CN104902971B - Toy building set and modular system - Google Patents

Abstract

A kind of toy building set and modular system, toy building set comprises the positive building blocks and the negative building blocks that are positive tetrahedron; Positive building blocks are provided with first group of visual encoding, and it is included in the first unique visual encoding arranging on each side; Negative building blocks are provided with and first group of second group of visual encoding that visual encoding is corresponding, and it is included in the second unique visual encoding arranging on each side. The first visual encoding and the second visual encoding for generate represent positive building blocks be deposited in negative building blocks together with after the genetic code of accumulation sequence. Each side of positive building blocks is provided with the protrusion pattern corresponding with the first visual encoding, and each side of negative building blocks is provided with the recessed pattern corresponding with the second visual encoding; Make to be deposited in together by protruding the recessed pattern of pattern embedding between positive and negative building blocks. The genetic code generating by visual encoding can be by the construction profile digitlization of total number, banking process and the accumulation of the positive building blocks that use in piling up and negative building blocks.

Description

Toy building set and modular system

Technical field

The present invention relates to toy, relate in particular to a kind of toy building set and modular system.

Background technology

At present, traditional building blocks can be spliced into different shapes or object by accumulation. But, for thisBuilding blocks, can only know the accumulation mode of building blocks from diagram, cannot represent accurately building blocks with characterPile up sequence, for example, cannot represent to pile up sequence by the character string that numeral and/or letter form. Therefore,The function singleness of these building blocks, does not possess reconstruct simulation capacity, therefore cannot be used for industry, building, military affairsIn HWIL simulation.

Summary of the invention

The technical problem to be solved in the present invention is do not possess reconstruct simulation capacity for building blocks in prior artDefect, a kind of building blocks and modular system are provided.

The technical solution adopted for the present invention to solve the technical problems is: according to an aspect of of the present present invention, provideA kind of toy building set, comprise the positive building blocks and the negative building blocks that are positive tetrahedron; Wherein,

Described positive building blocks are provided with first group of visual encoding; Described first group of visual encoding is included in described positive building blocksEach side on the first visual encoding of arranging; The described first visual volume of the side of positive building blocks described in eachCode is different with described first visual encoding of other side;

Described negative building blocks are provided with the second group visual encoding corresponding with described first group of visual encoding; Described secondGroup visual encoding is included in the second visual encoding arranging on each side of described negative building blocks; Negative described in eachDescribed second visual encoding of described second visual encoding of the side of building blocks and other side is different;

Wherein, described the first visual encoding and described the second visual encoding be used for generating represent described positive building blocks andThe genetic code of the accumulation sequence after described negative building blocks are deposited in together;

Each side of described positive building blocks is provided with the protrusion corresponding with described first visual encoding of this sidePattern, each side of described negative building blocks is provided with corresponding being recessed into of described the second visual encoding with this sidePattern; Described protrusion pattern is corresponding with the female pattern, with make described positive building blocks and described negative building blocks itBetween embed the female pattern by described protrusion pattern and be deposited in together.

In the toy building set according to the embodiment of the present invention, described first group of visual encoding and described second group canIdentical depending on coding.

In the toy building set according to the embodiment of the present invention, described the first visual encoding is viewable numbers or visualAlphabetical or visual binary code; Described the second visual encoding is the visual number corresponding with described the first visual encodingWord or visual letter or visual binary code.

In the toy building set according to the embodiment of the present invention, described the first visual encoding is color; Described secondVisual encoding is the color corresponding with described the first visual encoding.

In the toy building set according to the embodiment of the present invention, in one in described positive building blocks and described negative building blocksBe provided with permanent magnet, in another, be provided with magnetic conductor.

According to another aspect of the present invention, a kind of modular system is also provided, comprise multiple for positive tetrahedronPositive building blocks, multiple be the negative building blocks of positive tetrahedron and respectively with described multiple positive building blocks and described multiple bearingThe processor of building blocks electrical connection; Wherein,

Described positive building blocks are provided with first group of visual encoding; Described first group of visual encoding is included in described positive building blocksEach side on the first visual encoding of arranging; The described first visual volume of the side of positive building blocks described in eachCode is different with described first visual encoding of other side;

Described negative building blocks are provided with the second group visual encoding corresponding with described first group of visual encoding; Described secondGroup visual encoding is included in the second visual encoding arranging on each side of described negative building blocks; Negative described in eachDescribed second visual encoding of described second visual encoding of the side of building blocks and other side is different;

Wherein, described the first visual encoding and described the second visual encoding be used for generating represent described positive building blocks andThe genetic code of the accumulation sequence after described negative building blocks are deposited in together;

Each side of described positive building blocks is provided with the protrusion corresponding with described first visual encoding of this sidePattern, each side of described negative building blocks is provided with corresponding being recessed into of described the second visual encoding with this sidePattern; Described protrusion pattern is corresponding with the female pattern, with make described positive building blocks and described negative building blocks itBetween embed the female pattern by described protrusion pattern and be deposited in together;

No matter described positive building blocks or described negative building blocks, are equipped with at least two electrodes, to pile up on itIn journey, make to electrically contact between adjacent described positive building blocks and described negative building blocks;

In described positive building blocks and described negative building blocks, be respectively equipped with the electronic identity card being electrically connected with electrode separately;

Described processor be electrically connected with at least two electrodes of described positive building blocks and with described negative building blocks extremelyFew two electrodes electrical connection, to know described positive building blocks by the electronic identity card of surveying in described positive building blocksPosition in described accumulation sequence, and know institute by the electronic identity card of surveying in described negative building blocksState the position of negative building blocks in described accumulation sequence.

In the modular system according to the embodiment of the present invention, described first group of visual encoding and described second group canIdentical depending on coding.

In the modular system according to the embodiment of the present invention, described the first visual encoding is viewable numbers or visualAlphabetical or visual binary code; Described the second visual encoding is the visual number corresponding with described the first visual encodingWord or visual letter or visual binary code.

In the modular system according to the embodiment of the present invention, described the first visual encoding is color; Described secondVisual encoding is the color corresponding with described the first visual encoding.

In the modular system according to the embodiment of the present invention, in one in described positive building blocks and described negative building blocksBe provided with permanent magnet, in another, be provided with magnetic conductor.

The present invention produce beneficial effect be: by each side of building blocks, arrange characterize this side canDepending on coding, can adopt this visual encoding to generate expression building blocks and pile up the genetic code of sequence, close by heredityThe total number, total surface area, gross weight, banking process of the building blocks that code uses in building blocks can being piled up andThe construction profile digitlization of piling up. Like this, as long as know genetic code, i.e. available same order reproduction andThe banking process of reconstruct building blocks object and building blocks object, have matter emulation ability, has persistence and multipleThe ability of system. Further, can also send computer to carry out computer simulation using this genetic code as fileEmulation and processing, produce a large amount of new application.

Brief description of the drawings

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 shows positive building blocks that visual encoding is when numeral order or the stereogram of negative building blocks;

Fig. 2 shows positive building blocks in Fig. 1 or the planar development schematic diagram of negative building blocks;

Fig. 3 shows the banking process schematic diagram of positive building blocks and four negative building blocks;

Fig. 4 is the dodecahedral structural representation forming afterwards together with the positive building blocks in Fig. 3 are deposited in negative building blocksFigure;

Fig. 5 shows in the modular system according to the embodiment of the present invention that multiple building blocks are electrically connected with processorEquivalent circuit diagram.

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing and realityExecute example, the present invention is further elaborated. Only should be appreciated that specific embodiment described hereinIn order to explain the present invention, be not intended to limit the present invention.

Comprise the positive building blocks and the negative building blocks that are positive tetrahedron according to the toy building set of the embodiment of the present invention. ItsIn, positive building blocks are provided with first group of visual encoding; First group of visual encoding is included on each side of positive building blocksThe first visual encoding arranging; First of the first visual encoding of the side of each positive building blocks and other side canDifferent depending on coding. Negative building blocks are provided with and first group of second group of visual encoding that visual encoding is corresponding; Second group canBe included in the second visual encoding arranging on each side of negative building blocks depending on coding; The side of each negative building blocksThe second visual encoding of the second visual encoding and other side is different. Wherein, the first visual encoding and second canDepending on coding for generate represent positive building blocks be deposited in negative building blocks together with after the genetic code of accumulation sequence. JustEach side of building blocks is provided with the protrusion pattern corresponding with the first visual encoding of this side, bears the every of building blocksIndividual side is provided with the recessed pattern corresponding with the second visual encoding of this side; Protrude pattern and recessed patternCorrespondence, embeds together with recessed pattern is deposited in by protruding pattern making between positive building blocks and negative building blocks.

Preferably, positive building blocks and negative building blocks can adopt rigid material to make, and include but not limited to metal, timberAnd plastics. Certainly, can also select duroplasts to prepare positive building blocks and negative building blocks, or select flexible plasticPrepare positive building blocks and negative building blocks. But Comparatively speaking, the positive building blocks of the preparation of flexible plastic and the feel of negative building blocksBetter. In order to make splicing or feel the best of positive building blocks and negative building blocks, conventionally select duroplasts preparation just long-pendingWood, the negative building blocks of flexible plastic preparation.

Preferably, just in building blocks and negative building blocks, be provided with permanent magnet, in another, be provided with magnetic conductor,When positive building blocks touch with negative building blocks together with after, can closely be entrenched togather by magnetic force, make pile up formObject firm. Can adopt existing any applicable permanent-magnet material to make permanent magnet, and can adopt existingAny applicable permeability magnetic material make above-mentioned magnetic conductor.

The first visual encoding arranging on the side of positive building blocks is for distinguishing or identify each side of positive building blocks,Make each side of positive building blocks there is independently coding and characterize this side; Correspondingly, the side of negative building blocksThe second visual encoding of upper setting, for distinguishing or identify each side of negative building blocks, makes the each of negative building blocksSide has independently coding and characterizes this side. Said visual herein, referring to user can be from justOn the side of building blocks, observe this coding. This visual encoding can be viewable numbers, visual letter, visual twoAry codes or color etc. Those skilled in the art should know, and anyly can identify positive building blocksCharacter, pattern, color or its combination of side all can be used as visual encoding.

In addition, first group of visual encoding is corresponding with second group of visual encoding, refers to six in the first group codingIndividual the first visual encoding is corresponding one by one with six the second visual encodings in the second group coding. For example, first groupVisual encoding comprises that 1,2,3,4,5 and 6, the second groups of visual encodings of visual Arabic numerals wrap accordinglyDraw together visual word figure one, two, three, four, five and six; Or first group of visual encoding comprises capital letterFemale A, B, C, D, E and F, second group of visual encoding comprise accordingly lowercase a, b, c, d,E and f. Certainly, the corresponding relation between first group of visual encoding and second group of visual encoding can be as requiredArrange arbitrarily. Preferably, first group of visual encoding is identical with second group of visual encoding, i.e. positive building blocks and negative long-pendingWood can adopt identical visual encoding to identify each side. For simplified characterization, hereinafter first group visualEncode identical with second group of visual encoding, therefore can be by the first visual encoding and the second visual encoding referred to as canDepending on coding. But those skilled in the art should know, adopt this optimal way only to use for example, noIt is limitation of the present invention.

For example, Fig. 1 shows positive building blocks that visual encoding is when numeral order or the stereogram of negative building blocks, figure2 show positive building blocks in Fig. 1 or the planar development schematic diagram of negative building blocks. Wherein, when in Fig. 1 and 2 beingWhen positive building blocks, the pattern on building blocks is for protruding pattern; Otherwise when for negative building blocks, the pattern on building blocks isRecessed pattern. Can find out from Fig. 1 and Fig. 2, now, characterize long-pending by numeral 1,2,3,4 respectivelyEach side of wood. Certainly, visual encoding can be also binary code, for example, can use respectively binary code000,001,010,011 each side that characterizes positive building blocks; Or, also can with brown, red,Orange, yellow four kinds of colors characterize each side of positive building blocks, will not enumerate herein. As above instituteMention, the visual encoding set-up mode of negative building blocks is identical with positive building blocks, repeats no more herein.

For the positive building blocks of positive tetrahedron, have two pairs of sides, the every pair of side comprise two relativeSide. In an embodiment of the present invention, at least two relative sides of positive building blocks are provided with protrusion pattern,Be on a pair of side, to be respectively equipped with protrusion pattern, or be equipped with protrusion pattern on two pairs of sides of building blocks. ShouldProtruding pattern can be the combination of square, cross, circle and the various shapes of protrusion. Meanwhile,Different protrusion patterns is set, i.e. a kind of corresponding visual encoding of pattern that protrudes on each side.

Still as illustrated in fig. 1 and 2, these positive building blocks adopt continuous numeral as visual encoding. In addition, at thisThe side of positive building blocks is provided with protrusion pattern, and a kind of corresponding visual encoding of pattern that protrudes. For example, justThe visual encoding that leg-of-mutton protrusion pattern is corresponding is 1, the visual encoding corresponding to protrusion pattern of delBe 2, the visual encoding corresponding to protrusion pattern of Y-shaped is 3, circular visual volume corresponding to protrusion patternCode is 4. Preferably, protrude pattern and also can there is different gray scales or color, for identification and differentiation.

Correspondingly, the side of negative building blocks is provided with the protrusion pattern of positive building blocks and is recessed into one to one pattern." corresponding one by one " described herein represents the following aspects: the one, and pattern form is corresponding one by one, for example,If protrusion pattern is Y-shaped, recessed pattern is also Y-shaped, and this protrusion pattern can be luckyEmbed corresponding recessed pattern; The 2nd, the position arranging is corresponding one by one, i.e. recessed visual encoding corresponding to patternThe visual encoding corresponding with protruding pattern is identical, for example, and the visual encoding corresponding to protrusion pattern of equilateral triangleBe 1, the visual encoding corresponding to recessed pattern of corresponding equilateral triangle is also 1.

In banking process together with the positive building blocks according to the embodiment of the present invention are deposited in negative building blocks, be no longerSolely reflect the accumulation mode of positive building blocks and negative building blocks from figure, also can adopt comprise numeral, letter and/ or color represent the accumulation sequence of positive building blocks and negative building blocks in interior character string. Because positive building blocks and negative long-pendingNo matter on each side of wood, be equipped with visual encoding, now, be positive building blocks or negative building blocks, its each sideFace is no longer equal to, when multiple positive building blocks are deposited in together by chimeric contact the in side with multiple negative building blocksAfter, the sequence of arranging of the visual encoding arranging on side can reflect the heap of the plurality of positive building blocks and multiple negative building blocksLong-pending sequence, because the sequence of arranging of the visual encoding in piling up is well-determined, therefore defines this visual volumeThe sequence of arranging of code be represent multiple positive building blocks be deposited in negative building blocks together with after the heredity of accumulation sequence closeCode. In the present invention, adjacent positive building blocks and negative building blocks are deposited in by protruding the recessed pattern of pattern embeddingTogether, and corresponding protrusion pattern and recessed pattern have identical visual encoding, in therefore piling up, are to haveChimeric being bolted together in side of identical visual encoding.

Fig. 3 shows the banking process schematic diagram of positive building blocks and four negative building blocks, and wherein arrow represents heapLong-pending direction. As shown in Figure 3, No. 1 face (side that visual encoding is 1) of positive building blocks 311 and negative building blocks321 No. 1 face (side that visual encoding is 1) is assembled; Then No. 2 faces of positive building blocks 311 are (visualBe encoded to 2 side) assembled with No. 2 faces (side that visual encoding is 2) of negative building blocks 322 again. WithThis analogizes, progressively by No. 3 of positive building blocks 311 and No. 4 faces respectively with No. 3 faces and negative of negative building blocks 323No. 4 splicings of building blocks 324, thus above-mentioned positive building blocks and four negative building blocks are spliced into one 12Body. Fig. 4 is the dodecahedral structural representation forming afterwards together with the positive building blocks in Fig. 3 are deposited in negative building blocksFigure, by the connecting method in Fig. 3, the dodecahedral genetic code after this accumulation is 1234.

The genetic code that represents accumulation sequence is well-determined, on the one hand, and when adopting the mode in Fig. 3 to pileWhen long-pending positive building blocks and four negative building blocks, or pile up negative building blocks and four positive building blocks, by visualThe genetic code that coding generates can only be 1234. On the other hand, when the mode that is 1234 according to genetic codeWhile piling up building blocks, can only be the accumulation mode shown in Fig. 3, and be deposited in positive building blocks and negative building blocks togetherAlso can only be the dodecahedron in Fig. 4. As can be seen from the above, no matter be positive building blocks and four negative amassing,Or negative building blocks and four positive building blocks, according to the accumulation mode of genetic code 1234, all obtain 12Face body, for to show difference, is called negative ten by positive building blocks and four negative long-pending dodecahedrons that form of piling upDihedron, is called regular dodecahedron by the dodecahedron of negative building blocks and four positive building blocks accumulation formation.

Above-mentioned dodecahedron is to pile up according to the toy building set of the embodiment of the present invention one basis knot formingStructure, on this basis, if negative dodecahedral 12 faces that above-mentioned accumulation is obtained are again with corresponding 12The positive building-block-splicing of piece, can pile up and form 30 hexahedrons (number of sides is 12 × 3=36). According to aboveDefinition mode, now, piling up 30 hexahedrons that form is positive 30 hexahedrons. In this accumulation mode,Originally negative dodecahedral each all splicing have corresponding positive building blocks, therefore, can be by this each faceThere is assembled method, be called full rank assembled. Correspondingly, can adopt mathematic(al) representation to carry out full rank assembled acquisitionObject:

S＝4×3ⁿ；(1)

Wherein, n=0,1,2,3,4 ..., the object of the assembled acquisition of full rank is positive S face body. For example,N is 0 o'clock, and S=4 adopts positive building blocks or negative building blocks to pile up, and the object of acquisition stillFor positive tetrahedron; In the time that n is 1, S=12, the full rank in Fig. 3 and 4 is assembled, and the object of acquisition isRegular dodecahedron; In the time that n is 2, S=36, above-mentioned negative dodecahedral 12 faces are again with accordinglyThe full rank of 12 blocks of positive building blocks is assembled, and the object of acquisition is 30 hexahedrons; By that analogy, can be according to needPile up acquisition positive S face body arbitrarily. The phenomenon such as crystallization, cell division of this process and natural forms is non-Often similar, therefore can adopt according to the toy building set of the embodiment of the present invention and carry out scientific research and emulation.

As can be seen from the above, characterize this side by arranging on each side at positive building blocks and negative building blocksVisual encoding, can adopt this visual encoding to generate to represent positive building blocks be deposited in negative building blocks together with after accumulationThe genetic code of sequence, can be by the positive building blocks that use in piling up and the sum of negative building blocks by genetic codeThe construction profile digitlization that order, total surface area, gross weight, banking process and accumulation form. Like this, onlyKnow genetic code, i.e. banking process and the building blocks thing of available same order reproduction and reconstruct building blocks objectBody, has matter emulation ability, the ability that has persistence and copy. Further, can also will be somebody's turn to doGenetic code send computer to carry out computer simulation emulation and processing as file, produces a large amount of new application.

In the time that the building blocks quantity of piling up is very large, the difficulty of labor management building blocks banking process increases, thus,Can pile up by adopting modular system to realize electronic management building blocks. According to the building blocks system of the embodiment of the present inventionTurnkey is drawn together multiple positive building blocks for positive tetrahedron, multiple for the negative building blocks of positive tetrahedron with respectively with multiple just long-pendingThe processor of wooden and multiple negative building blocks electrical connections.

Wherein, positive building blocks are identical with negative building blocks contour structures with positive building blocks described above respectively with negative building blocks,Therefore, partly or entirely quote the above description about positive building blocks and negative building blocks herein. Particularly, just long-pendingWood is provided with first group of visual encoding; First group of visual encoding be included on each side of positive building blocks, arrangeOne visual encoding; The first visual encoding phase of the first visual encoding of the side of each positive building blocks and other sideDifferent. Negative building blocks are provided with and first group of second group of visual encoding that visual encoding is corresponding; Second group of visual encoding bagDraw together the second visual encoding arranging on each side of negative building blocks; The side of each negative building blocks second visualCoding is different with the second visual encoding of other side. Wherein, the first visual encoding and the second visual encoding are usedIn generate represent positive building blocks be deposited in negative building blocks together with after the genetic code of accumulation sequence. Just building blocks is everyIndividual side is provided with the protrusion pattern corresponding with the first visual encoding of this side, on each side of negative building blocksBe provided with the recessed pattern corresponding with the second visual encoding of this side; Protrude pattern corresponding with recessed pattern, withMake between positive building blocks and negative building blocks to embed together with recessed pattern is deposited in by protruding pattern. No matter just long-pendingWood or negative building blocks, be equipped with at least two electrodes on it, can in banking process, make adjacent positive building blocksAnd electrically contact between negative building blocks, or by lead-in wire, positive building blocks or negative building blocks and processor are directly electrically connectedConnect.

In addition, in positive building blocks, be provided with the electronic identity card being electrically connected with its electrode, in this electronic identity cardStore the ID ID that represents the unique identity information of these positive building blocks; In negative building blocks, be provided with its electrode and be electrically connectedThe electronic identity card connecing, stores the ID body that represents the unique identity information of these negative building blocks in this electronic identity cardPart number.

Processor is electrically connected with at least two electrodes of positive building blocks, and this processor also with negative building blocks at leastTwo electrode electrical connections, can know that positive building blocks are in accumulation by the electronic identity card of surveying in positive building blocks like thisPosition in sequence, and know that by the electronic identity card of surveying in negative building blocks negative building blocks are in accumulation sequenceIn position.

Particularly, in modular system, after building blocks have been piled up, any one positive building blocks wherein orNegative building blocks (below positive building blocks and negative building blocks being referred to as to building blocks) can directly be electrically connected with processor by electrode,Or by electrically contacting and be electrically connected with processor with adjacent building blocks, like this, multiple building blocks and processor structureBecome to comprise the network of multiple nodes, and each building blocks are positioned on one of them node, processor directly orConnect with the building blocks on node and be electrically connected. Said processor is electrically connected with building blocks herein, more specifically says placeReason device is electrically connected with the electronic identity card in building blocks.

Fig. 5 shows the equivalent circuit diagram that multiple building blocks are electrically connected with processor, as shown in Figure 5, works as building blocksAfter 1～k (k is natural number) is electrically connected with processor, the electronic identity card in building blocks is also electrically connected with processorConnect. Like this, in the time that processor sends the signal of telecommunication of calling out building blocks, if electronic identity card and the processing of building blocksDevice electrical connection, can feed back an answer signal, makes processor know these building blocks and be connected to accumulationIn building blocks, and can know the node location at this building blocks place. If processor is not received feedback signal,Think that these building blocks are not in the building blocks of piling up. By electron assistant, this modular system is for management quantityHuge building blocks are very effective.

Should be understood that, for those of ordinary skills, can be improved according to the above descriptionOr conversion, and all these improvement and conversion all should belong to the protection domain of claims of the present invention.

Claims (10)

1. a toy building set, is characterized in that, comprises the positive building blocks and negative the amassing that are positive tetrahedronWood; Wherein,

Described positive building blocks are provided with first group of visual encoding; Described first group of visual encoding is included in instituteState the first visual encoding arranging on each side of positive building blocks; Positive building blocks described in eachDescribed first visual encoding of described first visual encoding of side and other side is different;

Described negative building blocks are provided with the second group visual encoding corresponding with described first group of visual encoding;Described second group of visual encoding be included on each side of described negative building blocks, arrange secondVisual encoding; Described the second visual encoding and other side of the side of negative building blocks described in eachDescribed second visual encoding of face is different;

Wherein, described the first visual encoding and described the second visual encoding are used for generating described in expressionThe genetic code of the accumulation sequence after together with positive building blocks are deposited in described negative building blocks;

Each side of described positive building blocks is provided with corresponding with described first visual encoding of this sideProtrusion pattern, each side of described negative building blocks is provided with and described second of this sideThe recessed pattern that visual encoding is corresponding; Described protrusion pattern is corresponding with the female pattern,To make between described positive building blocks and described negative building blocks by described in described protrusion pattern embeddingBe recessed into pattern and be deposited in together.

2. toy building set according to claim 1, is characterized in that, described first group of visual volumeCode is identical with described second group of visual encoding.

3. toy building set according to claim 1, is characterized in that, described the first visual encodingFor viewable numbers or visual letter or visual binary code; Described the second visual encoding be withThe viewable numbers that described the first visual encoding is corresponding or visual letter or visual binary code.

4. toy building set according to claim 1, is characterized in that, described the first visual encodingFor color; Described the second visual encoding is the color corresponding with described the first visual encoding.

5. toy building set according to claim 1, is characterized in that, described positive building blocks and described inIn one in negative building blocks, be provided with permanent magnet, in another, be provided with magnetic conductor.

6. a modular system, is characterized in that, comprises multiple positive building blocks for positive tetrahedron, manyIndividual be the negative building blocks of positive tetrahedron and respectively with described multiple positive building blocks and described multipleThe processor of negative building blocks electrical connection; Wherein,

Described positive building blocks are provided with first group of visual encoding; Described first group of visual encoding is included in instituteState the first visual encoding arranging on each side of positive building blocks; Positive building blocks described in eachDescribed first visual encoding of described first visual encoding of side and other side is different;

Described negative building blocks are provided with the second group visual encoding corresponding with described first group of visual encoding;Described second group of visual encoding be included on each side of described negative building blocks, arrange secondVisual encoding; Described the second visual encoding and other side of the side of negative building blocks described in eachDescribed second visual encoding of face is different;

Wherein, described the first visual encoding and described the second visual encoding are used for generating described in expressionThe genetic code of the accumulation sequence after together with positive building blocks are deposited in described negative building blocks;

Each side of described positive building blocks is provided with corresponding with described first visual encoding of this sideProtrusion pattern, each side of described negative building blocks is provided with and described second of this sideThe recessed pattern that visual encoding is corresponding; Described protrusion pattern is corresponding with the female pattern,To make between described positive building blocks and described negative building blocks by described in described protrusion pattern embeddingBe recessed into pattern and be deposited in together;

No matter described positive building blocks or described negative building blocks, are equipped with at least two electrodes on it, withIn banking process, make to electrically contact between adjacent described positive building blocks and described negative building blocks;

In described positive building blocks and described negative building blocks, be respectively equipped with the electronics being electrically connected with electrode separatelyID card;

Described processor is electrically connected with at least two electrodes of described positive building blocks and amasss with described bearingAt least two electrode electrical connections of wood, to pass through to survey the electronic identity in described positive building blocksCard is known the position of described positive building blocks in described accumulation sequence, and by surveying instituteState electronic identity card in negative building blocks and know that described negative building blocks are in described accumulation sequencePosition.

7. modular system according to claim 6, is characterized in that, described first group of visual volumeCode is identical with described second group of visual encoding.

8. modular system according to claim 6, is characterized in that, described the first visual encodingFor viewable numbers or visual letter or visual binary code; Described the second visual encoding be withThe viewable numbers that described the first visual encoding is corresponding or visual letter or visual binary code.

9. modular system according to claim 6, is characterized in that, described the first visual encodingFor color; Described the second visual encoding is the color corresponding with described the first visual encoding.

10. modular system according to claim 6, is characterized in that, described positive building blocks and described inIn one in negative building blocks, be provided with permanent magnet, in another, be provided with magnetic conductor.