RU2671038C1 - Module of the magnetic toy constructor - Google Patents

Abstract

FIELD: games.

SUBSTANCE: invention relates to toy constructors and games and can be used to create modules of magnetic designers. Required technical result is achieved in a device comprising a housing made of a magnetically permeable material, in which there is a cavity inside which there is a magnet, which is used as a magnet with a diametral magnetization, and the cavity in which it is placed, is made with a tolerance in the form of a magnet placed in it by an amount of 5–10 % of the corresponding size of a magnet with a diametral magnetization.

EFFECT: simplification and expansion of functionality.

21 cl, 8 dwg

Description

The invention relates to designers and games and can be used to create modules of magnetic designers.

A technical solution is known [RU 2413561, C1, A63H 33/06, 03/10/2011], made in the form of a puzzle of many cubes, the cubic root of which is an integer, and the cubes are adapted for placement in three dimensions with the formation of a large cube, so that each of the faces of a large cube shows an image composed of fragments of images on each of the visible faces, while inside each cube there is at least one first magnet, the axis of which is located next to one of its faces, and this magnet is connected with the cube by means of a holding device, the moving parts of the mechanism of which allow the magnetic axis to be moved relative to the corresponding face so that any face of each cube can face any face of any other cube with the possibility of holding both faces relative to each other by the attractive forces of the respective magnets, while the holding mechanism has an axis of rotation parallel to the face of the cube, and the first magnet is connected to this axis of rotation.

The disadvantage of this technical solution is the complexity of its design, as well as the relatively low reliability, since it has moving parts.

The closest in technical essence to the proposed is the module of the magnetic constructor [RU 153157, U1, А63Н 33/00, 07/10/2015], made in the form of a direct prism of a magnetically permeable material having a cavity, inside of which at least one magnet is located, wherein the direct prism has a body and removable upper and lower covers matching the base of the direct prism, having means for attaching the cover to the body of the direct prism, wherein the direct prism body has at least one magnet fastener in the center of the side faceryamoy prism, and in that the upper and lower cover have at least one magnet means for mounting the center line of the prism base.

The disadvantage of the closest technical solution is its relatively high complexity, due to the presence of at least one means of fastening the magnet in the center of the side face of the direct prism, and the fact that the upper and lower covers have at least one means of fastening the magnet in the center the base of the direct prism in order to increase the reliability of the connection of the modules to each other by ensuring the fixation of the magnets in the center of each face.

In addition, the known module has relatively narrow functional capabilities, since for use as part of the designer it is necessary to select its orientation so that the polarities of the magnets at the contact point of adjacent modules are opposite. This complicates the work with the designer and narrows the arsenal of technical means that can be used as elements and modules of designers.

The objective of the invention is to simplify the design and expand on this basis an arsenal of technical means that can be used as elements and modules of designers.

The required technical result is to simplify the device while expanding the arsenal of technical means that can be used as elements and modules of designers.

The problem is solved, and the required technical result is achieved by the fact that, in the module of the magnetic designer, containing a housing of magnetically permeable material, in which there is a cavity inside which the magnet is placed, according to the utility model, a magnet with a diametrical magnetization is used as a magnet, and the cavity, in which it is placed, is made with a tolerance in the form of a magnet placed in it by 5% -10% of the corresponding magnet size with a diametral magnetization.

In addition, the required technical result is achieved in that the magnet is made in the form of a disk.

In addition, the desired technical result is achieved in that the magnet, made in the form of a disk, has a height of 4-5 mm and a diameter of 10-18 mm.

In addition, the required technical result is achieved in that, the cavity inside which the magnet is placed is made in the form of separate sections, and the magnet is made in the form of a set of magnets by the number of sections, while each magnet has a corresponding magnet from the set of magnets, and the cavity under the magnet in each of the sections is made with a tolerance in the form of the corresponding magnet of this section from a set of magnets.

In addition, the required technical result is achieved in that the magnet is made in the form of a ring.

In addition, the desired technical result is achieved by the fact that, the housing is made in plan in the form of a circle.

In addition, the required technical result is achieved by the fact that, the housing is made in plan in the form of a polygon.

In addition, the required technical result is achieved by the fact that a hole is made in the housing for installing other designer modules.

In addition, the required technical result is achieved in that, the hole for installing other modules of the designer of the designer element is made round.

In addition, the required technical result is achieved by the fact that, in the housing, a channel is made from the outer wall to the cavity for the magnet in size with the possibility of installing, removing or replacing the magnet.

In addition, the required technical result is achieved by the fact that, in the channel there is a plug for holding the magnet from falling out through the channel.

In addition, the desired technical result is achieved by the fact that the side surface of the plug at the point of contact with the magnet is made in the form of its side surface.

In addition, the desired technical result is achieved by the fact that the plug is made with lateral springy mustache bends for reliable retention in the channel.

In addition, the required technical result is achieved in that the housing is made in the form of a biaxial corner element containing two cylindrical channels, interconnected at an angle by a spacer containing a cavity for placing the magnet, and made with the possibility of installing rod elements in them.

In addition, the desired technical result is achieved in that the cylindrical channels in the biaxial corner element are interconnected at an angle from 45 ° to 135 °.

In addition, the required technical result is achieved in that the housing is made in the form of a triaxial corner element containing three cylindrical channels, interconnected at angles by spacers containing a cavity for placing the magnet, and made with the possibility of installing rod elements in them.

In addition, the required technical result is achieved in that the cylindrical channels in the triaxial corner element are interconnected at angles from 45 ° to 135 °.

In addition, the required technical result is achieved by the fact that, in the housing in the common base of the cylindrical channels, a narrow technological hole is made.

In addition, the required technical result is achieved by the fact that, in the case at the junction of the cylindrical channels, limiters for the rod elements are made.

In addition, the required technical result is achieved by the fact that the inner surface of the cylindrical channels is made with longitudinal protrusions for reliable retention and ease of assembly and disassembly of the core elements.

In addition, the desired technical result is achieved in that, the wall thickness of the housing at the location of the cavity inside which the magnet is placed is not more than 1-2 mm.

The drawing shows:

in FIG. 1a - module of a magnetic constructor, an example in the form of a biaxial corner element;

in FIG. 1, b - module of the magnetic constructor, an example in the form of a biaxial corner element, in section;

in FIG. 2 - module of the magnetic designer, an example of a polygonal in terms of the shape of the body;

in FIG. 3 - an example of the connection of two modules of a magnetic designer with a polygonal in shape plan of the case;

in FIG. 4 - module of a magnetic designer, an example in the form of a triaxial corner element with mutually perpendicular cylindrical channels;

in FIG. 5 - module of the magnetic designer, an example in the form of a triaxial corner element with different angles of cylindrical channels;

in FIG. 6 is an example of the use of magnetic constructor modules in the form of triaxial corner elements for assembling a cube;

in FIG. 7 is an example of connecting cubes on a plane when working with the designer;

in FIG. 8 is an example of connecting cubes in space when working with the designer.

The module of the magnetic constructor (Fig. 1) contains a housing 1 made of magnetically permeable material, in which there is a cavity 2, inside which there is a magnet 3, made in the form of a magnet with a diametrical magnetization. In an exemplary embodiment, it has the shape of a disk 4-5 mm high and with a base diameter of 10-18 mm. The tolerance in the size of the cavity relative to the shape of the magnet placed in it does not exceed 5-10% of the corresponding magnet size, in particular, 1-2 mm. To ensure the reliability of the use of designer modules, the wall thickness of the housing 1 at the location of the cavity 2, inside which the magnet 3 is placed, can be no more than 1-2 mm.

In addition, the magnet can be made in another form, for example, in the form of a ring, cylinder, etc.

The housing 1 can be made in plan in the form of a flattened volumetric figure in accordance with the designer's purpose, for example, either in the form of a polygon, or in the form of a circle, or in a more complex form.

The cavity 2, inside which the magnet 3 is placed, can be made in the form of separate sections placed in different places of the housing, and the magnet can be made in the form of a set of magnets according to the number of sections, while in each section a corresponding magnet from a set of magnets is placed, and the cavity under the magnet in each of the sections is made with a tolerance in the shape of the magnet of this section from a set of magnets (see Fig. 2, 3).

In the housing 1, a channel 4 can be made in the size of the magnet with the possibility of installing and / or replacing it, and in the channel 4 a plug 5 can be placed to keep the magnet from falling out through the channel.

The outer side surface of the plug 5 is preferably made in the form of a side surface of the housing 1 at the point of passage of the channel 4, and the side surface of the plug 5 at the point of contact with the magnet 3 is made in the form of the side surface of the magnet 3 at the point of contact. The plugs 5 can be made with lateral springy mustache-bends 6 for reliable retention of the plug 5 in the channel 4.

The housing 1 can be made in the form of a biaxial (Fig. 1) or triaxial (Fig. 4, Fig. 5) corner element containing, respectively, two or three cylindrical channels made with the possibility of installing rod elements of the designer and interconnected struts 8 with cavities 2 for placing magnets.

In the General case, the cylindrical channels in the biaxial corner element can be connected to each other at an angle from 45 ° to 135 °, and in the triaxial corner element containing three cylindrical channels connected to each other at the corners by spacers containing the cavity for the magnet, and made with the possibility of installing rod elements in them, they can be interconnected at angles from 45 ° to 135 °.

In the housing 1, made, for example, in the form of a hexagon, a hole 9 can be made for installing other modules of the designer (Fig. 2, Fig. 3). The hole 9 may be made round or other shape depending on the other modules of the designer used.

The inner surface of the cylindrical channels 7 can be made with longitudinal protrusions (not shown in the drawing) to reliably hold and facilitate the assembly and disassembly of the core elements 10.

In the housing 1, made in the form of a triaxial corner element containing three cylindrical channels 7, interconnected by spacers 8 (Fig. 4), the cavities 2, inside which the magnets 3 are placed, can be made either in one or in two or in all three spacers 8. In this case, the spacers can also be provided with channels 4 of the size of the magnets 3 with the possibility of installing, removing or replacing them in the cavities 2 for their placement and the possibility of installing plugs 5 in them to hold the magnets 3. Moreover, the cylindrical channels 7 of the biaxial or three axial corner elements can be made with the possibility of installing them in the core element 10 of the designer. This makes it possible to create three-dimensional figures, such as a cube (Fig. 6) from corner elements together with the rod elements 10, followed by assembling more complex three-dimensional figures from them, as shown, for example, in FIG. 7 and FIG. 8. In addition, at the junction of the cylindrical channels 7, limiters And can be made for the rod elements (Fig. 1,6), and at the junction of the cylindrical channels 7 a narrow technological hole 12 can be made, designed, if necessary, to remove trapped into the cylindrical channels of small objects.

The magnetic constructor module is used as follows.

The magnetic constructor module (Fig. 1) contains a housing 1 of a magnetically permeable material, in which there is a cavity 2 inside which a magnet 3 is located.

The proposed implementation of the module of the magnetic constructor with a magnet 3 placed inside, made in the form of a magnet with a diametral magnetization, for example, in the form of a flat cylinder, provides connection of the planes of the modules without taking into account the polarities of the magnets in the connected modules. In FIG. Figure 3 shows an example of the connection of two modules of a polygonal magnetic designer, when they are tightly connected without any configuration and technological orientation.

The magnet is placed in a cavity that is slightly larger in size, mainly within 5-10% of its size in the directions of its movement. Due to this, the magnet 3, which has two poles on the working plane due to the diametral magnetization, moves and rotates quite freely, choosing the desired position, adjusting to the opposite poles of another magnet located in the same way in another module, thus connecting the designer parts.

In the constructor, where the rod elements 10 of the constructor are used as additional elements, when using the housing 1 in the form of a triaxial corner element, it is possible to assemble, for example, a cube (Fig. 6) with subsequent assembly from cubes of more complex structures (Fig. 7 and Fig. 8 ) Moreover, the connection of the cubes to each other is made without any configuration and ensuring the technological orientation of the connection.

Thus, in the proposed design of the module of the magnetic designer, the required technical result is achieved, which consists in simplifying the device, since there is no need for at least one means of fixing the magnet in the center of the side face of the direct prism, and the fact that the upper and lower covers have at least one means of attaching the magnet to the center of the base of the direct prism in order to increase the reliability of the connection of the modules to each other by ensuring the fixation of the magnets in the center ie each face.

In addition, the proposed design of the module expands its functionality, since for use as part of the designer there is no need to select its orientation so that the polarities of the magnets at the contact point of adjacent modules are opposite. This significantly expands the arsenal of technical equipment used in magnetic designers.

Claims (21)

1. The module of the magnetic designer, comprising a housing of magnetically permeable material, in which there is a cavity, inside which there is a magnet, characterized in that a magnet with a diametrical magnetization is used as a magnet, and the cavity in which it is placed is made with a tolerance in the shape of the of a magnet with a diametral magnetization of 5% - 10% of the corresponding size of a magnet with a diametral magnetization. 2. The module of the magnetic designer according to claim 1, characterized in that the magnet is made in the form of a disk. 3. The module of the magnetic designer according to paragraphs. 1, 2, characterized in that the magnet, made in the form of a disk, has a height of 4-5 mm and a diameter of 10-18 mm. 4. The module of the magnetic designer according to claim 1, characterized in that the cavity inside which the magnet is placed is made in the form of separate sections, and the magnet is made in the form of a set of magnets by the number of sections, and each magnet has a corresponding magnet from the set magnets, and the cavity under the magnet in each of the sections is made with a tolerance in the shape of the corresponding magnet of this section from a set of magnets. 5. The module of the magnetic designer according to claim 1, characterized in that the magnet is made in the form of a ring. 6. The module of the magnetic designer according to claim 1, characterized in that the housing is made in plan in the form of a circle. 7. The module of the magnetic designer according to claim 1, characterized in that the housing is made in plan in the form of a polygon. 8. The magnetic designer module according to claim 1, characterized in that a hole is made in the housing for installing other designer modules. 9. The module of the magnetic designer according to claim 1, 8, characterized in that the hole for installing other modules of the designer of the designer element is made round. 10. The module of the magnetic designer according to claim 1, characterized in that the housing has a channel from the outer wall to the cavity for the magnet in size with the possibility of installing, removing or replacing the magnet. 11. The module of the magnetic designer according to claim 1, 10, characterized in that a plug is placed in the channel to hold the magnet from falling out through the channel. 12. The module of the magnetic designer according to claim 1, 11, characterized in that the side surface of the plug at the point of contact with the magnet is made in the shape of its side surface. 13. The module of the magnetic designer according to claim 1, 11, characterized in that the plug is made with lateral springy mustache-bends for reliable retention in the channel. 14. The module of the magnetic designer according to claim 1, characterized in that the housing is made in the form of a biaxial corner element containing two cylindrical channels interconnected at an angle by a spacer containing a cavity for placing the magnet, and made with the possibility of installing rod elements in them. 15. The module of the magnetic designer according to claim 1, 14, characterized in that the cylindrical channels in the biaxial corner element are interconnected at an angle from 45 ° to 135 °. 16. The module of the magnetic designer according to claim 1, characterized in that the housing is made in the form of a triaxial corner element containing three cylindrical channels interconnected at angles by spacers containing a cavity for placing the magnet, and made with the possibility of installing rod elements in them. 17. The module of the magnetic designer according to paragraphs. 1, 15, characterized in that the cylindrical channels in the triaxial corner element are interconnected at angles from 45 ° to 135 °. 18. The module of the magnetic designer according to paragraphs. 1, 14 or 1, 15, characterized in that in the housing in the common base of the cylindrical channels made narrow technological hole. 19. The magnetic constructor module according to paragraphs. 1, 14 or 1, 15, characterized in that in the housing at the junction of the cylindrical channels made limiters for the rod elements. 20. The module of the magnetic designer according to paragraphs. 1, 14 or 1, 15, characterized in that the inner surface of the cylindrical channels is made with longitudinal protrusions for reliable retention and ease of assembly and disassembly of the core elements. 21. The module of the magnetic designer according to claim 1, characterized in that the wall thickness of the housing at the location of the cavity inside which the magnet is placed is not more than 1-2 mm.

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