RU153157U1 - MAGNETIC DESIGN MODULE - Google Patents

Abstract

1. The module of the magnetic designer, 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, while the direct prism has a body and removable upper and lower covers, in the form coinciding with the base of the direct prism, having means for attaching the cover to the body of the direct prism, characterized in that the body of the direct prism has at least one means of attaching the magnet to the center of the side face of the direct prism, and that the upper and lower cover have at least about Nome means magnet center mounting base direct prizmy.2. The magnetic designer module according to claim 1, characterized in that the magnet fastening means in the center of the side face of the direct prism are made in the form of additional cylindrical protrusions adapted to accommodate and fix the magnet in them. 3. The magnetic designer module according to claim 1, characterized in that the magnet fastening means in the center of the side face of the direct prism is made in the form of a hollow U-shaped protrusion located along the entire height of the direct prism body, each lid having rectangular plates located perpendicular to the surface of the lid, according to the number of U-shaped protrusions, adapted by their size to enter the U-shaped protrusion and fix the magnet in the center of the side face of the direct prism, when the covers are assembled with the body of the direct prism. 4. The magnetic designer module according to claim 1, characterized in that the magnet fastening means in the center of the side face of the direct prism are made in the form of two hollow L-shaped protrusions located along the entire height of the body of the direct prism, and

Description

The technical field to which the utility model belongs.

The utility model relates to children's designers, games, and more particularly to modules of a magnetic designer, made in the form of a direct prism of a magnetically permeable material having a cavity inside which at least one magnet is located, while the direct prism has a body and removable upper and the bottom of the cover, in the form of coinciding with the base of the prism, having means for attaching the cover to the body of the direct prism.

In this description and in the formula there are spatial terms “upper” and “lower”, which are used everywhere to simplify the understanding of the design, and serve solely for the purpose of designating some details, and not their spatial orientation. Spatial orientation does coincide with these terms when the device is parallel to gravity when it is at rest. But it is obvious that outside the state of rest, for example, during use, these parts can be oriented arbitrarily.

The figures show for understanding the direction of gravity g or the supporting surface. The term "vertical" means parallelism to gravity, and "horizontal" refers to parallelism of the supporting surface, which is perpendicular to gravity.

The level of technology.

The magnetic constructor module is known from the prior art. It is made in the form of a direct prism of a magnetically permeable material having a cavity inside which at least one magnet is located, while the direct prism has a body and removable upper and lower covers that match the shape of the straight base prisms having means for attaching the cover to the body of a direct prism, see the description of the patent for the invention of the Russian Federation No. 2413561, published in 2011.

A magnetic constructor module called a cube is disclosed in the prior art, in which the magnet is connected to 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 mechanism of the holding device has an axis of rotation a parallel to the face of the cube, and the first magnet is connected with this axis of rotation.

This device is the closest in technical essence to the claimed utility model and is taken as a prototype for the proposed utility model.

The disadvantage of this device is the low reliability of the connection of the modules with each other. This is due to the fact that there is no provision for fixing the magnets in the center of each face, the mobility of the magnets leads to their jamming, which prevents the use of the magnetic designer module for its intended purpose. Another disadvantage of this prototype is the complexity of its design.

Disclosure of a utility model.

The present utility model, based on this original observation, mainly aims to propose a magnetic constructor module made in the form of a direct prism of a magnetically permeable material having a cavity inside which at least one magnet is located, while the direct prism has a body and removable the upper and lower covers, in the form of coinciding with the base of the direct prism, having means for attaching the cover to the body of the direct prism, allowing at least to smooth at least one of the above disadvantages, namely, to increase the reliability of the connection of the modules with each other by ensuring the fixation of the magnets in the center of each face.

To achieve this, the direct prism body has at least one magnet fastening means in the center of the side face of the direct prism. The upper and lower covers have at least one magnet fastening means in the center of the base of the direct prism.

Thanks to this advantageous characteristic, it becomes possible to fix one or more magnets in the center of the side face of the direct prism, and in the center of the bases of the direct prism.

There is a variant of the utility model in which the magnet fastening means in the center of the lateral face of the direct prism are made in the form of additional cylindrical protrusions adapted to accommodate and fix the magnet in them.

Due to this advantageous characteristic, it becomes possible to conveniently position the magnet in the centers of the side faces by fixing it inside the protrusions of a cylindrical shape.

There is an alternative version of the utility model in which the magnet fastening means in the center of the lateral face of the direct prism is made in the form of a hollow p-shaped protrusion located along the entire height of the direct prism body, each cover having rectangular plates located perpendicular to the surface of the cover, according to the number p shaped protrusions, adapted by their size to enter the u-shaped protrusion and fix the magnet in the center of the side face of the direct prism, when the covers are assembled with the body of the direct prism.

Thanks to this advantageous characteristic, it is possible to alternatively fix the magnets on the side faces, and these signs make it easy to change the magnets if necessary. U-shaped protrusions are used to place magnets inside them, and rectangular plates located perpendicular to the surface of the lid are shaped in such a way that they enter the space of the u-shaped protrusions and fix the magnets in the center of the side faces.

There is a variant of the utility model in which the magnet fastening means in the center of the side face of the direct prism are made in the form of two hollow g-shaped protrusions located along the entire height of the direct prism body, each cover having rectangular plates located perpendicular to the surface of the cover, according to the number of pairs of g -shaped protrusions adapted to fit inside the L-shaped protrusions and fix the magnet in the center of the side face of the direct prism when the covers are assembled with the body of the direct prism

Thanks to this advantageous characteristic, it is possible to alternatively fix the magnets on the side faces, and these signs make it easy to change the magnets if necessary. Two l-shaped protrusions are used to place magnets inside them, and rectangular plates located perpendicular to the surface of the lid are shaped in such a way that they enter the space of the u-shaped protrusions and fix the magnets in the center of the side faces. Due to the space between the l-shaped protrusions, it is possible to visually control the position of the magnet inside the protrusion, if necessary, this space can be used to remove the magnet.

There is a variant of the utility model in which the magnet fastening means in the center of the base of the direct prism are made in the form of additional cylindrical protrusions adapted to accommodate and fix the magnet in them. Due to this advantageous characteristic, it becomes possible to conveniently position the magnet in the centers of the bases of the direct prism by fixing it inside the protrusions of a cylindrical shape.

There is a variant of the utility model in which the means for attaching the cover to the body of the direct prism is made in the form of at least one pin located perpendicular to the cover, and the body of the direct prism has a counter recess adapted for tightly fitting the pin of each cover in it. Thanks to this advantageous characteristic, it becomes possible to easily fix and, if necessary, unlock the covers from the body of a direct prism.

There is a variant of the utility model in which the means for attaching the cover to the body of the direct prism are made in the form of a plurality of pins located perpendicular to the cover at all corners of the cover, and the body of the direct prism has many reciprocal recesses adapted for tightly fitting the pins of each cover in it. Thanks to this advantageous characteristic, it becomes possible to fix the covers of the highest quality to the body of a direct prism.

There is a variant of the utility model in which each pin consists of two elastic parts. Due to this advantageous characteristic, it becomes possible to further improve the quality of fixing the cover to the body of a direct prism.

There is a variant of the utility model, in which the magnet fastening means in the center of the base of the direct prism additionally has a plug adapted for fixing the magnet. Thanks to this advantageous characteristic, it becomes possible to strengthen the fixation of magnets located in the centers of the bases.

There is a variant of the utility model in which the body of a direct prism has a thickness of the body of a direct prism smaller in those places that correspond to the places located between the protrusions, and adapted to accommodate magnets.

Due to such an advantageous characteristic, it becomes possible to enhance magnetic interaction between the modules of the magnetic constructor.

The set of essential features of the proposed utility model is unknown from the prior art for devices of similar purpose, which allows us to conclude that the criterion of "novelty" for the utility model is met.

A brief description of the drawings.

Other distinguishing features and advantages of the utility model clearly follow from the description below for illustration and not being restrictive, with reference to the accompanying drawings, in which:

figure 1 schematically depicts a cross section of the body of a rectangular prism of the module of the magnetic designer, the option of the l-shaped protrusions, according to the utility model,

figure 2 schematically depicts a cross section of the body of a rectangular prism of the module of the magnetic designer, a variant of the u-shaped protrusions, according to the utility model,

figure 3 schematically depicts a cross-section of the body of a rectangular prism of the module of the magnetic designer, the variant of the l-shaped protrusions with a decrease in the thickness of the body of the direct prism, according to the utility model,

- figure 4 schematically depicts the appearance of the module of the magnetic designer, in the position when the top cover is removed, according to the utility model,

- figure 5 schematically depicts the appearance of the lower cover of the module of the magnetic designer together with the magnet, according to the utility model,

- figure 6 depicts the steps of using the module of the magnetic designer, according to the utility model.

According to figures 1-5, the module of the magnetic designer is made in the form of a direct prism of a magnetically permeable material, for example plastic, having a cavity inside which at least one magnet 1 is located, while the direct prism has a body 2 and removable upper 3 and lower 4 covers, in the form of coinciding with the base of the direct prism, having means for attaching the cover to the body of the direct prism. Depicted in figure 4.

Neodymium magnetic discs can be used as magnets.

For example, the figures everywhere depict a variant of a triangular straight prism, at the base of which lies an equilateral right triangle.

The body of the direct prism 2 has at least one means for attaching the magnet to the center of the side face of the direct prism. The upper 3 and lower 4 covers have at least one magnet fastening means in the center of the base of the direct prism.

The magnet fastening means in the center of the side face of the direct prism can be made in the form of additional cylindrical protrusions adapted for placement and fixing of the magnet in them. In the same way, the magnet fastening means in the center of the base of the direct prism are made in the form of additional protrusions of a cylindrical shape 5 adapted for placement and fixing of magnet 1 in them. Such an embodiment is shown in figure 3. The magnet is shown in an unsecured position so that the place of its fixation is visible.

Alternatively, the magnet fastening means in the center of the side face of the direct prism is made in the form of a hollow p-shaped protrusion located along the entire height of the direct prism body, each cover having rectangular plates located perpendicular to the surface of the cover, according to the number of p-shaped protrusions, adapted by their size for entering the u-shaped protrusion and fixing the magnet in the center of the side face of the direct prism, when the covers 3 and 4 are assembled with the body of the direct prism. See FIG. 2.

Alternatively, the magnet fastening means in the center of the side face of the direct prism is made in the form of two hollow l-shaped protrusions 6 located along the entire height of the direct prism body, each cover having rectangular plates 7 located perpendicular to the surface of the cover, according to the number of pairs of l-shaped protrusions, adapted by their size to enter the l-shaped protrusions and fix the magnet in the center of the lateral face of the direct prism, when the covers 3 and 4 are assembled with the body of the direct prism 2. Rectangular plates 7 are shown in 5. In FIG. 4, on the top cover 3, rectangular plates 7 are not shown so as not to obstruct part 2. The height of the rectangular plates is selected so that when assembled, when the covers 3 and 4 are inserted into the body of the prism 3, the magnets that are in grooves 6, were rigidly fixed at the centers of the side faces.

The means for attaching the cover to the body of the direct prism is made in the form of at least one pin 8 located perpendicular to the cover, and the body of the direct prism has a counter recess 9 adapted to tightly fit the pin 8 of each cover in it. The pins 8 are shown in figure 5. In the figure 4 on the top cover 3, the pins 8 are not shown so as not to obstruct the part 2.

In general, the means for attaching the cover to the body of the direct prism is made in the form of a plurality of pins 8 located perpendicular to the cover at all corners of the cover, and the body of the direct prism has a plurality of counter recesses 9 adapted for tightly accommodating the pins of each cover in it.

Each pin can consist of two elastic parts. That is, to have a cut on, for example, half its length. Not shown in the figures.

In one embodiment of the utility model — as shown in FIG. 3 — the body of a direct prism may have a thickness of the body of a direct prism less in those places that correspond to the places located between the protrusions and adapted to accommodate magnets. This place is designated as 10.

In another embodiment of the utility model, as shown in FIG. 5, the magnet fastening means in the center of the base of the direct prism may additionally have a plug 11 adapted for fixing magnet 1. This may be a cylindrical-shaped lid that simply fits onto the protrusions of a cylindrical-shaped 5, as shown in figure 5, it can also have a different shape, including having locking pins for the plugs, and protrusions of cylindrical shape 5 having reciprocal recesses for accommodating and fixing the locking pins of the plugs. The figures are not shown.

Implementation of a utility model.

The magnetic constructor module is assembled as follows. (An example is given that does not limit the assembly of the utility model to the figures). According to figure 6:

Stage A1. The magnets 1 are located in additional projections of a cylindrical shape 5 in each of the covers 3 and 4. If necessary, the magnets are fixed with caps 11.

Stage A2. The body of the direct prism 2 is fixed on the bottom cover 4.

Stage A3. Magnets 1 are located in the space between two hollow r-shaped protrusions 6 located along the entire height of the body of the direct prism 2. In this case, three magnets are placed. The magnets are located exactly opposite the centers of the side faces, as they abut against the upper edges of the rectangular plates 7 of the lower cover 4.

Stage A4. On the body of the prism 2 fix the upper cover 3. The lower edges of the rectangular plates 7 of the upper cover 3 fix the magnets exactly opposite the centers of the side faces.

Stage A5. Use the module of the magnetic designer to connect with similar modules.

The above embodiments of the utility model are exemplary and allow you to add new options or modify the described.

Industrial applicability.

The proposed module of the magnetic designer can be implemented by a specialist in practice and, when implemented, ensures the implementation of the declared purpose. The possibility of being implemented by a specialist in practice follows from the fact that for each feature included in the utility model formula based on the description, the material equivalent is known, which allows us to conclude that the criterion of “industrial applicability” for the utility model and the criterion of “completeness of disclosure” for the utility model are met .

In accordance with the proposed utility model, the applicants were made a prototype module of a magnetic designer.

Plastic was used as the material of the covers and the body of the prism, that is, each part was made using thermoplastics machines for pouring plastics. Neodymium magnetic disks were used as magnets.

The pilot operation of the magnetic constructor module showed that it allows you to:

- fix the magnets exactly opposite the centers of the bases and opposite the centers of the side faces;

- if necessary, disassemble all elements;

- to connect similar modules of the magnetic designer with each other in a single well-fixed design.

All this, ultimately, ensures the achievement of the technical result achieved - increasing the reliability of the connection of the modules with each other by ensuring the fixation of the magnets in the center of each face.

The advantage of using this module of the magnetic constructor is also that it:

- simple and cheap to manufacture,

- you can additionally use soft metal silhouettes, so that using the available magnets 1 to fix them on the outer surface of the direct prism, both on the side faces, so on the base,

- it is possible to produce modules of any shape, not only with a triangular base, but also, for example, cubic.

It is recommended to widely use this utility model as elements of children's designers.

Claims (10)

1. The module of the magnetic designer, 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, while the direct prism has a body and removable upper and lower covers, in the form coinciding with the base of the direct prism, having means for attaching the cover to the body of the direct prism, characterized in that the body of the direct prism has at least one means of attaching the magnet to the center of the side face of the direct prism, and that the upper and lower cover have at least about Nome means magnet center mounting base right prism. 2. The magnetic designer module according to claim 1, characterized in that the magnet fastening means in the center of the lateral face of the direct prism are made in the form of additional cylindrical protrusions adapted to accommodate and fix the magnet in them. 3. The magnetic constructor module according to claim 1, characterized in that the magnet fastening means in the center of the side face of the direct prism is made in the form of a hollow U-shaped protrusion located along the entire height of the direct prism body, each cover having rectangular plates located perpendicular to the surface covers, by the number of U-shaped protrusions, adapted by their size to enter the U-shaped protrusion and fix the magnet in the center of the side face of the direct prism, when the covers are assembled with the body of the direct prism. 4. The magnetic constructor module according to claim 1, characterized in that the magnet fastening means in the center of the side face of the direct prism are made in the form of two hollow L-shaped protrusions located along the entire height of the direct prism body, each cover having rectangular plates located perpendicularly the surface of the lid, according to the number of pairs of L-shaped protrusions, adapted by its size to enter the L-shaped protrusions and fix the magnet in the center of the side face of the direct prism, when the covers are assembled with the body of the direct prism . 5. The magnetic designer module according to claim 1, characterized in that the magnet fastening means in the center of the base of the direct prism are made in the form of additional cylindrical protrusions adapted to accommodate and fix the magnet in them. 6. The magnetic designer module according to claim 1, characterized in that the means for attaching the cover to the body of the direct prism is made in the form of at least one pin located perpendicular to the cover, and the body of the direct prism has a counter recess adapted for tight placement in it pin of each cover. 7. The module of the magnetic designer according to claim 6, characterized in that the means for attaching the cover to the body of the direct prism is made in the form of a plurality of pins located perpendicular to the cover at all corners of the cover, and the body of the direct prism has many reciprocal recesses adapted for tight placement in it pins of each cover. 8. The module of the magnetic designer according to claim 6, characterized in that each pin consists of two elastic parts. 9. The magnetic constructor module according to claim 5, characterized in that the magnet fastening means in the center of the base of the direct prism additionally has a plug adapted for fixing the magnet. 10. The module of the magnetic designer according to claim 3 or 4, characterized in that the body of the direct prism has a thickness of the body of the direct prism less in those places that correspond to the places located between the protrusions and adapted to accommodate the magnets.

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