with three outer edges, which, as a rule, can be painted or marked in three different colors, and three edges 12a for mating; an extended lower part 13 with a lower peripheral portion 14 directed toward the center of the cube 1.

Each of the rib blocks 3 of the cube 1 comprises a housing 15 with two outer edges, which, as a rule, can be painted or marked in two different colors, and two edges 15a for interfacing.

Each of the rib blocks 3 of the cube 1 contains, on opposite sides of its body 15, two arcuate protrusions 16 installed in form-shaped depressions 17 corresponding to two central blocks 4 located on two faces of the cube 1 (see FIGS. 4, 6).

In the process of assembling the cube 1, said arcuate protrusions 16 of the rib blocks 3 of the rotating outer layer W slide in the recesses 17 of the central blocks 4 of the intermediate layer I, relative to which the specified outer layer W rotates / rotates. This design contributes to the smooth rotation of the said layers W, I and minimizes the possibility of sticking / jamming, which increases the speed of the cube assembly 1.

In the assembled position of the cube 1 or in the process of its assembly, the lower peripheral sections 14 of the corner blocks 2 can contact or contact the upper surface 10a of the limiting sections 10 of the rib elements 7 of the mechanism, which ensures a stable structurally specified position of the corner blocks 2, minimizes the possibility of wedging the above layers W, I cube 1 and increases the speed of the cube assembly 1.

Corner 2 and rib 3 blocks of cube 1 are equipped with magnets 18 installed inside their housings 12 and 15, respectively (see Fig. 6, 7). In the specific example of execution, eight angular 2 and twenty-four edge 3 blocks of cube 1 are equipped with magnets 18.

On the inner surface of the three faces 12a of the housing 12 of each corner unit 2 and the inner surface of the two opposite faces 15a of the housing 15 of each rib unit 3 of the cube 1, magnets 18 are fixedly mounted, with which the faces of the above-mentioned edges 12a, mated during rotation / rotation of the layers W, I of the cube 1, 15a attract each other, while ensuring the smooth rotation of these layers W, I cube 1.

When the magnets 18 of the mating faces 12a and 15a of the angular 2 and rib blocks 3, respectively, are as close as possible to each other, a clear alignment of the faces of the cube 1 occurs, almost automatically.

The magnets 18 allow you to make the rotation of these layers W, I clearer and more controlled. This design allows the player to not spend additional time on the specified alignment and continue the further assembly of cube 1 until each of its faces becomes monochromatic.

To accelerate the alignment of the faces of the cube 1, two magnets 18 are installed on one of the faces 15a of the housing 15 of each rib unit 3, which are close to the two outer edges of the said housing 15 (see Fig. 5). In the assembled position of the cube 1 faces 15a with two magnets 18 rib blocks 3 two intermediate layers I are interconnected.

It is advantageous to introduce magnets 18 into the body of the faces 12a and 15a of the above buildings 12 and 15, respectively, from the side of their internal surfaces.

The magnets 18 can be made cylindrical in shape and installed in the corresponding depressions (not shown in the figures), made predominantly of a cylindrical shape in the body of the faces 12a and 15a of the housings 12 and 15, respectively.

The magnets 18 can be fixed by means of an adhesive substance, which practically excludes their detachment from the above-mentioned faces 12a and 15a of the bodies 12 and 15, respectively.

Permanent magnets can be used as magnets 18.

The above design of the cube 1 is distinguished by its reliability, smoothness of rotation of the layers, fast and precise alignment of the faces, which allows to increase the speed of rotation of the specified external W and intermediate I layers during high-speed assembly of the cube 1, namely the 4 × 4 × 4 cube.

Claims (7)

1. A cube puzzle containing angular, rib and central blocks that form three mutually perpendicular groups of layers, each of which contains two outer layers and two intermediate layers, inside the cube there is a mechanism containing a central cross, central and rib elements, with the central cross connected to the specified central elements, the upper sections of which are located in the grooves of the central blocks in the assembled position of the cube, the upper section of each rib element of the mechanism is designed as opposing sides of two projections installed in the grooves of two rib blocks in the assembled cube position, characterized in that each of the rib blocks of the cube is provided with two arcuate protrusions located on opposite sides of its body and installed in response cavities of the two central blocks of the cube, each of rib elements of the mechanism provided with a lower protrusion with two protruding in opposite directions restrictive sections, while the lower peripheral portions of the corner blocks of the cube can con clocking with the upper surface of the specified limiting areas of the rib elements, on the inner surface of the three sides of the body of each corner block and the inner surface of the two sides of the body of each rib block of the cube magnets are fixedly mounted with which the mating edges of the said bodies are attracted to each other. 2. The cube puzzle according to claim 1, characterized in that each of the rib blocks of the cube contains on one of the edges of its case two magnets located near the two outer edges of the specified case. 3. A cube puzzle according to claim 1, characterized in that the magnets are cylindrical. 4. The cube puzzle according to claim 1, characterized in that the magnets are embedded in the body of the rib block. 5. A cube puzzle according to claim 1, characterized in that the magnets are embedded in the body of the body of the corner block. 6. Cube puzzle according to claim 4 or 5, characterized in that the magnets are installed in the recesses of the cylindrical shape. 7. The cube puzzle according to claim 1, characterized in that the magnets are fixedly fixed by means of an adhesive substance.

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