CN213131920U - Combined splicing product adopting building block programming - Google Patents

Combined splicing product adopting building block programming Download PDF

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Publication number
CN213131920U
CN213131920U CN201921515309.9U CN201921515309U CN213131920U CN 213131920 U CN213131920 U CN 213131920U CN 201921515309 U CN201921515309 U CN 201921515309U CN 213131920 U CN213131920 U CN 213131920U
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Prior art keywords
main body
instruction
terminal
building block
programming
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CN201921515309.9U
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Inventor
詹德勇
李桂仁
谢婷
曾绍春
叶莹
朱文俊
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Hunan Leshare Education Technology Co ltd
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Hunan Leshare Education Technology Co ltd
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Abstract

The utility model discloses a combined splicing product adopting building block programming, which comprises a programming main body, an instruction building block and an execution terminal; the utility model has reasonable structural design, and during operation, the device is simple to operate, does not need a screen, only needs to put the instruction building blocks into the instruction position of the programming main body, and the execution terminal can give action feedback and can carry out combined instruction operation, and the operation is gradual, easy to difficult, and teaching in music; the identification is simple, and the identification chip on the programming main body can transmit different instructions to the execution terminal only by identifying the magnet arrangement mode on the corresponding magnetic identification component in the loaded instruction building block; the instruction number is expanded simply, and only the number of mounting holes on the identification sheet needs to be increased, so that the instruction number is expanded.

Description

Combined splicing product adopting building block programming
Technical Field
The utility model relates to a technical field in the toy design specifically is an adopt combination formula concatenation product of building blocks programming.
Background
Toys, broadly referred to as objects that can be played, are often used in human society as a way to teach through entertainment.
The toy can also be a natural object, namely, a non-artificial object such as sand, stone, mud, branches and the like, the toy can be widely understood, the toy is not only a toy which is sold on the street and is played by people, but also a toy can be called by all things which can be played, watched, listened and touched, the toy is suitable for children, and the toy is a tool for opening a smart skylight, so that people can be intelligent and smart. With the continuous perfection and standardization of the domestic market and the inclination and vigorous support of the national creative industries such as toys, cartoons, games and the like in policy, the domestic toy industry enters an unprecedented golden period, the development speed is accelerated, and the industrial benefit is improved.
Currently, there are two types of programming products for children on the market, one with a screen and the other with a modular insert into the product. The former needs an additional mobile phone or a tablet computer, is not suitable for children, and the latter is limited in number, so that the instruction cannot be enriched due to the limitations of cost and the like. In addition, the product on the existing market is single in form and cannot really realize variability. Accordingly, one skilled in the art provides a modular mosaic product using block programming to address the problems set forth in the background above.
Disclosure of Invention
An object of the utility model is to provide an adopt combination formula concatenation product of building blocks programming to solve the problem that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme:
the utility model provides an adopt combination formula concatenation product of building blocks programming, includes programming main part, instruction building blocks and execution terminal, the programming main part includes main part epitheca, main part PCB, signal transmission module, discernment chip, start button, main part inferior valve and main part power, main part epitheca lower extreme is connected with the main part inferior valve through fastening nut, the inside upside of main part inferior valve is provided with main part PCB, main part PCB upper end right side is provided with signal transmission module and start button, the start button upper end runs through outside the main part epitheca extends to the main part epitheca, the embedded main part power that is provided with of main part inferior valve lower extreme, the instruction building blocks include single instruction building blocks and combination instruction building blocks, execution terminal includes terminal upper cover, terminal PCB, signal reception module, drive assembly, terminal power, terminal shell and inductive probe.
As a further aspect of the present invention: the main part epitheca upper end rear side is provided with a plurality of single instruction positions, main part epitheca upper end front side is provided with a plurality of combination instruction positions.
As a further aspect of the present invention: the main part PCB upper end left side is provided with a plurality of discernment chips, the number and the position of discernment chip correspond with single instruction bit and combination instruction bit.
As a further aspect of the present invention: the single instruction building blocks include instructions such as walking, light and sound, combination instruction building blocks can be the instruction combination of one or more single instruction building blocks, single instruction building blocks include building blocks shell, discernment piece, magnet, setting element and magnetic identification subassembly, building blocks shell is inside to be provided with a plurality of discernment pieces, the discernment piece is equipped with a plurality of installation hole sites, and the magnet or the magnet quantity of packing into in the hole site of difference are different, can constitute different magnetic identification subassemblies, building blocks shell can pack into a plurality of different magnetic identification subassemblies, building blocks shell right-hand member all is provided with the setting element, the setting element is convenient for the instruction building blocks and is accurately put into the single instruction position or the combination instruction position of programming main part.
As a further aspect of the present invention: the terminal shell right-hand member is provided with inductive probe, and inductive probe is used for carrying out the barrier and detects, the inside drive assembly that is provided with of terminal shell, the drive assembly lower part is provided with the terminal power, drive assembly upper portion is provided with terminal PCB, terminal PCB upper end is provided with signal reception module, terminal shell upper end is connected with the terminal upper cover.
Compared with the prior art, the beneficial effects of the utility model are that:
the utility model has reasonable structural design, and during operation, the device is simple to operate, does not need a screen, only needs to put the instruction building blocks into the instruction position of the programming main body, and the execution terminal can give action feedback and can carry out combined instruction operation, and the operation is gradual, easy to difficult, and teaching in music; the identification is simple, and the identification chip on the programming main body can transmit different instructions to the execution terminal only by identifying the magnet arrangement mode on the corresponding magnetic identification component in the loaded instruction building block; the instruction number is expanded simply, and only the number of mounting holes on the identification sheet needs to be increased, so that the instruction number is expanded.
Drawings
Fig. 1 is a schematic diagram of an assembly splicing structure of a combined splicing product adopting building block programming.
Fig. 2 is an exploded view of a programming body in a modular mosaic product programmed with building blocks.
Fig. 3 is an exploded view of an instruction block in a modular mosaic product programmed with blocks.
Fig. 4 is a schematic diagram of a magnetic identification element in a modular splicing product using block programming.
FIG. 5 is a schematic diagram of instruction symbols in a modular tile product programmed with building blocks.
FIG. 6 is an exploded view of an execution terminal in a modular mosaic product programmed with building blocks
In the figure: the system comprises a programming main body 1, a command building block 2, an execution terminal 3, a main body upper shell 4, a main body PCB5, a signal transmitting module 6, an identification chip 7, a starting button 8, a main body lower shell 9, a main body power supply 10, a single command bit 11, a combined command bit 12, a building block shell 13, an identification sheet 14, a magnet 15, a positioning piece 16, a magnetic identification component 17, a single command building block 18, a combined command building block 19, a command symbol 20, a terminal upper cover 21, a terminal PCB22, a signal receiving module 23, a driving component 24, a terminal power supply 25, a terminal shell 26 and an induction probe 27.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1 to 6, in an embodiment of the present invention, a combined splicing product adopting building block programming includes a programming main body 1, an instruction building block 2 and an execution terminal 3, where the programming main body 1 includes a main body upper shell 4, a main body PCB5, a signal transmitting module 6, an identification chip 7, a start button 8, a main body lower shell 9 and a main body power supply 10, the lower end of the main body upper shell 4 is connected to the main body lower shell 9 through a fastening nut, the main body PCB5 is disposed on the upper side inside the main body lower shell 9, the signal transmitting module 6 and the start button 8 are disposed on the right side of the upper end of the main body PCB5, the upper end of the start button 8 penetrates through the main body upper shell 4 and extends out of the main body upper shell 4, the main body power supply 10 is disposed in the lower end of the main body lower shell 9, the instruction building block 2 includes a single, Terminal PCB22, signal receiving module 23, driver assembly 24, terminal power supply 25, terminal housing 26, and inductive probe 27.
The rear side of the upper end of the main body upper shell 4 is provided with a plurality of single instruction bits 11, and the front side of the upper end of the main body upper shell 4 is provided with a plurality of combined instruction bits 12.
The left side of the upper end of the main body PCB5 is provided with a plurality of identification chips 7, and the number and the positions of the identification chips 7 correspond to a single instruction bit 11 and a combined instruction bit 12.
The single instruction building block 18 comprises instructions such as walking, lights and sounds, the combination instruction building block 19 can be the instruction combination of one or more single instruction building blocks (18), the single instruction building block 18 comprises a building block shell 13, identification pieces 14, magnets 15, positioning pieces 16 and magnetic identification components 17, a plurality of identification pieces 14 are arranged inside the building block shell 13, the identification pieces 14 are provided with a plurality of installation hole sites, the magnets 15 or the magnets 15 are arranged in different hole sites, different magnetic identification components 17 can be formed, the building block shell 13 can be filled with a plurality of different magnetic identification components 17, the positioning piece 16 is arranged at the right end of the building block shell 13, and the positioning piece 16 is convenient for instructing the building block 2 to be accurately placed into a single instruction position 11 or a combination instruction position 12 of the programming main body 1.
Terminal shell 26 right-hand member is provided with inductive probe 27, and inductive probe 27 is used for carrying out the barrier and detects, terminal shell 26 is inside to be provided with drive assembly 24, drive assembly 24 lower part is provided with terminal power 25, drive assembly 24 upper portion is provided with terminal PCB22, terminal PCB22 upper end is provided with signal reception module 23, terminal shell 26 upper end is connected with terminal upper cover 21.
The utility model discloses a theory of operation is:
the utility model relates to a combined splicing product adopting building block programming, a single instruction building block 2 can be placed into a single instruction position 11 of a main body upper shell 4, an identification chip 7 in a programming main body 1 can identify the arrangement mode of magnets 15 on a corresponding magnetic identification component 17 in the loaded instruction building block 2, as shown in figure 4, different signals can be transmitted to an execution terminal 3 through a signal transmission module 6, one or more single instruction building blocks 2 are placed into the single instruction position 11 of the main body upper shell 4, a start button 8 is pressed, the execution terminal 3 can receive signals corresponding to one or more single instruction building blocks 18 and execute one or more instructions in sequence, one or more single instruction building blocks 2 are placed into a combined instruction position 12, a combined instruction building block 19 is placed into the single instruction position 11, the start button 8 is pressed, the execution terminal 3 can receive combined signals of the combined instruction building block 19, the combination signal of the combination instruction block 19 is a signal combination of one or more single instruction blocks 2 placed in the combination instruction bit 12, for example, the execution terminal 3 needs to realize straight movement, left bending, hearing sound and straight movement again through the instruction block 2 and the programming main body 1, turn right when encountering an obstacle, and flash a red light when reaching a destination, and then the execution terminal 3 can be controlled to reach the destination only by placing a plurality of single instruction blocks 18 in the single instruction bit 11 of the programming main body 1. If too many instructions are needed for reaching the destination and the number of the single instruction bits 11 is not enough, the combined instruction building block 19 can be matched with the single instruction building block 18 for use, and the execution terminal 3 can also be controlled to reach the destination, so that the device is simple to operate, does not need a screen, only needs to put the instruction building block into the instruction bits of the programming main body, can give behavior feedback to the execution terminal, can perform combined instruction operation, and can perform combined instruction operation step by step, from easy to difficult, and teach through lively activities; the identification is simple, and the identification chip on the programming main body can transmit different instructions to the execution terminal only by identifying the magnet arrangement mode on the corresponding magnetic identification component in the loaded instruction building block; the number of the instructions is simple to expand, and the number of the mounting holes on the identification sheet is increased, so that the number of the instructions is expanded, if the identification sheet has 5 hole sites, 32 possibilities exist for correspondingly mounting the magnets, namely 32 instructions exist, and if the identification sheet has 6 hole sites, 64 possibilities exist for correspondingly mounting the magnets, namely 64 instructions exist; the product of the invention adopts the boards (wood boards, bamboo boards, composite boards and the like) as main materials, the boards have the characteristics of simple processing, high efficiency, environmental protection and the like, the boards can be assembled into a structure, and the product has more imagination, can be assembled by users, and can cultivate the practical creativity and programming thinking of the users; the playing method of different game maps can be combined, so that the product has intelligence benefiting attributes and popular science attributes.
The utility model has reasonable structural design, convenient and fast use, high practicability, simple operation, no need of a screen, and can give behavior feedback only by putting the instruction building blocks into the instruction position of the programming main body, and can carry out combined instruction operation, gradually and easily arrive at a difficult place, and teach through fun; the identification is simple, and the identification chip on the programming main body can transmit different instructions to the execution terminal only by identifying the magnet arrangement mode on the corresponding magnetic identification component in the loaded instruction building block; the number of the instructions is simple to expand, and the number of the mounting holes on the identification sheet is increased, so that the number of the instructions is expanded, if the identification sheet has 5 hole sites, 32 possibilities exist for correspondingly mounting the magnets, namely 32 instructions exist, and if the identification sheet has 6 hole sites, 64 possibilities exist for correspondingly mounting the magnets, namely 64 instructions exist; the product of the invention adopts the plate as the main material, the plate has the characteristics of simple processing, high efficiency, environmental protection and the like, the plate can be assembled, the product has more imagination, the appearance of the product can be assembled by a user, and the manual creativity and programming thinking of the user can be cultured; the playing method of different game maps can be combined, so that the product has intelligence benefiting attributes and popular science attributes.
It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. A combined spliced product adopting building block programming comprises a programming main body (1), an instruction building block (2) and an execution terminal (3), and is characterized in that the programming main body (1) comprises a main body upper shell (4), a main body PCB (5), a signal transmitting module (6), an identification chip (7), a start button (8), a main body lower shell (9) and a main body power supply (10), the lower end of the main body upper shell (4) is connected with the main body lower shell (9) through a fastening nut, the main body PCB (5) is arranged on the upper side inside the main body lower shell (9), the signal transmitting module (6) and the start button (8) are arranged on the right side of the upper end of the main body PCB (5), the upper end of the start button (8) penetrates through the main body upper shell (4) and extends out of the main body upper shell (4), the main body power supply (10) is, the instruction building block (2) comprises a single instruction building block (18) and a combined instruction building block (19), and the execution terminal (3) comprises a terminal upper cover (21), a terminal PCB (22), a signal receiving module (23), a driving assembly (24), a terminal power supply (25), a terminal shell (26) and an inductive probe (27).
2. The modular splicing product of claim 1, wherein said main body top shell (4) is provided with a plurality of single command bits (11) at the rear side of the upper end thereof, and said main body top shell (4) is provided with a plurality of modular command bits (12) at the front side of the upper end thereof.
3. The modular mosaic product of claim 1, wherein said main PCB (5) is provided with a plurality of identification chips (7) on the left side of its upper end, said identification chips (7) corresponding in number and position to the single command bits (11) and the combination command bits (12).
4. The modular splicing product adopting block programming according to claim 1, wherein the single instruction block (18) comprises instructions of walking, light and sound, the modular instruction block (19) can be an instruction combination of one or more single instruction blocks (18), the single instruction block (18) comprises a block housing (13), identification plates (14), magnets (15), positioning members (16) and magnetic identification components (17), a plurality of identification plates (14) are arranged inside the block housing (13), the identification plates (14) are provided with a plurality of mounting hole sites, different magnetic identification components (17) can be formed by installing magnets (15) or magnets (15) in different hole sites in different numbers, the block housing (13) can be installed with a plurality of different magnetic identification components (17), the right end of the block housing (13) is provided with the positioning members (16), the positioning piece (16) is convenient for the instruction building block (2) to be accurately placed into the single instruction bit (11) or the combined instruction bit (12) of the programming main body (1).
5. The combined splicing product adopting building block programming as claimed in claim 1, wherein an inductive probe (27) is arranged at the right end of the terminal housing (26), the inductive probe (27) is used for detecting obstacles, a driving component (24) is arranged in the terminal housing (26), a terminal power supply (25) is arranged at the lower part of the driving component (24), a terminal PCB (22) is arranged at the upper part of the driving component (24), a signal receiving module (23) is arranged at the upper end of the terminal PCB (22), and a terminal upper cover (21) is connected to the upper end of the terminal housing (26).
CN201921515309.9U 2019-09-11 2019-09-11 Combined splicing product adopting building block programming Active CN213131920U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921515309.9U CN213131920U (en) 2019-09-11 2019-09-11 Combined splicing product adopting building block programming

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921515309.9U CN213131920U (en) 2019-09-11 2019-09-11 Combined splicing product adopting building block programming

Publications (1)

Publication Number Publication Date
CN213131920U true CN213131920U (en) 2021-05-07

Family

ID=75707588

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921515309.9U Active CN213131920U (en) 2019-09-11 2019-09-11 Combined splicing product adopting building block programming

Country Status (1)

Country Link
CN (1) CN213131920U (en)

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