This application is the U.S. National Stage of International Application No. PCT/EP2014/001227, filed May 7, 2014, which designated the United States and has been published as International Publication No. WO 2014/183848 and which claims the priority of the following German Patent Applications: Serial No. 10 2013 209 031.5, filed May 15, 2013; Serial No. 10 2013 014 130.3, filed Aug. 23, 2013, and Serial No. 10 2014 005 386.4, filed Apr. 11, 2014, pursuant to 35 U.S.C. 119(a)-(d).
The invention relates to a modular polyhedral object, preferably in the form of a rectangular body, a prism or a cube, with at least four outer faces in the assembled state, with each face having a different form and/or color design.
Such objects are composed of a plurality of individual building blocks that can be assembled in different ways and form in the assembled state of the object in each case a part of the form and/or color design of each outer face of the object. The object of the invention is thus assembled in various ways essentially from individual building blocks that also have a polyhedral shape. When the individual building blocks are assembled as intended to form the entire object, the outer faces have each a uniform layout, for example in the form of a color design, a motif or symbols.
Such modular objects are used, for example, for training the spatial imagination. However, such objects may also be used as a three-dimensional visualization medium to variably display contents on the respective outer faces of the modular object in three dimensions. Such objects are known hitherto, for example, in the form of images cubes consisting of single, square building blocks, each depicting a part of an overall motif and reproducing in a particular state of assembly a complete pattern. Another type of such cube-shaped objects are the so-called rotating cubes, wherein individual cube-shaped blocks having different external finishes are coupled internally via a special mechanism so that they have, despite their adjustability, always a fixed interconnection as a whole. In such known three-dimensional systems composed of cube-shaped building blocks, the form of their assembly has limited variability, and only on the outer sides result uniform configurations or content of the outer faces when the individual cube-shaped building blocks are correctly assembled or rotated.
It is an object of the present invention to provide a modular polyhedral object composed of individual building blocks, which offers through its design and form new possible applications of such multi-part modular objects. The object of the invention is to enable a higher degree of complexity and a greater variability than previous objects of this type and a rather simple construction of individual building blocks.
This object is attained with a modular cube-shaped object which will be described as a preferred, but non-limiting example.
The modular object in accordance with the invention is constructed from a plurality of individual building blocks of the same size and design and has in the assembled state at least four outer faces with respective different form and/or color, wherein the individual building blocks each form a part of the respective design and/or color of each outer face. The object can be variably assembled loosely or with detachable connection means into a complete object. The individual building blocks of this module within the object have at least four differently designed side faces so as to result, with form-congruent assembly of the object, both in consistently formed matching outer faces on each side of the object, and in matching opposing side faces of the respective building blocks inside the object.
In a cube-shaped object according to the invention, the building blocks are loose or can be joined together by way of detachable connection means, wherein the individual building blocks of each module within the cube-shaped object include at least five differently formed side faces resulting in, with a form-congruent assembly of the cube-shaped object, both matching outer faces on each side of the cube-shaped object and respective matching opposing side faces inside the cube-shaped object of the building blocks.
The individual building blocks can thus be assembled in various ways, wherein the uniform format of outer faces of the object can be produced only with a correct, form-congruent assembly of the building blocks. The differently designed or formed side faces of the individual building blocks are hence both a respective part of the design of the outer faces of the object as well as a coding for the assembly of the individual building blocks for the correct, form-congruent construction of modular polyhedral object. According to the invention, respective interior side faces of the building blocks are always adjacent to correspondingly shaped and designed side faces of each adjacent building block. The design and form of the individual building blocks of the object of the invention is selected so that a matching design of the side faces of abutting building blocks exists in the interior as well as that a uniform form of the design of the entire outer face is present for each side of the object. This measure and the special design of the individual building blocks for the construction of the object provide high complexity despite using relatively simple means. The coding for a correct assembly of the object is achieved by the different individual designs of the side faces which at the same time form a part of the overall design of the outer face of the correctly assembled object. Each type of the design of the side faces of the building blocks is quasi also the connecting means for the construction of the object. The construction of the individual side faces of the building blocks may be, for example, a color scheme with or without symbols.
The design of the side faces of the individual building blocks can also be a part of an overall pictorial motif that in conjunction with the associated building blocks of each side of the object can form an overall motif. Alternatively, the respective different design of the side faces of the building blocks may also be formed with relief-like shapes, i.e. as a flat face. However, this is not limiting, and the side faces of the individual building blocks may also be designed with other forms of coding, as long as different, uniform markings can result for each of the outer faces of the entire object and as long as individual building blocks are constructed with, according to the present invention, at least four, preferably five differently shaped or formed side faces.
For the correct assembly of the object, in which the respective abutting side faces of the building blocks in the interior match and the correct form of each outer face of the entire object is obtained, both the visible outer faces and the horizontal and vertical layers between the individual building blocks in the interior must be considered for the assembly. Therefore, a kind of three-dimensional coding of the side faces of the building blocks in several layers in both the vertical direction and in horizontal direction as well as outside and in the interior of the object is provided for the assembly. Such a modular polyhedral object can therefore be used not only to train spatial visualization and imagination. This approach also significantly increases the number of possibilities for assembling the individual building blocks, while only a single correct structure of the object is possible that is defined by the coding of the side faces. Thus, since not only the designs on the outer faces of the overall object match, but also the individual interior horizontal and vertical layers, the possibilities of three-dimensional visualization of content and motifs are increased. For example, for an object from a total of twenty-seven individual building blocks, predefined designs or images can already be reproduced on all sides with nine building blocks of a layer.
According to an advantageous embodiment of the invention, each individual building block of the object has at least four, five, or six different embodiments of side faces. In other words, the individual block is provided with various side faces such that at least four different types of side faces exist in each building block of a modularly configurable object.
Experiments and investigations of the inventor related to the design of the individual building blocks have surprisingly shown that although a very large number of possibilities exist for assembly of the individual building blocks, the predefined match of the interior opposing side faces and the uniform form of each of the outer faces of the entire object is obtained only with a single type of assembly. Only a single type of assembly from the plurality of types of assembly of the individual building blocks is correct, which is to be performed on the basis of codings which represent a kind of means for the interconnecting of the building blocks.
According to another advantageous embodiment of the invention, each building block within the object has a unique form due to its differently designed sides. Each of the individual building blocks is therefore unique and has no equivalent in another building block of the same object. A high versatility is achieved despite the basically simple design of the object and its building blocks. The object can be correctly assembled, for example as a three-dimensional puzzle, only with high concentration and by considering all side faces of the individual building blocks, both inside and outside.
According to another advantageous embodiment of the invention, the different designs of the side faces of the building blocks are implemented by way of a combined color and form design. Alternatively, only one color design or one form may be used as a characteristic feature for the respective side faces of the building blocks. The characteristic feature or design of the side faces is also possible by way of symbols or logos or other similar codes such relief-like faces, as long as an association of a correct assembly with matching side faces of respective abutting building blocks is possible and different designs or contents are achieved in a form-congruent assembly on the respective sides of the object as a whole. A combined color and form design of the side faces enhances the design options for the production of the object, and for example colored motifs may also be realized as a form of visualization on the outer faces of the object, which arise automatically from the individual designs of the side faces of the building blocks for the correct predefined structure. For example, at least four outer faces may be realized with a symmetrical, single color design, while the other outer faces may carry a picture on a product or a national flag. The latter is produced and will be visible only with the correct form-congruent assembly of the building blocks based on the coding according to the invention.
According to another advantageous embodiment of the invention, the different embodiments of the respective side faces of the building blocks have a number or letter coding, which can be used either alone or in addition to a color or design-defining motif. Coding by numbers or letters has the advantage that, for example, the degree of difficulty is further increased when used, for example, as training material to perform the correct assembly. Again, the object is further characterized according to the invention in that, with the correct form-congruent assembly of the object, the individual codes on the outer faces of the object are uniform and the mutually facing side faces of the building blocks in the interior each have the same code (letter or number).
According to another advantageous embodiment of the invention, the respective different form and/or color design of the outer face produces a puzzle-like motif in the predefined state of a correct, form-congruent assembly of the individual building blocks of the object. The object thus shows on its outer sides a complete motif, for example, an image of a product or article, which is obtained only with a distinctive, correct assembly of building blocks. The desired motif on the outer sides is not obtained with an incorrect assembly of the individual building blocks, i.e. when the coding by the respective side faces of the building blocks is not properly accounted for. It can be detected immediately whether or not the match of opposite forms of side faces in the interior was maintained, because the outer motifs on the outer faces of the object would otherwise not be obtained. In such an embodiment, the invention may be used, for example, as a multi-dimensional presentation object for products with both an external and an internal presentation, or as a learning tool or a training tool for practicing spatial perception. The complete three-dimensionality of the designs makes the assembly of the forms of the side faces particularly challenging and requires high concentration from the user, when the object is used, for example, as a puzzle or for competitions. Even when the object is used repeatedly, the degree of complexity remains difficult due to the special design of the individual building blocks that have each at least five different individualized side faces.
According to another advantageous embodiment of the invention, the different embodiments in the design of the side faces of the building blocks are provided with an asymmetric motif in relation to the building block. In contrast to symmetrical motifs or design features on the side faces of the building blocks for the assembly and the generation of the outer faces, an asymmetric design has a lower degree of complexity. Such an embodiment requires, in addition to considering the (interior) codes also the correct orientation of the respective asymmetric symbols, in order to be correctly aligned with respect to the symbols on each side face of the adjacent building blocks of the object. This can be used to provide instructions for the correct assembly of the object.
According to another advantageous embodiment of the invention, the modular polyhedral object is constructed from 16, 27 building blocks, 64 building blocks, 125 individual building blocks, 216 or 512 individual building blocks. The 27-block system is composed of three individual building blocks arranged along the width, depth and height, respectively, and commensurately, the 64-block system is composed of four building blocks, and the 125-block system is composed of five building blocks in each dimension. The greater the number of individual building blocks, the higher the level of difficulty of the assembly, requiring an increasingly more demanding spatial imagination to assemble the object correctly. Alternatively, according to the invention, objects can be produced with 216 or 512 individual building blocks. The variability and complexity of the modular object is then accordingly higher.
For this reason, there is also a version with 32 or 48 building blocks.
According to another advantageous embodiment of the invention, the different embodiments of the side faces of the individual building blocks are formed with respective interlocking depressions and elevations having at least four different forms. Alternatively or in addition to a color design or a design of a form or a symbol, additional coding for assembling the building blocks into the object can be provided with the depressions and elevations. Furthermore, a certain cohesion of the building blocks can be attained with the slight depressions and elevations on the side faces of the building blocks already during assembly, so that the object already holds together even without additional (alternative) connecting means.
According to another advantageous embodiment of the invention, the building blocks of each cube-shaped module have releasable connecting means. Releasable connecting means can be implemented, for example, with plug-in connections, adhesive connections or the like, as long as the building blocks can be variably assembled, i.e. with their different sides aligned differently to each other, and then disassembled again. The releasable connecting means have the advantage that the object has greater stability even without outer covers or the like. They also help holding the object together for transport and after assembly has been completed.
Further advantages and features of the invention will be explained in conjunction with the accompanying drawings with reference to the description of several exemplary embodiments. In the drawing, reference will be made, without any limitation, to an exemplary embodiment of a modular polyhedral object in the form of a cube-shaped object. The drawings show in:
Here, each building block 20 in this example is designed with at least five different side faces 21 and is in this embodiment also a unique feature within each cube-shaped object 10. In other words, in this cube-shaped object 10 consisting of twenty-seven individual building blocks 20, the specific form and design of each building block 20 appear only once. The design of the individual building blocks 20 is selected such that with a correct, form-congruent assembly of the cube-shaped object, not only are uniform outer faces 11 of the cube-shaped object 10 formed on all six sides (see.
As can be clearly seen in
In
This correspondence or match of respective abutting side faces 21 thus forms in the embodiment according to the invention a kind of coding for the three-dimensional assembly of the individual building blocks 20 of the cube-shaped object 10 in order to obtain uniform outer designs of the outer faces 11 of the finished modular cube-shaped object. The differently designed side faces 21 of the building block 20 thus represent a kind of connecting means for the assembly of the cube-shaped object, which can be implemented by way of a different design with motifs, colors, symbols or the like, but also by way of different forms. An example of connecting means is shown in
While
As clearly seen in
When the respective cube-shaped object 10 is assembled with its individual building blocks 20 in the pre-defined form of the composition (see.
The modular cube-shaped object 10 illustrated as an example is in particularly well suited as a device for training the spatial imagination. Due to the special design and construction of the individual building blocks 20, a three-dimensional spatial assembly of all six sides of each building block 20 can be consistently observed in order to obtain the predefined, correct form of the assembly of the cube-shaped object from the building blocks 20. Unlike previous conventional systems, such as the so-called rotary cubes, the form does not only match on the outer sides of the elements in the defined state, but the respective design of the interior side faces 21 must also always still be taken into account. The individual building blocks 20 according to the illustrated exemplary embodiments can be both loosely assembled in various ways as well as assembled by using detachable connection means which ensure easy assembly and a better grip of the building blocks 20 to one another. The illustrated embodiments relate to a cube-shaped object 10 with twenty-seven or sixty-four building blocks 20, respectively. However, a greater number of building blocks 20 may be provided, for example, one hundred twenty five or two hundred and sixteen, as long as the individual building blocks 20 and the outer faces 11 of the cube-shaped object are implemented with uniform cube-shaped forms that are prepared with at least four and at most six different designs on each side face 21.
Number | Date | Country | Kind |
---|---|---|---|
10 2013 209 031 | May 2013 | DE | national |
10 2013 014 130 | Aug 2013 | DE | national |
10 2014 005 386 | Apr 2014 | DE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2014/001227 | 5/7/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2014/183848 | 11/20/2014 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
284037 | McCleary | Aug 1883 | A |
487063 | Bailey | Nov 1892 | A |
3672681 | Wolf | Jun 1972 | A |
4003144 | Maddestra | Jan 1977 | A |
4210333 | Shanin | Jul 1980 | A |
4334871 | Roane | Jun 1982 | A |
4494756 | Winer | Jan 1985 | A |
4852878 | Merrill | Aug 1989 | A |
5249966 | Hiigli | Oct 1993 | A |
5427375 | Breckwoldt | Jun 1995 | A |
5785319 | Frauhiger | Jul 1998 | A |
5799943 | Morgan | Sep 1998 | A |
5921548 | Goldberg | Jul 1999 | A |
6152797 | David | Nov 2000 | A |
6164649 | Perkitny | Dec 2000 | A |
6422560 | Harbaugh | Jul 2002 | B1 |
7785179 | Ionescu | Aug 2010 | B2 |
8157608 | Stapleton | Apr 2012 | B1 |
8727351 | Agamawi | May 2014 | B2 |
8757621 | Harris | Jun 2014 | B2 |
20070108701 | Gu | May 2007 | A1 |
Number | Date | Country |
---|---|---|
2 307 866 | Jun 1997 | GB |
2012 0044102 | May 2012 | KR |
Entry |
---|
International Search Report issued by the European Patent Office in International Application PCT/EP2014/001227. |
Number | Date | Country | |
---|---|---|---|
20160129340 A1 | May 2016 | US |