FIELD OF THE INVENTION

[0001] The present invention relates to the general field of modular structures and is particularly concerned with a modular structure made of building blocks.

BACKGROUND OF THE INVENTION

[0002] There exists a plurality of situations wherein it is desirable to form three dimensional modular structures. One example of such situations is in the field of toys. Indeed, numerous geometric puzzles have been known in the past, both in two dimensions as in plane geometry and in three dimensions as in solid geometry. Building blocks toys have been popular for many decades as an educational forum for the development of a child's imagination and creativity in the construction of three dimensional objects. The conventional building block toys have designs ranging from simple cubicle blocks to complex geometrical shapes having various interlocking means.

[0003] One of the most popular building block typically defines a generally rectangular parallelepiped-shaped configuration having three pairs of opposing surfaces in which one of the pairs of opposing surfaces is provided with complimentary interengaging formations while the remaining pairs of opposing surfaces remain substantially planar.

[0004] An example of such arrangement is the conventional brick, suitable for constructing a wall or the like. Such prior art brick typically have a major surface that includes, spaced from the edge of the brick, two upraised projections and an opposite major surface. The major surface, in turn, includes, spaced from the edges of the brick two corresponding recesses.

[0005] The projections and recesses are arranged so that two identical bricks may be placed in an end-to-end relationship relative to each other. A third identical brick is typically placed on top of the other two with one of its recesses accommodating one projection from one of the two bricks and one of its recesses accommodating one projection from the other of the two bricks thereby interlocking the bricks together.

[0006] Another conventional building block design includes a generally rectangular interlocking building blocks having complimentary projections and recesses on opposite of its major surfaces, the projections being provided with ribs arranged to form at least one upstanding cruciform shape.

[0007] One of the major problem associated with the hereinabove disclosed type of toy building blocks is that the blocks must be arranged in one of the limited orientations. This greatly limits the design of any construction incorporating the blocks. Furthermore, the type of links between the blocks does not allow relative movement between the blocks once they are assembled.

[0008] In order to circumvent the hereinabove mentioned disadvantages, some prior art building blocks have been provided with relatively complex interconnecting means typically taking the form of slotted pegs, metal springs, metal screws and the like which are awkward to manipulate especially for a given child. The overall complexity associated with such toys typically frustrates a child in not wanting to play further. Furthermore, some of the complex interconnecting means associated with prior art building blocks not only increase the overall manufacturing cost thereof but also potentially creates safety hazards.

[0009] There exists various other situations in numerous fields wherein an improved modular structure made of building blocks would prove to be most desirable. For example, in the field of robotics there exist a long felt need for a modular structure that can easily be configured according to various configurations. Such a configurable modular structure could be used for numerous applications. For example in the medical field and other fields it would be most desirable to be provided with a three dimensional structure that can be re-configured according to specific needs without external physical contacts with the actual three-dimensional structure.

[0010] Accordingly, there exists a need for an improved construction block design allowing for the construction of an improved modular structure and for an improved modular structure.

[0011] In accordance with an embodiment of the invention, there is provided a modular structure, the modular structure comprising: at least two building blocks, each of the building blocks including a block body defining at least one block connecting face, the block connecting face defining a block external connecting configuration; a linking component, the linking component defining a pair of linking component connecting faces, each of the linking component connecting faces defining a linking component external configuration that is configured and sized so as to at least partially mate complimentarily with the block external connecting configuration of one of the blocks; a magnetic force generating means for generating a magnetic field, the magnetic force generating means being anchored either to the block body and/or to the linking component so as generate a magnetic force that emanates respectively either through the block external connecting configuration and/or the linking component external configurations; whereby the block external connecting configuration of each of the blocks are adapted to be positioned in a facing relationship relative to each other with the linking component external configurations at least partially mating complimentarily with the block external connecting configuration of the blocks, the magnetic force generating means exerting a magnetic force that releasably maintains the building blocks coupled by the linking component.

[0012] Preferably, the complementary block external connecting configurations and the linking component external configurations allow both of the block bodies to pivot relative to the linking component about a common pivotal axis while maintaining the block bodies and the linking component in contact with each other.

[0013] In accordance with one embodiment of the invention, the magnetic force generating means is a magnet component made out of a magnetized piece of material. In accordance with another embodiment of the invention, the magnetic force generating means is an electro-magnet component.

[0014] In accordance with some embodiments of the invention, each building block and each linking component is provided with a set of electro-magnets, the modular structure being provided with a selective actuating means for selectively activating the formation of the magnetic field of at least some of the electro-magnets according to a predetermined activation pattern.

[0015] Conveniently, the selective actuating means includes a means for generating the predetermined pattern; the electro-magnets and the building blocks being configured, sized and positioned so that selective activation of the electro-magnets according to the predetermined pattern modifies the configuration of the modular structure

[0016] Conveniently, the selective actuating means includes a set of receivers; each receiver being coupled to a corresponding electro-magnet; the selective actuating means also including an emitter for selectively emitting a signal; whereby upon reception of the signal from the emitter, each receiver, in turn, sends a signal to the corresponding electro-magnet to which it is coupled for activating the latter.

[0017] Advantages of the present invention include that the proposed modular structure is made out of building blocks and linking components that allow for releasable linking of the components while providing adequate structural rigidity. Also, the modular structure allows for selective relative movement between the components even when they are in an assembled state, hence allowing the modular structure to change its configuration while remaining in an assembled state.

[0018] Furthermore, the proposed components of the improved modular structure allow for ergonomical handling thereof without requiring special tooling or manual dexterity. In at least one embodiment of the invention, the components of the modular structure can be moved relative to each other without the need for the intended user to physically contact the structure.

[0019] Another advantage of the present invention relates to the fact that the modular structure could optionally be provided with means for allowing the self-modification of its structural configuration through the use of magnets or other force generating means. This additional feature could lead to the construction of functional structures such as miniature robots that could be used in the medical field or any other suitable fields.

[0020] Still further, the components of the proposed modular structure are specifically designed so as to provide an aesthetical pleasing modular structure. Furthermore, the proposed modular structure is specifically designed so as to provide building components that are manufacturable using conventional forms of manufacturing so as to provide a modular structure that will be economically feasible, long lasting and relatively trouble free in operation.