CN215521528U - Connection structure capable of combining and separating object blocks through edge connection and mutual rotation - Google Patents

Abstract

The application provides a connecting structure with edges of object blocks being connected and mutually rotated and capable of being combined and separated, which comprises a traditional tenon and mortise part, wherein a third part of a super block clamping core buckling core consisting of a super block clamping core and a super block buckling core is added, the super block clamping core and the tenon and mortise contour are isomorphic to form the range control of connection access control and relative rotation, and the super block buckling core is used for the range control of the distance between the sliding control during connection access and the rotation around the super block clamping core and the tenon and mortise after connection; the elements of each part in the connecting structure have proper size proportion and proper distance and clearance, and are suitable for the operation of separation and combination movement and relative rotation of connection. The connecting structure is based on the traditional and innovative object connecting mode, can be expanded in multiple directions and multiple elements, and realizes productization, serialization and modularization. The production of a set of entity product formed by 24 positive cubic superblocks and 6 positive cubic superblocks with equal structure is realized, content connotation innovation is integrated, thinking intelligence connection is expanded, and a three-dimensional innovation experience exploration system is formed.

Description

Connection structure capable of combining and separating object blocks through edge connection and mutual rotation

Technical Field

The application provides a thing piece limit links to each other, can close divisible connection structure, especially combines new theory new material new technology and innovation thing connected mode based on traditional mortise-tenon joint structure, and the wide application is in fields and scenes such as toy, stationery, teaching aid, office supplies, household articles, packaging container, decoration show, building engineering and intelligent manufacturing, wisdom creation.

Background

The connection structure is a connection structure for human civilization. The tenon-and-mortise structure is complementary with the mortise and tenon, develops and forms multiple connection structure, is the crystallization of several thousand years wisdom in china furniture and building field. The mortise and tenon structure is developed by taking wood as a main material and adopting a woodworking process, and in the modern new material and new process era, innovation can be carried out by new design and new manufacture through new ideas and new technologies.

The internet technology developed based on HyperLink (HyperLink) has created a new era of everything interconnection, the HyperLink capability in the human intelligence is passing through virtual reality, increasingly strong artificial intelligence is being developed, and the human society is advancing a new future for linking things, people and things. In the entity connection of 'object-object', a new connection mode and a connection structure have innovative and profound times connotation, and the new connection forms new content creation, particularly system thinking connection and multi-element intelligent development which are mapped and fused to innovative human intrinsic intelligence, and has profound significance and practical value for the progress and development of human civilization.

The present application, as a research researcher in the technical field of HyperMedia (HyperMedia) information management system, started in 1990, and written a master paper, in the 2000 s, a third piece of HyperWare (HyperWare) innovative knowledge system in addition to generalized hardware and software was proposed and constructed, five-way fusion innovation of informationization, knowledge, networking, relationship and branding was practically explored, visualization of human intelligence was explored and constructed in 2015, productization, systematization, clustering and ecology are dedicated to the construction and presentation of knowledge products and intelligent systems through hyperlink innovation for a long time, the method is the original construction and presentation of one object connection structure and series of entity products, a three-dimensional innovation system is formed by the integration of knowledge contents of the entity products and the mining of intelligent connotations, and forms are informed, make biological intelligence and pass through the communication. The entity connection structure technology can be widely applied to the fields and scenes of toys, stationery, teaching appliances, office supplies, household articles, packaging containers, decoration and display, building engineering, intelligent manufacturing, intelligent creation and the like.

SUMMERY OF THE UTILITY MODEL

The utility model content of the present application is described as follows:

1. a kind of material block links up the mutual rotation, can close the divisible linkage while being marginal, the said linkage structure includes traditional tenon part and mortise part, increase and detain the core and detain the third part to detain the core by the super block card core and super block, characterized by that, the said traditional tenon part and mortise part have basic structures which realize the tenon-and-mortise connection; the super block clamping core and the tenon-and-mortise contour are isomorphic to form the in-and-out control of connection and the range control of relative rotation, and the super block buckling core is used for the sliding control during the in-and-out connection and the range control of the distance between the super block clamping core and the tenon-and-mortise after the connection; the two groups of connecting structure units forming connection are isomorphic, and when tenons of two pairs of mortise and tenon joints are oppositely and correspondingly close to mortise of the other party and are simultaneously butted, the two super block buckling cores are rotationally slid and synchronously clamped by being attached to super block clamping cores of the other party; after the two pairs of mortise and tenon joints are put in place, the two pairs of super block core clamping buckling cores can move and rotate in a control interval in a three-dimensional relative mode; the two pairs of connected tenon-and-mortise connection structures can be disconnected through the reverse movement, and when the two tenons leave the opposite mortise, the two super-block buckling cores move reversely when entering the opposite super-block buckling cores to rotate and slide away from the opposite super-block clamping cores; and each element in each part of the connecting structure has proper size proportion and proper distance and clearance, and is suitable for connecting, separating and jointing and relative rotating operations, including three major parts of peripheral round and square combination, edge circular arc modeling and a plurality of chamfered sliding surfaces. The tenon, the mortise and the super-block clamping core buckling core form a group of basic connecting structure units, namely pseudo-block connecting structure units for short, and object blocks which are provided with the above super-block connecting structure units at multiple sides and have the same structure with each unit are pseudo-blocks for short.

2. The material of the connecting structural unit needs to have suitable elasticity and a certain rigidity.

3. In the connecting structure unit, the mortise part and the fastener core of the super block fastener are fused together, and the tenon part extends correspondingly.

4. In the connecting structure unit, new mortise and tenon structures can be respectively constructed on two sides of the edge block in the direction perpendicular to the connecting structure, so that the telescopic stacking is realized.

5. The connecting structure unit can form a series of products based on the frame body, and the connecting structure unit is required to be isomorphic.

6. The connecting structure unit can form a series of products based on the surface body, the connecting structure unit is required to be isomorphic, and the surface body part of the object block can be designed with functional content.

7. The connecting structure unit can be used for constructing series products based on various polygonal bodies and applied to multiple fields and multiple scenes, each connecting structure unit on each side of the same polygonal body is isomorphic, the length of the rotating axis of each connection of each connecting structure unit among the polygonal bodies with different specifications is equal, the rotating directions of each connecting structure unit are generally required to be consistent, and the connecting structure units can also be designed to be reverse.

8. The connecting structure unit can form a group of suit products of 24 positive cubic superblocks and 6 positive cubic superblocks with the same structure in the same side; further, the 24 cube-positive super-blocks can be accommodated in the cube-positive box spliced by the 6 cube-positive super-blocks in a mortise-tenon mode.

9. The connecting structure unit can construct multi-specification and multi-quantity multi-version suit product series, and accordingly diversified packages can be formed.

10. The connecting structure unit is not limited to integrated integral design and production, and can form a multi-component modularized diversified product with the same structure of the object block connecting structure, and comprises component product elements with all components of the connecting structure.

Drawings

The drawings are illustrated in sequence as follows:

fig. 1 and fig. 2 show two block units with the same structure, and three different circles mark different parts, wherein (1) and (2) are two major parts of tenon and mortise of tenon-and-mortise structure, respectively, and (3) is a newly added third part of 'super block core clamping and core clamping' consisting of 'super block core clamping' and 'super block core clamping'.

Fig. 3 is a set of diagrams illustrating the states of the two isomorphic units in each stage from the butt joint to the joint, the rightmost diagram illustrates a state of the two isomorphic units in relative rotation, and the reverse disassembly process from the butt joint to the joint is performed from the right diagram to the left diagram.

Fig. 4 shows the overall expansion of the above-mentioned connection unit, and five different circles mark different 1-5 parts, where (1) and (2) are the tenon and mortise parts of the block edge, respectively, (3) is the core-fastening and core-fastening part of the super-block, and (4) and (5) the tenon is the tenon and mortise parts constructed on both sides of the block edge in the vertical direction.

Fig. 5 is a stack diagram of the connection unit, showing the three-dimensional storage state of the tenon (4) and mortise (5) structures of four blocks which are overlapped in a face-to-face (face-to-face/back-to-back) manner in the vertical direction.

Fig. 6 to 12 show respective views of the three-dimensional shape of the right three-dimensional frame body after being connected with the bottom of the right four-dimensional frame body, wherein the respective connecting rotating axes of the right three-dimensional frame body are equal in length, and the connecting structure of each frame edge is a single unit which is isomorphic and has the same rotating direction:

FIG. 6 is a perspective front view;

FIG. 7 is a left side view;

FIG. 8 is a right side view;

FIG. 9 is a front view;

FIG. 10 is a top view;

FIG. 11 is a rear view;

fig. 12 is a bottom view.

Fig. 13 to 19 show respective views of a three-dimensional figure in which two cube bodies and a cube body are connected at the bottom and the left, respectively, and both sides are connected:

FIG. 13 is a perspective front view;

FIG. 14 is a left side view;

FIG. 15 is a right side view;

FIG. 16 is a front view;

FIG. 17 is a top view;

FIG. 18 is a rear view;

fig. 19 is a bottom view.

Fig. 20 illustrates a perspective view of a rectangular parallelepiped super block of single unit of double connection structure units x, with the rotation directions of the connection structures all being the same and the corresponding sides being isomorphic.

FIG. 21 is a perspective view of a large cube super block with two isomorphic connecting structure units, with the connecting structure rotating in the same direction and with the sides being isomorphic.

Fig. 22 to 24 are perspective views of the right five, six and eight block super blocks of a single connection structure unit, respectively, in which the rotation directions of the respective connection structures are consistent and the sides are isomorphic.

Fig. 25 shows that the set version of a regular cube and a square cube super block is 6 regular cube super blocks and 24 regular cube super blocks, all of which are stored in a cube box, and fig. 25 is a real object of the super block set box after the cover is opened.

FIGS. 26 to 29 are respectively real objects of a closed figure example of a suit assembly:

FIG. 26 is a hexagonal octagonal shape, six sides are squares, the octagonal shape is three cubic pyramid-shaped protrusions, which is one of the layouts of a square solid;

FIG. 27 is a schematic view of a triple-pair hexagonal mold, in which three cubic super blocks are paired into a group by attaching a cubic super block, and the triple-pair hexagonal super blocks are surrounded and protruded by two pairs of cubic super block cones in the middle, and are one of the compact layouts;

FIG. 28 is a three-six combined vertical tower type with six layers, one above the other, and a plurality of three-six elements combined;

fig. 29 is a four-sided octagon, which is one of the square layouts.

FIGS. 30 to 33 are respectively real objects of open type graphic examples of the suit makeup:

FIG. 30 is two perspective views of the same human shape of the assembled components, which are two persons and have different thoughts;

FIG. 31 is a perspective view of one of the "peacock spreading its tail" series of nested arrangements, which is natural and erect in nature without any assistance or support;

FIG. 32 is a perspective view of the four-piece connecting core of the assembled unit, which can be natural or natural in various forms;

FIG. 33 is a perspective view of the "brain hole wide open" conception of the nested assembly, which can be varied in the sense of "opening" at multiple locations of the spherical brain and the bilateral blocks constructed by the regular icosahedron.

Fig. 34 and 35 are real objects of dynamic graphic examples of the set assembly, which can dynamically link:

FIG. 34 is a perspective view of the assembly of the nested structure, showing the concept of "heaven and earth combination", with the left and right sides being rotationally symmetric, the upper and lower heaven and earth combination, the left and right sides being linked up and down for fun, and the space carrier serving as a container, so as to achieve good meaning and good luck and richness;

FIG. 35 is a perspective view showing the concept of "double wall" of the assembled structure, wherein two four sides are combined and are symmetrical in left and right rotation, two three sides are combined and connected to form a bottom, two four sides are connected to form a top cover, and a built-in space carrier can be linked left, right, up and down, so that the space is wide and has great tolerance.

FIG. 36 is a perspective view of the hollow-out configuration of the nesting arrangement.

The five drawings in the series from 37 to 41 are drawings of the suit assembly based on square inner hollow core type square chains, all of which are dynamic and can be linked in multiple modes:

FIG. 37 is a four-chain symmetrical flower type of the nested makeup, the flowerpot is a bilateral rotational symmetrical structure;

FIG. 38 shows a four-chain symmetrical flower type of the assembled flower pot, and the flower pot has another bilateral rotational symmetrical structure;

FIG. 39 is a four-strand symmetrical bud shape of the nested makeup, with outer petals of bilateral rotational symmetry;

FIG. 40 shows a four-chain symmetrical tree of the nested arrangement with the root in another bilateral rotational symmetrical configuration;

FIG. 41 is a four-chain symmetrical figure of the nested assembly, with a variable angle core, and is lifelike.

The series of figures 42 to 51 are partial case works, with the real object in color and part in transparent color, all now presented in gray scale graphic conversion:

FIG. 42 is a three-dimensional case made of 12 square super blocks, which can be used as a practical stationery or container;

FIG. 43 is a perspective view of the nested super-block (6 square super-blocks and 24 square super-blocks) assembly of the above-described three-dimensional container, which can be used as a practical vase or ornament;

FIG. 44 is a three-dimensional box assembled by 6 positive square super blocks and 26 positive square super blocks, which can be used as practical stationery or container, and the real object can be multi-state adjusted, even can be moderately and naturally elastically deformed;

FIG. 45 is a three-dimensional box assembled by 12 positive square super blocks and 24 positive square super blocks, which can be used as a practical stationery or a storage container or a decoration; fig. 46 is 6 block 2: the 1 rectangular super-block assembled three-dimensional box can be used as a practical packaging box or a practical containing container;

FIG. 47 shows a three-dimensional box made of 6 double-unit square super blocks, which can be used as a practical packing box or a storage container;

FIG. 48 is a regular dodecahedron of a 12-piece regular pentagonal super-block arrangement, also one of the topologies of spheres;

fig. 49-51 series of three views are three different visual orientations of a three-dimensional model formed by splicing 5 regular four super blocks, 4 regular hexagonal super blocks and 2 regular eight super blocks.

Detailed Description

The present application, in conjunction with the annexed drawings, progressively divides into several parts to illustrate specific embodiments of the utility model:

construction of 'super block clamping core buckling core' connection basic structure based on mortise and tenon structure

The application provides a connection structure that thing piece links to each other, the connection structure unit isomorphism of two thing pieces, as shown in figure 1 and figure 2 (the different part of three kinds of different circle marks), outside two parts of "tenon" (1) and "mortise" (2) of tenon fourth of the twelve earthly branches structures, newly increase "surpass piece card core and detain (3) third part, this part divides into" surpass piece card core "and" surpass piece and detain two sub-parts of nuclear "again:

the super-block buckling core is used for sliding control during connection and separation and range control of the distance between the super-block buckling core and the tenon mortise after connection and rotation around the opposite super-block buckling core;

two groups of connecting structure units forming connection are isomorphic, tenons of two pairs of mortise and tenon joints are oppositely and correspondingly close to mortise of the other party and enter butt joint simultaneously, and each super block buckling core is attached to a super block clamping core of the other party to rotate, slide and be synchronously clamped; after the two pairs of mortise and tenon joints are put in place, the two pairs of super block core clamping buckling cores can move and rotate in a control interval in a three-dimensional relative mode; the two pairs of connected tenon-and-mortise connection structures can be disconnected through the reverse movement, and when the two tenons leave the opposite mortise, the two super-block buckling cores move reversely when entering the opposite super-block buckling cores to rotate and slide away from the opposite super-block clamping cores.

Wherein, the material of the connecting structure unit block needs to have proper elasticity and certain rigidity, such as plastic material which can be manufactured by integral injection molding; if necessary, the connecting structure unit module can be embedded into the frame body material frame with high rigidity and strength after being produced by elastic materials.

During design implementation, the size proportion of each element of each part and the distance and the gap of each part need to be considered so as to be suitable for the operation of connection separation and connection and relative rotation, the operation comprises a plurality of details such as peripheral square combination, edge arc modeling, a plurality of beveling sliding surfaces and the like, the requirement and the limitation of production are realized by considering a manufacturing process (such as injection molding), and ergonomic design is fully realized. The product modularization is realized through the overall isomorphic design of the object block connecting structure, and the economic and practical value is achieved.

From the group of fig. 3, the diagram shows the stage states of the two isomorphic blocks from butt joint to joint, the rightmost diagram shows a state of the two isomorphic blocks from relative rotation, and the reverse disassembly process from butt joint to joint is carried out from the right diagram to the left diagram. The relative angle of the vertical rotation axes of the two object blocks is related to the design of the shape, the size and the like of each element, if the two object blocks are not easily separated in a natural state after being butted, and are difficult to be directly separated in parallel butting, the two object blocks can be designed to be in a better state of being combined and separated when being approximately vertically intersected left and right, and the connection separation and connection operation can be easily realized by both hands without using violent non-standard actions.

The three parts of the connection basic structure of the 'super block clamping core buckling core' are added based on the tenon-and-mortise structure constructed above to form a group of connection structure units, which are called as 'super block connection structure units' for short.

Second, based on "surpass piece connection structure unit" tenon fourth of twelve earthly branches and fourth of twelve earthly branches is extended

Fig. 4 shows (1-5 parts with five different circles marked differently) as an integral expansion, wherein the mortise (2) and the super block core-clamping buckling core (3) are fused together, the tenon (1) part is correspondingly extended, and the tenon (4) and the mortise (5) are respectively constructed on two sides of the block edge in the vertical direction and are respectively represented as a special protruding block and a natural recess, and can be relatively stacked when being stored, the protruding part can be used as a finger exerting force borrowing part when being separated and combined, and can play a role when being operated in single-sided and double-sided states, and plays a role in supporting a vertical surface when the surface body is vertically placed, so that the nested and stackable structure is realized. In fig. 5, the nested stack group diagram shows the receiving state of the tenon (4) and mortise (5) structure of the four blocks which are stereoscopically visible (the 4 th and 5 th different circles mark different parts) and are overlapped in a face-to-face (face/back-to-back) manner in the vertical direction.

Frame product construction based on' super block connection structure unit

Fig. 6 to 12 show respective views of the three-dimensional shape of the right three-dimensional frame body after being connected with the bottom of the right four-dimensional frame body, wherein the respective connecting rotating axes of the right three-dimensional frame body are equal in length, and the connecting structure of each frame edge is a single unit which is isomorphic and has the same rotating direction:

FIG. 6 is a perspective front view;

FIG. 7 is a left side view;

FIG. 8 is a right side view;

FIG. 9 is a front view;

FIG. 10 is a top view;

FIG. 11 is a rear view;

fig. 12 is a bottom view.

Construction of multi-block series products based on' super-block connection structure unit

Fig. 13 to 24 show several common cubic shapes of a multi-square (side) body, wherein the middle part surrounded by the frame side body is added with a design of the body, the length units of the connecting rotation axes of the unit connecting structures of various different square blocks are equal, and the long sides of the cuboid and the large square body are double in length and can be butted with double units suitable for a solid.

The face body design is formed by integrating the corresponding mortise and tenon structures perpendicular to the two faces of the face body, and the face body design considers the factors of rigidity and elasticity of the whole material of the product, mechanical property, ergonomics, aesthetic style and the like.

Fig. 13 to 19 show respective views of the three-dimensional figures of two cube bodies and a cube body after the cube bodies are connected at the bottom and the left part and the two sides are connected. The two cube blocks are respectively designed by circular and square image elements and are respectively divided into single-sided and double-sided content carrier designs. The axes of the respective connecting rotation of the regular three-square blocks are equal in length (namely, equal in length), and the connecting structure of each block edge is a single unit with the same main body part and the same rotation direction:

FIG. 13 is a perspective front view;

FIG. 14 is a left side view;

FIG. 15 is a right side view;

FIG. 16 is a front view;

FIG. 17 is a top view;

FIG. 18 is a rear view;

FIG. 19 is a bottom view;

FIG. 20 illustrates a perspective view of a cuboid superblock with two connecting structure units, x single units, with identical connecting structure rotation directions and corresponding edges;

FIG. 21 is a perspective view of a large cube super block with two isomorphic linking structure units, with the linking structure rotating in the same direction and with the sides being isomorphic; fig. 22 to 24 are perspective views of the right five, six and eight block super blocks of a single connection structure unit, respectively, in which the rotation directions of the respective connection structures are consistent and the sides are isomorphic.

The polygonal object block with the isomorphism of the ' super block connecting structure unit ' is called as ' super block ' (registered trademark) ' for short, and the length of each unit (not limited to one unit) connecting structure of each side of various polygonal bodies is equal on the mortise and tenon rotation axis, so that the polygonal super block series products with multiple specifications are formed. The connecting structure units on each side of the same polygon are isomorphic, the axial lengths of the connecting rotation shafts of the connecting structure units among the polygons with different specifications are equal, the rotating directions of the connecting structure units of the same polygon are generally required to be consistent, and the connecting structure units can also be designed in a reverse direction.

Fifth, suit product and series construction based on' super block connection structure unit

FIG. 25 illustrates a nested version of a regular cubic and tetragonal super block as 6 regular cubic super blocks and 24 regular cubic super blocks, all housed as a cube box;

the six square super blocks are spliced into a hexahedral cube, and the six square super blocks are accommodated into a pair of one square super block and another 2 square super block in a tenon-and-mortise mode so as to be just filled into a cube box;

the cube box is opened, namely three-side tenon-and-mortise parts of any square body are disassembled one by one and then are rotated to be opened, or four-side tenon-and-mortise parts of a square super block are disassembled one by one and then the square block is uncovered;

the kit is injection molded and produced, the product combining material produces a plurality of color combination series from transparent to opaque categories, and a box of kit is provided with 6 or 12 color combinations of the same category. The box of three-dimensional patterns which can be spliced exceeds 1000 sets (the integral configuration which does not consider color combination change and has obvious characteristics), content connotation is fused, thought intelligence connection is expanded, and a three-dimensional innovation experience exploration system is formed.

FIG. 25 is a real object of the super block set box after the cover is opened;

figures 26 to 29 are respectively physical representations of a closed graphical example of a nesting arrangement,

FIG. 26 is a hexagonal octagonal shape, six sides are squares, the octagonal shape is three cubic pyramid-shaped protrusions, which is one of the layouts of a square solid;

FIG. 27 is a schematic view of a triple-pair hexagonal mold, in which three cubic super blocks are paired into a group by attaching a cubic super block, and the triple-pair hexagonal super blocks are surrounded and protruded by two pairs of cubic super block cones in the middle, and are one of the compact layouts;

FIG. 28 is a three-six combined vertical tower type with six layers, one above the other, and a plurality of three-six elements combined;

FIG. 29 is a four-sided octagon, one of the square layouts;

figures 30 to 33 are respectively physical representations of open graphical examples of a nested arrangement,

FIG. 30 is two perspective views of the same human shape of the assembled components, which are two persons and have different thoughts;

FIG. 31 is a perspective view of one of the "peacock spreading its tail" series of nested arrangements, which is natural and erect in nature without any assistance or support;

FIG. 32 is a perspective view of the four-piece connecting core of the assembled unit, which can be natural or natural in various forms;

FIG. 33 is a perspective view of the "brain hole wide open" conception of the nested makeup, which can be varied in the sense of "opening" at multiple locations of the spherical brain type and the bilateral cubic blocks constructed by the regular icosahedron;

FIGS. 34 and 35 are physical examples of dynamic graphical examples of a nested arrangement, dynamically interlockable,

FIG. 34 is a perspective view of the assembly of the nested structure, showing the concept of "heaven and earth combination", with the left and right sides being rotationally symmetric, the upper and lower heaven and earth combination, the left and right sides being linked up and down for fun, and the space carrier serving as a container, so as to achieve good meaning and good luck and richness;

FIG. 35 is a perspective view showing the concept of "double wall combination" of the assembled structure, wherein two four sides are combined and are symmetrical in left-right rotation, two three sides are combined and connected to form a bottom, two four sides are butted to form a top cover, a space carrier is built in, the top cover can be linked left, right, up and down, and the space is wide in the world and has large tolerance;

FIG. 36 is a three-dimensional view of the hollow-out type of the assembled structure, which is an animated image of a favorite brand for children, and the hollow-out interior is diagonal, rotationally symmetric and contains heaven and earth;

the five drawings in the series from 37 to 41 are group drawings of the suit assembly structure based on square inner hollow core type square chains, which are all dynamic type and can be linked in multiple types,

FIG. 37 is a four-chain symmetrical flower type of the nested makeup, the flowerpot is a bilateral rotational symmetrical structure;

FIG. 38 shows a four-chain symmetrical flower type of the assembled flower pot, and the flower pot has another bilateral rotational symmetrical structure;

FIG. 39 is a four-strand symmetrical bud shape of the nested makeup, with outer petals of bilateral rotational symmetry;

FIG. 40 shows a four-chain symmetrical tree of the nested arrangement with the root in another bilateral rotational symmetrical configuration;

FIG. 41 is a four-chain symmetrical figure of the nested assembly, with a variable angle core, and is lifelike.

This suit, wholly named "HyperMagic" (registered as a trademark) brand, includes three parts:

the 6 positive cubic superblocks and the 24 positive cubic superblocks are a version of the packaged entity product;

the content of the assembly is named as 'HyperMatrix' (registered as a trademark), the assembly is a content card, the content card is divided into groups, classified, color-separated, theme-separated, graded and numbered, and the assembly can be arranged in a container box formed by splicing a plurality of super blocks, and multi-version content and multi-specification packages can be formed by different assembly specifications; the connotative brand is named as 'Hyperway' (registered as a trademark), a three-dimensional knowledge product innovation system is formed by fusion innovation, and a user exercises experience, mentally comprehends and conspirates a change bureau to create a new bureau to pass through virtual reality, exercises in thousands of changes, exercises innovation thinking of a training system, cultivates innovation creativity, comprehends construction and presentation of the knowledge system and the thinking system, can collaborate and create in interaction, innovates and explores a wisdom road, finds joy, is through in fusion and creates infinity.

This suit knowledge product is not general children educational toy, but is applicable to the thinking enlightenment instrument of many all kinds of crowds of different ages and educational background, and different people have different cognition and different experience, and the family parent-child interaction of specially adapted, head of a family's guide and participation are interactive, and child explores to explore the comprehension, lasts deep training system thinking and innovative thinking, and more deepening is more splendid.

The super-block is compared with the relevant products appearing on the market as follows: compared with a seven-piece puzzle, the super block is three-dimensional and multi-element; compared with a magic cube, the magic cube has certain logical thinking, the super block is intuitive and cannot be hoped to stop walking, and imagination is more needed; compared with the visual image of the traditional building blocks and the jigsaw set path basically according to the propaganda department, the super blocks require creativity and systematicness and also require continuous perseverance; compared with magnet sheet frame bodies in the market, the magnet sheet frame bodies have the function of connecting and composing pictures, the tenon-and-mortise connection of the super blocks is firmer, the linkage multi-state body can be constructed by relative rotation, the expressive force is richer, the values of manual labor exercise and ten-finger dexterity training are also realized, and the assembly method for limiting the number of original sheets is more systematic and challenging; compared with courses such as robot programming and the like which are started in recent years, the courses contain programmed modular thinking, super blocks require system architecture to be grasped, the contents are richer and more changeable, and each step needs to build a system by using mind and mind. The super-block is a multi-element fusion innovation, and can be visualized, scene-based, interactive and ecological, and each person is intelligently enabled.

Besides the super-block suit products of the above versions, more versions can be constructed without limiting the quantity and the specification, and the super-block suit products are rich in extensibility. If the double boxes are sleeved, a double-person interactive edition can be formed, and especially 12-color double boxes can be combined into a lovers edition; the same 6-color 6 boxes and 12-color 12 boxes respectively form assembled entity products of team edition and family edition, can be mutually recombined to form a same-color set, can be subjected to serialized evolution and transformation, and particularly can be mutually compared together. Similarly, a greater number of specifications and versions of the super block product and package family can be constructed.

Sixth, construction of multi-scene series products based on' super-block connection structure unit

The super-block products can be mutually rotated, combined and separated at the edges, can be nested and stacked, have various three-dimensional connection combination changes, can construct various models for display, building, teaching, training and the like, can be constructed into practical appliances such as multi-specification stationery boxes, storage boxes, packaging containers, ornaments and the like, and can be combined and used randomly;

as a model appliance, the super block can be widely applied to multiple scenes, multiple industries and multiple fields; as a practical appliance, the super block can be designed and realized as a solid product with various materials, colors, sizes and specifications, for example, various containers, ornaments, display ornaments and the like can be constructed in a productization way, creativity is shown in thousands of postures, and the purpose of building scenes at will and according to local conditions is realized.

The series of figures 42 to 51 are partial case works, in color, and in transparent color, now presented in gray scale graphic conversion, briefly summarized below:

FIG. 42 is a three-dimensional case made of 12 square super blocks, which can be used as a practical stationery or container;

FIG. 43 is a perspective view of the nested super-block (6 square super-blocks and 24 square super-blocks) assembly of the above-described three-dimensional container, which can be used as a practical vase or ornament;

FIG. 44 is a three-dimensional box assembled by 6 positive square super blocks and 26 positive square super blocks, which can be used as practical stationery or container, and the real object can be multi-state adjusted, even can be moderately and naturally elastically deformed;

FIG. 45 is a three-dimensional box assembled by 12 positive square super blocks and 24 positive square super blocks, which can be used as a practical stationery or a storage container or a decoration;

fig. 46 is 6 block 2: the 1 rectangular super-block assembled three-dimensional box can be used as a practical packaging box or a practical containing container;

FIG. 47 shows a three-dimensional box made of 6 double-unit square super blocks, which can be used as a practical packing box or a storage container;

FIG. 48 is a regular dodecahedron of a 12-piece regular pentagonal super-block arrangement, also one of the topologies of spheres;

fig. 49-51 series of three views are three different visual orientations of a three-dimensional model formed by splicing 5 regular four super blocks, 4 regular hexagonal super blocks and 2 regular eight super blocks.

Seven, construction of multi-component modular product based on' super block connection structure

Based on the tenon-and-mortise super-block connecting structure designed by the application, each part of elements, particularly the super-block clamping core buckling part, can be designed into a modularized component to be produced and manufactured, and can be flexibly combined and used in specific application, for example, the super-block clamping core buckling part can be designed into a movable component to be implanted or taken out before and after the tenon-and-mortise is closed, and correspondingly, the material of the component can not be limited to elastic material. Particularly, under the fine requirement or under the large quantity and large scene, the 'super-block connection structure unit' can be designed in a split and modularized mode to realize multi-form productization.

In conclusion, the super-block connection structure can be widely applied to multiple fields and multiple scenes such as intelligent manufacturing, intelligent creation and the like.

Claims (10)

1. A connection structure capable of combining and separating objects by connecting and mutually rotating edges, which comprises a traditional tenon part and a mortise part, and a third part of a super block clamping core buckle core consisting of a super block clamping core and a super block buckle core is added,

the conventional tenon and mortise parts have a basic structure for implementing a mortise-tenon connection; and is

-the super-block core is isomorphic with the profile of the mortise and tenon joint to form the in-and-out control of connection and the range control of relative rotation, and the super-block core button is used for the sliding control during in-and-out connection and the range control of the distance between the super-block core button and the mortise and tenon joint after connection and rotation; and is

The two sets of connection structure units forming the connection are isomorphic, and when the tenons of the two pairs of mortise and tenon joints are oppositely and correspondingly close to the mortise of the other pair and are simultaneously butted, the two super block buckling cores are rotationally slid and synchronously clamped against the super block clamping cores of the other pair; after the two pairs of mortise and tenon joints are put in place, the two pairs of super block core clamping buckling cores can move and rotate in a control interval in a three-dimensional relative mode; the two pairs of connected tenon-and-mortise connection structures can be disconnected through the reverse movement, and when the two tenons leave the opposite mortise, the two super-block buckling cores move reversely when entering the opposite super-block buckling cores to rotate and slide away from the opposite super-block clamping cores; and is

The elements of the various parts of the connection structure have suitable size ratios and suitable distances and clearances suitable for the operations of connection separation and engagement and relative rotation, including peripheral rounded engagement of the three major parts, edge radiused profiling and multiple chamfered sliding surfaces,

the tenon, the mortise and the super-block clamping core buckling core form a group of basic connecting structure units, namely pseudo-block connecting structure units for short, and object blocks which are provided with the above super-block connecting structure units at multiple sides and have the same structure with each unit are pseudo-blocks for short.

2. The connection structure according to claim 1, wherein the material of the connection structure unit requires suitable elasticity and a certain rigidity.

3. The connection structure according to claim 1, wherein the mortise portion and the super block core snap core are fused together, and the tenon portion is extended correspondingly.

4. The connection structure according to claim 1, wherein the connection structure unit is formed with new mortise and tenon structures on both sides of the side block in a direction perpendicular to the connection structure, thereby achieving the telescopic stacking.

5. The connection structure of claim 1, wherein the connection structure unit can form a frame-based series product, and the connection structure unit is required to be isomorphic.

6. The connection structure according to claim 1, wherein the connection structure units can form a series of products based on a body, the connection structure units are required to be isomorphic, and the body part of the object can be designed with functional contents.

7. The connection structure according to claim 1, wherein the connection structure units can be constructed based on a plurality of polygon series products for multi-field and multi-scene applications, each connection structure unit on each side of the same polygon is isomorphic, the rotation axes of each connection structure unit between polygons with different specifications are equal in length, and the rotation directions of each connection structure unit are generally required to be consistent and can also be designed to be reverse.

8. The connecting structure of claim 7 wherein said connecting structure unit forms a set of 24 positive cubic super blocks and 6 positive cubic super blocks of equal configuration; further, the 24 cube-positive super-blocks can be accommodated in the cube-positive box spliced by the 6 cube-positive super-blocks in a mortise-tenon mode.

9. The connecting structure according to claim 8, wherein said connecting structure unit can construct multi-specification and multi-quantity multi-version series of packaged products, and accordingly can form diversified packages.

10. The connection structure according to claim 1, wherein the connection structure unit is not limited to integrated integral design and production, and can form a multi-component modular diversified product with the same structure of the block connection structure, including a component product element with each component of the connection structure.

Images