CN115337654A

CN115337654A - Method and system for defining pairing of building blocks with pairable pieces

Info

Publication number: CN115337654A
Application number: CN202211053599.6A
Authority: CN
Inventors: 赵家亮; 高超; 刘晨璐; 江一鸣
Original assignee: Shanghai Brocade Education Technology Co ltd; Shanghai Brooke Building Block Technology Co ltd
Current assignee: Shanghai Brocade Education Technology Co ltd; Shanghai Brooke Building Block Technology Co ltd
Priority date: 2022-08-31
Filing date: 2022-08-31
Publication date: 2022-11-15

Abstract

The invention provides a method and a system for defining pairing of building blocks of a pairing part, wherein the method comprises the following steps: acquiring a physical position sequence relation among a plurality of matched joints on the floor block; wherein, the physical position sequence relation is a relation of sequential arrangement; acquiring the type of the building blocks which can be paired and are constructed by the paired connectors; and aiming at the building blocks with the same type of the pairable pieces, defining identification information of the building blocks with the pairable pieces according to the physical position sequence relation. According to the invention, through the observable physical position sequence relation between the pairing joints, the definition of the names of the pairable building blocks by a user and a building block system is unified, so that the pairable building blocks with the same appearance can be distinguished, and the name of the pairable building block can be established by the user.

Description

Method and system for defining pairing of building blocks with pairable pieces

Technical Field

The invention relates to the field of building block toys, in particular to a method and a system for defining pairing of building blocks of a mateable part.

Background

Patent document CN111817394B provides a networking pairing structure between mateable pieces. Patent document CN111935696B provides a networking pairing method between mateable pieces.

Along with the enlargement of the scene scale of the building block toy, a plurality of pairable building blocks of the same type are used in the same scene, for example, three gates are arranged in the scene, and the pairable building blocks (called motor building blocks for short) of three motor types are required to be respectively placed at the three gates so as to control the handrail connected to the motor output shaft in the pairable building blocks of the motor types to rise or fall.

Therefore, a user and the building block system need to distinguish the three motor building blocks, so that the command can be definitely sent to the corresponding motor building block to execute the action of opening and closing the gate.

However, the distinction of three motor bricks by the user and the brick system is not uniform with a high probability. For example, the entities of the three motor building blocks are respectively marked as motor building block a, motor building block B and motor building block C. For the user, the user arranges the three motor bricks in the order from left to right, and defines the motor bricks as No. 1, no. 2 and No. 3 in the heart respectively. For the building block system, the serial numbers of the three motor building blocks can be respectively defined by a random algorithm or the sequence of network access time, and the serial numbers are defined as a serial number 1 motor, a serial number 2 motor and a serial number 3 motor. Wherein only less probability, three motor building blocks are also defined in the building block system from left to right in sequence, and under the condition of more probabilities, the No. 1 motor defined by the building block system is actually the No. 2 motor defined in the heart of the user. This results in the user wanting to send a command to motor block a (motor number 1 as defined in the user's mind) to motor block B (motor number 1 as defined in the block system).

Then, in the prior art, even if the user can be aware of the problem, the user cannot intervene in the definition algorithm of the building block system, and cannot actively protect the building block system from being consistent with the building block system. For example, a user cannot know the definition result of the random algorithm from left to right or predict the definition result of the random algorithm, and for example, although the user knows that the building block system defines the serial numbers of the motor building blocks in turn in the network access sequence, the user cannot see and perceive the actual network access sequence because the network access involves processing in the circuit.

Therefore, how to make the definition of the building blocks by the user consistent with the definition of the building blocks by the building block system is a technical problem to be solved.

Disclosure of Invention

In view of the shortcomings in the prior art, the invention aims to provide a method and a system for defining the pairing of building blocks of the mateable parts.

The invention provides a method for defining the pairing of building blocks of a pair-able piece, which comprises the following steps:

acquiring a physical position sequence relation: acquiring a physical position sequence relation among a plurality of matched joints on the floor block; wherein the physical position sequence relation is a relation of sequential arrangement;

acquiring a mateable piece type relation: acquiring the type of the building blocks which can be paired and are constructed by the paired connectors;

same type mateable definition step: and aiming at the building blocks with the same type of the pairable pieces, defining identification information of the building blocks with the pairable pieces according to the physical position sequence relation.

Preferably, the physical position sequence relation obtaining step includes:

a physical connection sequence relation obtaining step: acquiring a physical connection sequence relation between the bottom plate building blocks and the host machine building blocks; acquiring a physical connection sequence relation among the bottom plate building blocks;

determining a physical position sequence relation: determining a physical position sequence relation between the paired joints according to the physical connection sequence relation; wherein, the direction along which the physical position sequence relation is along and the direction along which the physical connection sequence relation is along are the same arrangement direction.

Preferably, the same-type mateable pieces defining step includes:

a position precedence relationship obtaining step: determining the position precedence relationship among the pairable building blocks of the same type according to the physical position sequence relationship;

identification information definition step: and according to the position precedence relationship, defining the identification information of the building blocks with the same type of the pairable parts as sequence numbers.

Preferably, the method further comprises the following steps:

a time sequence relation obtaining step: acquiring the sequence of the set-up time periods among a plurality of matched joints on the bottom plate building block; wherein the time period is divided according to instructions from a user or instructions from a host building block;

in the step of defining the same type of the mateable pieces, the same type of the mateable piece building blocks are sorted by taking the sequence of the time periods as priority, and then the mateable piece building blocks are defined with identification information according to the physical position sequence relation in each time period.

According to the invention, the definition system for the pairing of the building blocks of the pairable parts comprises:

a physical location order relationship acquisition module: acquiring a physical position sequence relation among a plurality of matched joints on the floor block; wherein the physical position sequence relation is a relation of sequential arrangement;

a mateable piece type relationship acquisition module: acquiring the type of a building block which can be matched and is constructed with the matched connector;

same type mateable definition module: and aiming at the building blocks with the same type of the pairable pieces, defining identification information of the building blocks with the pairable pieces according to the physical position sequence relation.

Preferably, the physical position order relationship obtaining module includes:

a physical connection order relation acquisition module: acquiring a physical connection sequence relation between the bottom plate building blocks and the host machine building blocks; acquiring a physical connection sequence relation between the bottom plate building blocks;

a physical location order relationship determination module: determining a physical position sequence relation between the paired joints according to the physical connection sequence relation; wherein, the direction along which the physical position sequence relation is along and the direction along which the physical connection sequence relation is along are the same arrangement direction.

Preferably, the same type of mateable defines a module comprising:

a position precedence relationship acquisition module: determining the position sequence relation among the building blocks with the same type of the pairable parts according to the physical position sequence relation;

an identification information definition module: and according to the position precedence relationship, defining the identification information of the building blocks with the same type of the pairable parts as sequence numbers.

Preferably, the method further comprises the following steps:

a chronological relationship acquisition module: acquiring the sequence of the set-up time periods among a plurality of matched joints on the bottom plate building block; wherein the time period is divided according to instructions from a user or instructions from a host building block;

in the same type of mateable piece defining module, for same type of mateable piece building blocks, the time periods are sorted by taking the sequence of the time periods as priority, and then in each time period, identification information is defined for the mateable piece building blocks according to the physical position sequence relation.

Preferably, the physical position sequence relation among a plurality of matched joints on the bottom plate building block is acquired by taking the detected matched starting instruction from a user as a trigger, or taking the detected matched starting instruction of the host as a trigger, or taking the matched part building block to complete matching as a trigger;

but carry out the definition of identification information to pairing piece building blocks and accomplish and then indicate to the user.

Preferably, the physical connection order relationship has a directionality, wherein the directionality is defined by a type of an electrical connection setup interface between the backplane bricks, and/or the directionality is defined by a type of an electrical connection setup interface between the backplane bricks and the host bricks.

Preferably, the physical connection order relationship is a sequential arrangement relationship; the directionality of the sequential arrangement relation is the relation of sequential arrangement from the host building blocks.

Preferably, the host building block is a hunting toy car, and the host building block triggers the mateable building block corresponding to the identification information according to the identification information read during hunting to execute the instruction information read during hunting of the host building block.

Preferably, the mateable pieces of the same type are identical in appearance or interact in the same manner with the user.

According to the present invention, there is provided a computer-readable storage medium storing a computer program which, when executed by a processor, performs the steps of the method for defining a pair of mateable pieces.

The building block system provided by the invention comprises a bottom plate building block, a pair of building blocks and a host machine building block;

adopting a definition method of the pairing of the building blocks of the pairable pieces;

or the host building block comprises a definition system in the pairing of the building blocks of the pairable pieces;

alternatively, the host block comprises said computer readable storage medium having a computer program stored thereon.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the observable physical position sequence relation between the pairing joints, the definition of the names of the pairable building blocks by a user and a building block system is unified, so that the pairable building blocks with the same appearance can be distinguished, and the name of the pairable building block can be established by the user.

2. The invention allows a user to act on a building block of the mateable piece, and indicates the category of the building block of the mateable piece to be brought into the networking pairing, and also indicates how the building block of the mateable piece is defined.

3. The invention allows a user to complete the definition in a plurality of time periods for the case where all the mating connector positions of the floor bricks are less than the number of mateable pieces.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic diagram of the sequential arrangement of the present invention.

FIG. 2 is a schematic view of the directions along which the films are sequentially arranged according to the present invention.

FIG. 3 is a schematic diagram of the process steps in the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

According to the invention, the method for defining the pairing of the building blocks of the pairable part comprises the following steps:

acquiring a physical position sequence relation: acquiring a physical position sequence relation among a plurality of matched joints on the bottom plate building block; the physical position sequence relation is a relation relative to a host computer building block physically connected with the bottom plate building block, and more specifically the physical position sequence relation is a relation relative to sequential arrangement of the host computer building blocks physically connected with the bottom plate building block; specifically, the bottom plate building block is a male-female head building block, a mating connector is arranged on the bottom plate building block, and the mating connector is connected with a mateable piece building block in a plugging manner, wherein the bottom plate building block and the mateable piece building block are structurally built in a male-female head manner, and are electrically connected and coupled through the mating connector on an electrical circuit; the distribution on the bottom plate building blocks of the mating connectors has a physical position sequence, for example, the bottom plate building blocks are elongated, and the position distribution of the mating connectors is distributed in sequence along the length direction of the bottom plate building blocks to form a visually series-connected relationship, i.e., a sequentially-arranged relationship, specifically, a sequentially-arranged physical position sequence relationship along a direction, which can be vividly expressed as a series connection. The bottom plate building blocks are connected in sequence through connecting wires, or the bottom plate building blocks are directly connected in sequence through communication interfaces, and physical position sequence relations which are sequentially arranged along one direction are also formed, namely series connection. Wherein, the direction preferably refers to the structural expansion direction. The starting point of establishing ties, or the starting point of arranging in proper order, be the host computer building blocks, as shown in fig. 1, a host computer building blocks is at first connected first bottom plate building blocks DB 1's left end, bottom plate building blocks DB 1's right-hand member passes through the left end of connecting wire connection second bottom plate building blocks DB2, and thus, the host computer, bottom plate building blocks DB1, bottom plate building blocks DB2 has just formed the relation of arranging in proper order physically, and the relation of arranging in proper order from the physics that the host computer building blocks began, consider in the direction of following of arranging in proper order, the bottom plate building blocks that are closer to the host computer building blocks are arranged in the front of the bottom plate building blocks far away from the host computer building blocks. For example, each of the floor bricks DB1 and DB2 has four mating connectors a, B, C, and D, and the serial numbers are defined from W1 according to the sequential arrangement, and then W2 to W8 are obtained by recording the first serial number as W1 with the mating connector closest to the host brick in the arrangement direction, that is, the mating connector a of the floor brick DB 1. The host machine building blocks and the bottom plate building blocks can be connected through connecting wires, and can also be connected with the male and female heads through interfaces in a structural and electrical direct building mode. In more embodiments, more floor bricks can be arranged in sequence. Certainly, the bottom plate blocks are not necessarily arranged in sequence in the linear direction, and may also be arranged in sequence in a curve, for example, as shown in fig. 2, one main machine block and five bottom plate blocks (and more bottom plate blocks) are arranged in sequence in the zigzag direction. The direction along which the mating connectors are sequentially arranged is also the direction along which the bottom plate building blocks are sequentially arranged. The floor bricks are, for example, charging modules.

Acquiring a mateable piece type relationship: acquiring the type of the building blocks which can be paired and are constructed by the paired connectors; the types of building blocks that can be paired can be distinguished by reference to patent document CN111817394B as a wireless controller type, a lamp module type, a recording module type, and a motor module type. But store the information of self type in the memory of mating member building blocks, the host computer building blocks judge the type that belongs to through reading the information of self type of mating member building blocks.

Same type mateable definition step: and aiming at the building blocks with the same type of the pairable pieces, defining identification information of the building blocks with the pairable pieces according to the physical position sequence relation. In order to distinguish mateable blocks, the block system needs to define identification information of the mateable blocks, where the identification information is used to indicate a uniquely corresponding mateable block, and for example, the identification information may be a serial number. More specifically, on one hand, the user can know the physical position sequence relation through observation, that is, the physical position sequence relation can be observed by the user; on the other hand, the building block system may also detect the physical position sequential relationship, for example, in the sequentially arranged direction, information of a bottom plate building block arranged behind is transmitted to the host computer building block through a bottom plate building block arranged in front, in the transmission process, the bottom plate building block performing transmission writes its bottom plate identifier into the transmitted information, and specifically may write into a queue, and the host computer building block may detect, after receiving the queue, from which bottom plate building block the information is sent and which bottom plate building blocks have passed through, so that the sequentially arranged relationship between the bottom plate building blocks may be known, and further, for the mating connector, the queue may be added to a field of the mating connector, so that after receiving field information indicating the mating connector, the host computer building block may detect which bottom plate building block the mating connector is located in the queue. More specifically, for the same type of mateable piece blocks, identification information such as the name of the mateable piece block may be defined by using a natural number from 1 as a sequence number. In this way, the user's definition rules can be kept consistent with the building block system definition rules.

The present invention will be described in more detail below.

The physical position sequence relation obtaining step comprises the following steps:

acquiring a physical connection sequence relation: acquiring a physical connection sequence relation between a bottom plate building block and a host machine building block; acquiring a physical connection sequence relation among the bottom plate building blocks; specifically, in the physical connection sequence relation between the bottom plate blocks and the host computer blocks, the bottom plate blocks connected adjacent to the host computer blocks are detected, and the queue in the information sent to the host computer blocks by the bottom plate blocks only contains identification information of the bottom plate blocks, so that which bottom plate block is connected adjacent to the host computer blocks can be known, and information is not transmitted through other bottom plate blocks. The bottom plate building blocks and the bottom plate building blocks can also acquire the physical connection sequence relation between the bottom plate building blocks by modifying the queue when information is transmitted. Therefore, the physical connection sequence relation between the host computer building blocks and the bottom plate building blocks can be obtained through the queue, and the connection sequence relation arranged in sequence between the host computer building blocks and the bottom plate building blocks is obtained.

Determining a physical position sequence relation: and determining the physical position sequence relation between the matched joints according to the physical connection sequence relation. Based on the obtained relation of the connection order of arranging in proper order between the host building block and each bottom plate building block, the physical position order relation between all the mating connectors of a plurality of spanning bottom plate building blocks can be obtained by combining the physical position order relation before a plurality of mating connectors of the same bottom plate building block, for example, as shown in fig. 1, although the physical position order of the mating connector a on each bottom plate building block is one, because the bottom plate building block DB1 is positioned in front of the bottom plate building block DB2, the mating connectors of the bottom plate building block DB1 are firstly defined in sequence, sequence numbers W1 to W4 are obtained by definition, and then the mating connectors of the bottom plate building block DB2 are defined in sequence, and sequence numbers W5 to W8 are obtained by definition. In a variation, it may be changed to define sequentially from the mating connector D of the bottom plate block DB2 to the front, as long as the rules such as the sequentially arranged sequence direction and the like observed by the user are consistent with the rules such as the sequentially ordered sequence direction and the like preset by the block system.

Wherein, the same type of the pairable component defining step includes: a position precedence relationship obtaining step: determining the position precedence relationship among the pairable building blocks of the same type according to the physical position sequence relationship; identification information definition step: and according to the position precedence relationship, defining the identification information of the building blocks with the same type of the pairable parts as sequence numbers. Further, as shown in fig. 1, assuming that mateable pieces bricks of motor types are built on mating connectors at W2, W5, and W8 in the physical position sequential relationship, names of three motor bricks are defined as motor No. 1, motor No. 2, and motor No. 3 in sequence according to the magnitude sequence of the physical position sequential relationship. The same motor No. 1, motor No. 2 and motor No. 3 can be obtained by the user according to the same observable physical position sequence. When the user will put the pairing piece building blocks to, for example, a map scene, the user can detach and put No. 1 motor in turn, then detach and put No. 2 motor, and detach and put No. 3 motor at last.

In a preferred embodiment, the method for defining the pairable component building blocks further includes: a time sequence relation obtaining step: acquiring the sequence of the set-up time periods among a plurality of matched connectors on the bottom plate building block; wherein the time period is divided according to instructions from a user or instructions from a host building block; correspondingly, in the same type of mateable piece defining step, for the same type of mateable piece building blocks, the sequence of the time periods is used as priority to sort the time periods, and then in each time period, identification information is defined for the mateable piece building blocks according to the physical position sequence relation. Taking fig. 1 as an example, the mating connector has only eight positions, whereas the mateable building block assumes sixteen, which cannot be built at the same time to eight positions. Therefore, a user or the host building block can divide two time periods, in the first time period, a first set of eight mateable piece building blocks are built at eight positions, and the host building block defines the first set of eight mateable piece building blocks to obtain names with serial numbers of 1-8; in a second time period, the first eight mateable pieces of building blocks are disassembled, then a second eight mateable pieces of building blocks are built, and the host building block obtains serial numbers 9 to 16 for the second eight mateable pieces of building blocks after the serial numbers of the first eight mateable pieces of building blocks. The user may indicate the time period by toggling a switch on the floor block, for example, the switch may have three steps, and each step corresponds to a time period. Or the time periods are divided by the host building block, and the host building block can inform the user of the current time period through a display screen or light colors or voice.

The present invention will be described more specifically below with reference to more preferred embodiments.

Acquiring the physical position sequence relation between a plurality of matched joints on the bottom plate building block by using a matched starting instruction detected from a user as a trigger, or using a matched starting instruction detected from a host as a trigger, or using a matched part building block to complete matching as a trigger; and prompting a user after the definition of the identification information of the building blocks capable of being paired is completed. For example, the user activates the acquisition of the physical positional sequence relationship by toggling a switch or giving a voice command. For another example, after the counterpart blocks are paired, the block system automatically starts to acquire the physical position relationship. When the user receives the prompt of finishing the definition, the matched and defined building blocks of the matched parts can be detached for placing the scene.

The physical connection order relationship has a directionality, wherein the directionality is defined by the type of the electrical connection building interface between the floor bricks, and/or the directionality is defined by the type of the electrical connection building interface between the floor bricks and the host bricks. Wherein, the bottom plate building blocks have two interfaces of being connected with adjacent bottom plate building blocks, and these two interfaces can set up in advance to the interface of different names to distinguish A end, B end on the building blocks object of bottom plate building blocks, host computer building blocks are according to predetermined rule, to a bottom plate building blocks, will follow A end to B end as the direction of arranging in proper order, also arrange in proper order according to the direction from A end to B end between the mating connector on corresponding this bottom plate building blocks. When a user connects the bottom plate building blocks, the B end of the previous bottom plate building block is connected with the A end of the next bottom plate building block. In a further preferred embodiment, the building interface of a floor block may be defined by a host block, for example, the host block defines the port of an adjacent floor block connected to it as a terminal a, then another port of the floor block is automatically set as terminal B, and the port of the rear floor block connected to the floor block is set as terminal a, so that each floor block has terminals a and B, and thus the physical position order relationship between the mating connectors on each other floor block is set. The physical connection sequence relation is a sequential arrangement relation; the directionality of the sequential arrangement relationship is a relationship of sequential arrangement from the host building blocks.

In one application, the host building block is a hunting toy vehicle, which may refer to patent document CN111625003B, and the host building block triggers, according to identification information read during hunting, instruction information read during execution of the hunting of the host building block by a mate building block corresponding to the identification information. The identification information can be serial numbers such as 1, 2 and 3, and the rotation in the corresponding direction of the output shaft of the motor type pairable component building block corresponding to the trigger serial number can be obtained by combining the command information of forward rotation and reverse rotation. Wherein, the same shape between the same type of the mateable pieces or the same interaction mode with the user, for example, all are luminous interaction mode, or all are sounding interaction mode, or all are action interaction mode.

The invention further provides a system for defining the pairable-element building block pairing, and a person skilled in the art can implement the system for defining the pairable-element building block pairing by executing the step flow of the method for defining the pairable-element building block pairing, that is, the method for defining the pairable-element building block pairing can be understood as a preferred embodiment of the system for defining the pairable-element building block pairing.

a physical location order relationship acquisition module: acquiring a physical position sequence relation among a plurality of matched joints on the bottom plate building block; wherein, the physical position sequence relation is a relation of sequential arrangement;

a mateable piece type relationship obtaining module: acquiring the type of a building block which can be matched and is constructed with the matched connector;

the same type of mateable defines the module: aiming at the building blocks with the same type of the pairable pieces, defining identification information of the building blocks with the pairable pieces according to the physical position sequence relation;

a time sequence relation acquisition module: acquiring the sequence of the set-up time periods among a plurality of matched joints on the bottom plate building block; the time period is divided according to instructions from a user or instructions from a host building block;

The physical position sequential relationship obtaining module includes:

a physical connection order relation obtaining module: acquiring a physical connection sequence relation between the bottom plate building blocks and the host machine building blocks; acquiring a physical connection sequence relation among the bottom plate building blocks;

The same-type mateable piece definition module comprising:

a position precedence relationship acquisition module: determining the position precedence relationship among the pairable building blocks of the same type according to the physical position sequence relationship;

Those skilled in the art will appreciate that, in addition to implementing the systems, apparatus, and various modules thereof provided by the present invention in purely computer readable program code, the same procedures can be implemented entirely by logically programming method steps such that the systems, apparatus, and various modules thereof are provided in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Therefore, the system, the device and the modules thereof provided by the present invention can be considered as a hardware component, and the modules included in the system, the device and the modules thereof for implementing various programs can also be considered as structures in the hardware component; modules for performing various functions may also be considered to be both software programs for performing the methods and structures within hardware components.

The invention also provides a computer-readable storage medium storing a computer program which, when executed by a processor, performs the steps of the method for defining a pair of mateable pieces.

The invention also provides a building block system, which comprises the bottom plate building blocks, the pairable building blocks and the host machine building blocks;

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims

1. A method for defining the alignment of building blocks of a mateable part is characterized by comprising the following steps:

acquiring a physical position sequence relation: acquiring a physical position sequence relation among a plurality of matched joints on the bottom plate building block; wherein, the physical position sequence relation is a relation of sequential arrangement;

acquiring a mateable piece type relationship: acquiring the type of a building block which can be matched and is constructed with the matched connector;

2. A method of defining a pair of mateable pieces building blocks according to claim 1 wherein said step of obtaining a physical positional sequential relationship comprises:

acquiring a physical connection sequence relation: acquiring a physical connection sequence relation between a bottom plate building block and a host machine building block; acquiring a physical connection sequence relation between the bottom plate building blocks;

3. A method of defining pairable piece building blocks according to claim 1, wherein the same type pairable piece defining step comprises:

4. The method of defining a mateable piece block pair of claim 1 further comprising:

in the same type of mateable piece defining step, for the same type of mateable piece building blocks, the sequence of the time periods is used as priority to sort the time periods, and then in each time period, identification information is defined for the mateable piece building blocks according to the physical position sequence relation.

5. A system for defining a mateable piece block pair, comprising:

a physical location order relationship acquisition module: acquiring a physical position sequence relation among a plurality of matched joints on the bottom plate building block; wherein the physical position sequence relation is a relation of sequential arrangement;

the same type of mateable defines the module: and aiming at the building blocks with the same type of the pairable pieces, defining identification information of the building blocks with the pairable pieces according to the physical position sequence relation.

6. The system for defining a pair of mateable pieces of building blocks of claim 5, wherein the physical positional sequential relationship obtaining module comprises:

a physical connection order relation obtaining module: acquiring a physical connection sequence relation between a bottom plate building block and a host machine building block; acquiring a physical connection sequence relation between the bottom plate building blocks;

a physical location order relationship determination module: determining a physical position sequence relation between the paired joints according to the physical connection sequence relation; wherein, the direction along which the physical position sequence relation is located and the direction along which the physical connection sequence relation is located are the same arrangement direction.

7. A system of defining a pairable member building block pairing according to claim 5, wherein said same-type pairable member defining module comprises:

an identification information definition module: and defining the identification information of the same type of the pairable building blocks as sequence numbers according to the position precedence relationship.

8. A system for defining a pair of mateable pieces of construction according to claim 5 further comprising:

a chronological relationship acquisition module: acquiring the sequence of the set-up time periods among a plurality of matched connectors on the bottom plate building block; wherein the time period is divided according to instructions from a user or instructions from a host building block;

9. The method according to claim 1 or the system according to claim 5, wherein the physical position sequence relationship between a plurality of mating connectors on the floor block is obtained by triggering detection of a mating start command from a user, or by triggering detection of a mating start command from a host, or by triggering completion of mating of a mating block;

and prompting a user after the definition of the identification information of the building blocks capable of being paired is completed.

10. The method of claim 9 or the system of claim 9, wherein the physical connection order relationship has a directionality, wherein the directionality is defined by a type of electrical connection set up interface between the floor bricks and/or the directionality is defined by a type of electrical connection set up interface between the floor bricks and the host bricks.

11. The method of claim 10 or the system of claim 9, wherein the physical connection order relationship is a sequential arrangement relationship; the directionality of the sequential arrangement relation is the relation of sequential arrangement from the host building blocks.

12. The method according to claim 1 or the system according to claim 5, wherein the host block is a hunting toy car, and the host block triggers, according to identification information read during hunting, instruction information read during execution of the host block hunting by a mateable block corresponding to the identification information.

13. The method of claim 1 or the system of claim 5, wherein the mateable pieces of the same type are identical in appearance or interact in the same manner as the user.

14. A computer-readable storage medium storing a computer program, characterized in that the computer program, when executed by a processor, implements the steps of the method of any one of claims 1 to 4, or of any one of claims 9 to 13.

15. A building block system is characterized by comprising a bottom plate building block, a pair of building blocks and a host machine building block;

using the method of any one of claims 1 to 4, or any one of claims 9 to 13;

alternatively, the host block comprises the system of any one of claims 5 to 13;

alternatively, the host brick comprises a computer-readable storage medium storing a computer program according to claim 14.