RECIPROCALLY LINKED NESTING STRUCTURE

Abstract

An assembly comprising three or more elements; each element comprises a shape with an opening completely through the element; and each element comprises a plurality of edges, the edges being joined together at angular junctions. Each element links all of the other elements, and each element links the other elements in the same way. The link is formed by a portion of the shape passing through the openings in the other elements, so that the elements form a nested structure, and the elements are interchangeable in the nested structure without altering the nested configuration of the assembly.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention concerns several fields, including industrial design, amusements and toys, architectural arts, sculptural arts, jewelry, furniture, chemistry and nanotechnology. In particular, it relates to structure formed by an assembly of reciprocally linked elements, which may be used in any of said fields.

2. Background of the Related Art

Objects made of a number of linked circular rings have been found in jewelry and toys.

SUMMARY OF THE INVENTION

The present invention concerns a reciprocally linked nesting structure. This structure is an assembly comprising three or more elements; each element comprises a shape with an opening completely through the element; and each element comprises a plurality of edges, the edges being joined together at angular junctions. Each element links all of the other elements, and each element links the other elements in the same way. The link is formed by a portion of the shape passing through the openings in the other elements, so that the elements form a nested structure, and the elements are interchangeable in the nested structure without altering the nested configuration of the assembly.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows an exemplary assembly in a completely nested conformation.

FIG. 2 shows the assembly of FIG. 1 in an un-nested conformation.

FIG. 3 shows a larger image appearing on an assembly when the elements are arranged in a certain order and in a completely nested conformation.

FIG. 4 shows pieces of the larger image on the elements of the assembly of FIG. 3 in an un-nested conformation.

DETAILED DESCRIPTION

The following is a description of several preferred embodiments of various aspects of the invention. These embodiments are illustrative only. The invention is limited only by the scope of the claims which are appended hereto, and is by no means limited to particular examples described below.

The present invention concerns a reciprocally linked nesting structure. This structure is an assembly comprising three or more elements; each element comprises a shape with an opening completely through the element; and each element comprises a plurality of edges, the edges being joined together at angular junctions. Each element links all of the other elements, and each element links the other elements in the same way. The link is formed by a portion of the shape passing through the openings in the other elements, so that the elements form a nested structure, and the elements are interchangeable in the nested structure without altering the nested configuration of the assembly.

In this invention, the elements of the assembly can be of various shapes. In one embodiment, the elements are all identical to each other in shape. Some examples of shapes are triangles, squares, pentagons, hexagons, etc.

The edges of the elements can (but need not) be straight; also any number of the edges can (but again need not) have flat sides. Furthermore, the elements can be planar or non-planar. For non-planer elements, the elements may have chiral asymmetry, and a combination of right-handedness and left-handedness elements can be used together in the assembly.

As shown in FIG. 1, a completely nested structure 100 is formed with nine (9) square-shaped elements 101, etc. orderly stacked together. Each element (101, 102, etc.) comprises a shape, in this case a square, with an opening 111, etc. completely through the element. In this example, the opening is the central portion of the frame-like structure formed by this type of element. Each element (101, etc.) comprises a plurality of edges 121, 122 etc., the edges being joined together at angular junctions 123, etc. Each element (e.g., 101) links all of the other elements (e.g., 102, etc.), and each element links the other elements in the same way. The link is formed by a portion of the shape (e.g., edge 124 of element 101) passing through the openings in the other elements (102, etc.), so that the elements may form a nested structure, as shown in FIG. 1. The elements are interchangeable in the nested structure without altering the nested configuration of the assembly. With reference to FIG. 1, this means that the elements shown can be rearranged in any order and re-nested so as to have exactly the same conformation illustrated in FIG. 1.

As shown in FIG. 2, the assembly can be in an un-nested form, where at least one edge of at least one element (e.g., 201) is constrained from moving as a result of contact with a structure representing one of the set of the angular junction of another element, an edge of another element, or an intersection of edges of two or more other elements (e.g., the top edge of element 202). It should be understood that the assembly shown in FIG. 2 is identical to that shown in FIG. 1 except for its arrangement by way of conformation. There are in infinite number of un-nested conformations for any given assembly.

The assembly can be used as an input device, by incorporating means (such as gyroscopic and accelerometer means) to track the positions of the elements so that the assembly may be used as an input device for a 3D imaging device.

The assembly can be made from various materials, and of various sizes, and can be used for various purposes, such as architectural designs, sculptural designs, furniture, jewelry, etc.

In accordance with another aspect of the invention, a molecular structure can be formed by a number of molecular rings that are reciprocally linked together. The chemical bonds in such structures provide edges and angular junctions, which when joined in a ring thereby provide linkable elements in accordance with the invention. Structures providing assemblies in accordance with the invention at a molecular or slightly larger scale, for example, in which the elements are nanotubes (and including structures comprising a plurality of assemblies as described below), may be used for nanotechnological purposes.

The structure is not limited to a single assembly. A complex assembly can be formed by linking at least two assemblies together by at least one link. A complex assembly can also be formed by placing at least two assemblies that are in close proximity with each other, or are touching without actually linked together.

Another type of structure can be formed by applying a flexible cover over a plurality of the edges comprising the assembly. The flexible cover can later be hardened so that a structure remains even if the assembly is removed. Alternatively, a structure can be formed where the cover is affixed to a plurality of the edges comprising the assembly (in which case the cover need not be flexible (though it may be)). Such a covered structure might be used as an architectural element.

In one embodiment, an assembly in accordance with the invention can be made from a mold by standard casting techniques. in such a case, the elements of the assembly are first made out of burnable or meltable materials, such as Styrofoam. Upon forming a desired conformation of the assembly, the assembly is covered with casting material, such as cement, plaster or sand. Heat is applied so that the elements burn or melt away, leaving hollow members in the mold for casting.

It is not necessary to use the entire assembly. A structure can be formed by removing a portion of the assembly. Also, a portion of the assembly can be covered. For example, a portion of the assembly to be used architecturally or structurally may be buried in the foundation.

The reciprocally linked nesting structure can also be created in a computer, where the elements of the assembly can be manipulated by a computer animation program to form a desired structure and rendered on a graphical display.

The surfaces of the elements in an assembly can be colored, decorated, numbered or otherwise distinguished from one another. This can be done in such a way that when the elements are arranged in various orders that the decorations or colors coincide to form larger images or patterns. For example, a puzzle can be made from such an assembly where an image is revealed when all the elements are placed in the correct positions. An example of such puzzle is shown in FIG. 3, where a “Star” pattern 300 is formed when the elements of the assembly are arranged in a certain order and orderly stacked together in a nested conformation. However, as shown in FIG. 4, when the nested conformation is disturbed and/or the orders of the elements are changed, so that the assembly is now in an un-nested form, only pieces of the pattern (301, 302, 303, etc.) are revealed on some elements, and the original pattern is scrambled and becomes unrecognizable.

There are several alternative arrangements for the above decoration, for example: having multiple images on the various sides of the same configuration; using the same assembly in different configurations to represent different things (e.g. you get a sunset on one side, while arranging the same elements in another configuration yields a butterfly, or a pleasing abstract design, etc.); and breaking the various images/decorations into random configurations in which new and pleasing patterns are formed.

While the presently preferred embodiments have been described in detail, it will be apparent to those skilled in the art that the principles of the invention are realizable by other devices and methods without departing from the scope and spirit of the invention, as defined in the following claims.

Claims

1. An assembly comprising three or more elements, wherein each element comprises a shape with an opening completely through the element;each element comprises a plurality of edges, the edges being joined together at angular junctions;each element links all of the other elements;each element links the other elements in the same way;the link for each element is formed by a portion of the shape passing through the openings in the other elements;together, the elements may be conformed into a nested structure, wherein each element is nested with another element in a common manner; andthe elements are interchangeable in the nested structure without altering the nested configuration of the assembly.

2. An assembly in accordance with claim 1, wherein one of more of said edges is linear.

3. An assembly in accordance with claim 1, wherein one or more of said edges has flat sides.

4. A structure comprising an assembly in accordance with claim 1 wherein said assembly is in a completely nested conformation.

5. A structure comprising an assembly in accordance with claim 1 wherein said assembly is in an un-nested conformation in which at least one edge of at least one element is constrained from moving as a result of contact with a structure representing one of the set of the angular junction of another element, an edge of another element, or an intersection of edges of two or more other elements.

6. An assembly in accordance with claim 1, wherein one or more of said elements not confined to a plane.

7. An assembly in accordance with claim 6, wherein at least one element is in opposite chirality with at least one other element in the assembly.

8. A molecular structure comprising chains of atoms linked in nested rings in accordance with claim 1.

9. An input device comprises an assembly in accordance with claim 1, which and further comprising means to track position of the elements to provide an input device for a 3D imaging system.

10. An architectural object comprising an assembly in accordance with claim 1.

11. A sculptural object comprising an assembly in accordance with claim 1.

12. An article of furniture comprising an assembly in accordance with claim 1.

13. An article of jewelry comprising an assembly in accordance with claim 1.

14. A compound assembly comprising at least two assemblies in accordance with claim 1 that are linked together by at least one link.

15. A compound assembly comprising at least two assemblies in accordance with claim 1 that are placed in close proximity or touching with each other, but are not linked together.

16. A structure formed by creating an un-nested assembly in accordance with claim 5, and applying a flexible cover over a plurality of the edges comprising the assembly.

17. A structure in accordance with claim 16 wherein the cover is hardened.

18. A structure in accordance with claim 16 wherein the cover is affixed to a plurality of the edges comprising the assembly.

19. A structure formed by casting wherein a mold is created using a burnable or meltable assembly in accordance with claim 1.

20. A structure in accordance with claim 16 wherein a portion of the assembly is removed.

21. A structure in accordance with claim 16 wherein a portion of the assembly is covered.

22. A computer simulation of an assembly in accordance with claim 1.

23. An assembly in accordance with claim 1, wherein the surfaces of the elements are colored, decorated, or numbered.

24. An assembly in accordance with claim 23, wherein one or more larger images or patterns are formed when the elements are arranged in certain orders.