CN109173288B - Intelligent mortise and tenon toy splicing module system - Google Patents

Abstract

The application discloses a Chinese intelligent mortise and tenon toy splicing module system, which comprises the following specific embodiments: the upper layer of the intelligent mortise and tenon module is provided with dovetail grooves which are regularly distributed; the middle layer is a base plate; the lower layer consists of a plurality of downward protruding table tops, a dovetail groove is formed between two adjacent table tops, each table top is provided with a downward protruding tenon, the downward protruding tenon is embedded with a dovetail mortise of the upper layer of the other intelligent mortise and tenon module, and the dovetail groove between the table tops and the dovetail groove of the upper layer of the other intelligent mortise and tenon module form a double dovetail groove; the double-dovetail penetrating belt is inserted into the double-dovetail groove and used for fixing the two intelligent mortise and tenon modules. According to the intelligent mortise and tenon module, the intelligent mortise and tenon module is expanded according to the principle of the mortise and tenon structure, and building of any shape can be achieved only by using the intelligent mortise and tenon module and the double-dovetail threading belt.

Description

Intelligent mortise and tenon toy splicing module system

Technical Field

The application relates to an intelligent toy, in particular to an extensible mortise and tenon toy based on mortise and tenon splicing, and particularly relates to a module system for splicing and splicing intelligent mortise and tenon toys.

Background

The mortise and tenon structure is a unique mode for interconnecting ancient wood members in China. The mortise and tenon means a concave part in the wood member, the tenon means a convex part in the wood member, and the concave and convex parts are mutually buckled to firmly connect two or more wood members. The mortise and tenon structure has the characteristics of various forms, reasonable structure, attractive appearance, difficult deformation, firmness, reliability, scientific and reasonable property and the like. The mortise and tenon structure is a structural mode created by ancient craftsmen in China, and fully embodies the wisdom of ancient people in China.

The use of mortise and tenon structures as intelligent crystals in Chinese nationalities has not been very popular in toys. At present, products are used for fixing the mortise and tenon structure, such as toy handguns spliced by the mortise and tenon structure, but due to the limitation of the structure and the modeling of the products, the products can be spliced only in a fixed mode and the modeling, and the expandability is not strong.

Disclosure of Invention

The application aims to provide an intelligent mortise and tenon toy splicing module system which solves the technical problems in the background art.

In a first aspect, the application provides a system of intelligent mortise and tenon toy splicing modules, which comprises an intelligent mortise and tenon module and a double-dovetail threading belt, and is characterized in that: the upper layer of the intelligent mortise and tenon module is provided with a plurality of regularly distributed dovetail grooves for connection and positioning; the middle layer is a base plate; the lower layer consists of a plurality of downward protruding table tops, a dovetail groove is formed between two adjacent table tops, each table top is provided with a downward protruding tenon, the downward protruding tenon is embedded with a dovetail mortise of the upper layer of the other intelligent mortise and tenon module, and the dovetail groove between the table tops and the dovetail groove of the upper layer of the other intelligent mortise and tenon module form a double dovetail groove; the double-dovetail penetrating belt is inserted into the double-dovetail groove and used for fixing the two intelligent mortise and tenon modules.

In some embodiments, the side edge of the middle layer of the intelligent mortise and tenon module is provided with a dovetail groove and/or a dovetail.

In some embodiments, the tenon protruding downwards from the lower table surface of the intelligent mortise and tenon module can be one or more of a straight tenon, an L-shaped tenon, a cross-shaped tenon and a T-shaped tenon.

In some embodiments, the smart mortise and tenon module may include any number of counter tops, including but not limited to the following: 2 x 4 mesa, 2 x 2 mesa, 1 x 4 mesa.

In some embodiments, the sizes of the regularly distributed dovetail grooves on the upper layer of the intelligent mortise and tenon module are the same.

In some embodiments, the sizes of the dovetail grooves on the periphery of the upper layer of the intelligent mortise and tenon module are the same, and the sizes of the dovetail grooves on the middle part are larger than the sizes of the dovetail grooves on the periphery.

In a second aspect, the application provides a smart mortise toy splicing module system, which comprises a smart mortise module and a double-dovetail threading belt, and is characterized in that: the upper layer of the intelligent mortise and tenon module is provided with dovetail grooves and straight mortise grooves which are connected and positioned in a row; the middle layer is a base plate; the lower layer consists of a plurality of downward protruding table tops, a dovetail groove is formed between two adjacent table tops, each table top is provided with a downward protruding tenon, the downward protruding tenon is embedded with a straight tenon-and-mortise of the upper layer of the other intelligent mortise-and-tenon module, and the dovetail groove between the table tops and the dovetail groove of the upper layer of the other intelligent mortise-and-tenon module form a double dovetail groove; the double-dovetail penetrating belt is inserted into the double-dovetail groove and used for fixing the two intelligent mortise and tenon modules.

In some embodiments, the side edges of the middle layer of the intelligent mortise and tenon module in the intelligent mortise and tenon toy splicing module system are provided with dovetail grooves and/or dovetails.

In some embodiments, the downward protruding tenon of the lower table top of the intelligent mortise and tenon module in the intelligent mortise and tenon toy splicing module system can be one or more of a straight tenon, an L-shaped tenon, a cross-shaped tenon and a T-shaped tenon.

In some embodiments, in the smart mortise and tenon toy jigsaw module system, based on one table top, the smart mortise and tenon module may comprise any number of table tops, including but not limited to the following: 2 x 4 mesa, 2 x 2 mesa, 1 x 4 mesa.

According to the application, an expandable intelligent mortise and tenon module and a double-dovetail penetrating belt are creatively developed according to the principle of a mortise and tenon structure, wherein a tenon on the lower table surface of a first intelligent mortise and tenon module is inserted into a dovetail groove (mortise) on the upper layer of a second intelligent mortise and tenon module to play a role of positioning and limiting, so that the relative displacement of the spliced two intelligent mortise and tenon modules on a plane is limited and cannot move left and right and back, and meanwhile, the dovetail groove between the lower table surfaces of the first intelligent mortise and tenon module is aligned with the dovetail groove on the upper layer of the second intelligent mortise and tenon module to form the double-dovetail groove, and the double-dovetail penetrating belt is inserted into the double-dovetail groove, thereby locking the two intelligent mortise and tenon modules in the vertical direction, limiting the up-down relative movement and locking the two modules in three directions. Meanwhile, other modules can be spliced infinitely, a constructor can realize the construction of any shape only by using the intelligent mortise and tenon module and the double-dovetail threading belt, the shape changes with the originality, the expandability and the playability of the product are improved, and simultaneously, the imagination and the creativity of the constructor can be well exercised.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the accompanying drawings in which:

fig. 1 is a schematic diagram of a smart mortise and tenon module structure in an embodiment of a system 1 according to the present application;

FIG. 2 is a schematic illustration of a double-dovetail threading configuration in one embodiment of a system 1 according to the present application;

FIG. 3 is a schematic diagram of two intelligent mortise and tenon modules in two embodiments of the system 1 according to the present application;

FIG. 4 is a schematic diagram of the manner in which tiles are made in one embodiment of the system 1 according to the present application;

FIG. 5 is a schematic diagram of a smart mortise and tenon module with dovetail grooves on the side edges of an intermediate layer of the system 1 according to the application;

FIG. 6 is a schematic illustration of the manner in which the middle layer of the system 1 according to the present application is tiled in one embodiment with dovetails on the sides;

FIG. 7 is a schematic view of a smart mortise and tenon module with dovetail grooves and dovetails on the side edges of the middle layer of the system 1 according to the application;

FIG. 8 is a schematic illustration of the manner in which the side edges of the middle tier of the system 1 are patched in one embodiment of the dovetail slots and dovetails according to the present application;

fig. 9 is a schematic diagram of a smart mortise and tenon module structure in one embodiment of the system 2 according to the present application;

FIG. 10 is a schematic diagram of the manner in which tiles are displayed in one embodiment of the system 2 according to the present application.

Detailed Description

The application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application.

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. The application will be described in detail below with reference to the drawings in connection with embodiments.

Fig. 1 is a schematic diagram of a smart mortise and tenon module structure in an embodiment of a system 1 according to the present application. Fig. 1 shows six views and a perspective view of an intelligent mortise and tenon module in the embodiment, and as shown in the figure, a plurality of dovetail grooves for connection and positioning are formed in the upper layer of the intelligent mortise and tenon module. For example: reference numerals 112, 113 denote portions of the dovetail slots of the upper layer.

In the embodiment, the connecting and positioning dovetail grooves on the upper layer of the intelligent mortise and tenon module are regularly distributed and arranged in rows, the sizes of the peripheral dovetail grooves are the same, and the size of the dovetail groove in the middle part is larger than that of the peripheral dovetail grooves. Wherein, the dovetail groove with larger size in the middle part mainly plays a role in positioning.

In some optional implementations of this embodiment, the sizes of the regularly distributed dovetail grooves on the upper layer of the smart mortise and tenon modules are the same.

In this embodiment, the middle layer of the smart mortise and tenon module is a foundation plate 201, so that the mortise and tenon components of the upper and lower layers are attached to the foundation plate.

In this embodiment, the lower layer of the smart mortise and tenon module is first composed of a plurality of downward protruding table boards, and a dovetail groove is formed between two adjacent table boards. For example, reference numerals 301, 302, 303 in fig. 1 are lower level partially downwardly convex mesas, wherein a dovetail groove 312 is formed between mesa 301 and mesa 302, and a dovetail groove 313 is formed between mesa 301 and mesa 303. In addition, every mesa has bellied tenon down, should be downthehole tenon fourth of the twelve earthly branches with the dovetail mortise and tenon fourth of the twelve earthly branches of another wisdom mortise and tenon fourth of the twelve earthly branches module upper strata mutually inlay for when two wisdom mortise and tenon fourth of the twelve earthly branches modules level place, restrict the removal of controlling about these two wisdom mortise and tenon fourth of the twelve earthly branches modules, play location and spacing effect. For example, in FIG. 1, the mesas 301, 303 have downwardly projecting L-shaped tenons 321, 323, respectively. This L tenon can detain mutually with the dovetail mortise and tenon fourth of twelve earthly branches of another wisdom mortise and tenon fourth of twelve earthly branches module upper strata, restricts the removal of controlling around these two wisdom mortise and tenon fourth of twelve earthly branches modules. In addition, when the intelligent mortise and tenon joint modules are spliced, the dovetail grooves between the table boards of the lower layers of the intelligent mortise and tenon joint modules are aligned with the dovetail grooves of the upper layers of the other intelligent mortise and tenon joint modules to form double dovetail grooves; the double dovetail penetrating belt is inserted into the double dovetail groove and used for fixing the two intelligent mortise and tenon modules and limiting the two intelligent mortise and tenon modules to move up and down so as to lock in the vertical direction. Wherein the double dovetail lacing tape is shown in figure 2.

In some alternative implementations of the present embodiments, the downward protruding tongue of the lower deck of the intelligent mortise and tenon module may be one or more of a straight tongue, an L-shaped tongue, a cross-shaped tongue, and a T-shaped tongue. But are not limited to, the several exemplified above.

In some alternative implementations of the present embodiment, the smart mortise and tenon module may include any number of tables, including but not limited to the following: 2 x 4 mesa, 2 x 2 mesa, 1 x 4 mesa. For example, a 2 x 2 bench top smart mortise and tenon module, as shown in fig. 3 (a). The number and size of the dovetail grooves on the upper layer of the smart mortise and tenon module can be changed according to the needs and design, as shown in fig. 3 (b).

With continued reference to fig. 4, fig. 4 shows a manner of splicing 4 intelligent mortise and tenon joints, wherein the uppermost layer is the intelligent mortise and tenon joint module 1, the middle layer is the intelligent mortise and tenon joint module 2, and the two modules are stacked together in a mortise and tenon joint manner and then fixed through the double-dovetail threading belt 12; the double-dovetail threading belt 231 and 232 fixes the intelligent mortise and tenon module 2 of the middle layer and the intelligent mortise and tenon module 3 of the bottom layer together, and the double-dovetail threading belt 24 fixes the intelligent mortise and tenon module 2 of the middle layer and the intelligent mortise and tenon module 4 of the bottom layer together. It can be seen from the figure that the upper layers of the intelligent mortise and tenon modules 1, 2, 3 and 4 are provided with unused dovetail grooves, and the intelligent mortise and tenon modules can be spliced with the modules complementary with the unused dovetail grooves, and simultaneously, the lower layers of the intelligent mortise and tenon modules 3 and 4 can be spliced with other modules. Fig. 4 shows only one splicing mode, but the structure of the intelligent mortise and tenon modules can be known, and the intelligent mortise and tenon modules 1, 2, 3 and 4 are spliced and spliced in a plurality of shapes, which are not listed here.

According to the application, the extensible intelligent mortise and tenon module is creatively developed according to the mortise and tenon structure principle, a user can build any shape by only using the intelligent mortise and tenon module and the double-dovetail threading belt, the shape changes with originality, the expandability and the playability of the product are improved, and the imagination and creativity of the user are exercised; in addition, the intelligent mortise and tenon module and the double-dovetail threading can be self-formed into a building system, and can also be used as a basic module in a more complex building system; in addition, wisdom mortise and tenon module contains the mortise and tenon structure of multiple type, and it is used in the toy, to the propaganda and inherit chinese traditional culture can play very positive effect.

In this embodiment, the intermediate layer of the smart mortise and tenon module is provided with a dovetail groove on its side, and each side may be provided with a dovetail groove or a part of the sides may be provided with a dovetail groove according to specific needs or designs, and of course, one third of the dovetail grooves or other proportions of the dovetail grooves may be provided on one end of the side, or both ends may be provided with a dovetail groove, for the same side.

With continued reference to fig. 5, fig. 5 is a schematic diagram of a smart mortise and tenon module according to an embodiment of the present application in which a dovetail groove is formed at a side of an intermediate layer of the system 1. As shown in the figure, four sides of the intelligent mortise and tenon module are provided with dovetail grooves, namely 501, 502, 503 and 504 in sequence. When the intelligent modules with the dovetail grooves on the two sides are horizontally and oppositely placed, the two dovetail grooves form a double dovetail groove, the double dovetail penetrating belts penetrate through the double dovetail grooves, so that the two intelligent mortise and tenon modules can be fixed, as shown in fig. 6, the intelligent mortise and tenon modules 601 and 602 are horizontally and oppositely placed, and the intelligent mortise and tenon modules 601 and 602 are fixedly connected through the double dovetail penetrating belts 603. This embodiment has realized infinitely coupling extension wisdom mortise and tenon fourth of twelve earthly branches module in the horizontal direction.

In this embodiment, the intermediate layer of the smart mortise module is provided with a dovetail groove and a dovetail, and according to specific needs or designs, a part of the intermediate layer may be provided with a dovetail groove, and a part of the intermediate layer may be provided with a dovetail, and of course, for one side, one end of the intermediate layer may be provided with a dovetail groove, and the other end may be provided with a dovetail.

With continued reference to fig. 7, fig. 7 is a schematic diagram of a smart mortise and tenon module according to one embodiment of the present application in which the intermediate layer side of the system 1 is provided with a dovetail groove and a dovetail. As shown, three sides of the intelligent mortise and tenon module are provided with dovetail grooves, namely 701, 702 and 703 in sequence, and the other side is provided with a dovetail 704. When the two intelligent mortise and tenon modules are horizontally placed as shown in fig. 8, dovetails on the sides of the intelligent mortise and tenon modules 801 are inserted into dovetail grooves of the intelligent mortise and tenon modules 802, and the two intelligent mortise and tenon modules are meshed and tightly fixed. This embodiment has realized not wearing the area and infinitely coupling extension wisdom tenon fourth of twelve earthly branches module with two dovetails in the horizontal direction.

Referring further to fig. 9, a schematic diagram of the intelligent mortise and tenon module architecture in one embodiment of the system 2 according to the present application is shown. Compared with the intelligent mortise and tenon module of the system 1, the intelligent mortise and tenon module in the system 2 is provided with dovetail grooves and straight mortise grooves which are connected and positioned in a row at the upper layer. As shown in fig. 9, the marks 901, 903, 905, 907 are straight mortises, and the marks 902, 904, 906 are dovetail grooves.

With continued reference to FIG. 10, a schematic diagram of the manner in which tiles are populated in one embodiment of the system 2 according to the present application is shown. As shown in the figure, the smart mortise and tenon modules 1, 2 and 3 are spliced together, the smart mortise and tenon module 2 is provided with straight mortise grooves 21, 22, 23 and 24, the smart mortise and tenon module 3 is provided with straight mortise grooves 31 and 32, and tenons on the table top of the smart mortise and tenon module 1 are buckled with straight mortise and tenon mortise on the upper layer of the smart mortise and tenon module 2 (shown as 23 and 24), tenons on the table top of the smart mortise and tenon module 1 are buckled with straight mortise and tenon on the upper layer of the smart mortise and tenon module 3 (shown as 31 and 32), and meanwhile, double dovetail penetrating belts 121, 123 and 131 are penetrated into double dovetail grooves formed by the 3 smart mortise and tenon modules so as to fix 3 smart mortise and tenon modules. The arrangement of the dovetail grooves and the straight mortise is changed, and the moving step length (the distance of one dovetail groove or straight mortise is defined as one step length), for example, the intelligent mortise module 1 can only move by a multiple of 2 when moving leftwards and rightwards. This embodiment increases the interest of the spelling.

In some alternative implementations of this embodiment, the intermediate layer of the smart mortise and tenon module is provided with a dovetail groove and/or a dovetail on the side edge. To achieve infinite horizontal expansion.

In some alternative implementations of the present embodiments, the downward protruding tongue of the lower deck of the intelligent mortise and tenon module may be one or more of a straight tongue, an L-shaped tongue, a cross-shaped tongue, and a T-shaped tongue. But are not limited to, the several exemplified above.

In some alternative implementations of the present embodiment, the smart mortise and tenon module may include any number of tables, including but not limited to the following: 2 x 4 mesa, 2 x 2 mesa, 1 x 4 mesa.

According to the intelligent mortise and tenon joint module, the expandability in the appearance and the lap joint mode is fully considered, mortise and tenon joint is carried out on the front side and the back side of the module, and the intelligent mortise and tenon joint module is locked through dovetail threading, so that the modeling can be arbitrarily built according to the originality of a constructor, the expandability is high, various models which are not fixed can be realized, and the imagination and creativity of the constructor can be well exercised. Meanwhile, the flexibility and the wisdom of the mortise and tenon joints of the Chinese are highlighted, and the mortise and tenon joint culture of the Chinese is further inherited and developed.

The above description is only illustrative of the preferred embodiments of the present application and of the principles of the technology employed. It will be appreciated by persons skilled in the art that the scope of the application referred to in the present application is not limited to the specific combinations of the technical features described above, but also covers other technical features formed by any combination of the technical features described above or their equivalents without departing from the inventive concept.

Claims (10)

1. The utility model provides a wisdom mortise and tenon toy is pieced together and is taken module system, including wisdom mortise and tenon module and two forked tail, its characterized in that:

the upper layer of the intelligent mortise and tenon module is provided with a plurality of regularly distributed dovetail grooves for connection and positioning;

the middle layer is a base plate;

the lower layer consists of a plurality of downward protruding table tops, a dovetail groove is formed between two adjacent table tops, each table top is provided with a downward protruding tenon, the downward protruding tenon is embedded with the dovetail groove mortise of the upper layer of the other intelligent mortise and tenon module, and the dovetail groove between the table tops and the dovetail groove of the upper layer of the other intelligent mortise and tenon module form a double dovetail groove;

the double-dovetail penetrating belt is inserted into the double-dovetail groove and used for fixing the two intelligent mortise and tenon modules.

2. The intelligent mortise and tenon toy building module system according to claim 1, characterized in that:

and dovetail grooves and/or dovetails are formed in the side edges of the middle layer of the intelligent mortise and tenon module.

3. A smart mortise toy jigsaw module system according to one of claims 1 or 2, characterized in that:

the tenon with the downward bulge of the lower table surface of the intelligent mortise and tenon module can be one or more of a straight tenon, an L-shaped tenon, a cross tenon and a T-shaped tenon.

4. A smart mortise toy jigsaw module system according to claim 3 characterized in that:

based on a table, the smart mortise and tenon module may include any number of tables, including but not limited to the following: 2 x 4 mesa, 2 x 2 mesa, 1 x 4 mesa.

5. The intelligent mortise and tenon toy building module system according to claim 4, characterized in that:

the sizes of a plurality of regularly distributed dovetail grooves on the upper layer of the intelligent mortise and tenon joint module are the same.

6. The intelligent mortise and tenon toy building module system according to claim 4, characterized in that:

the sizes of the dovetail grooves on the periphery of the upper layer of the intelligent mortise and tenon module are the same, and the sizes of the dovetail grooves on the middle part of the intelligent mortise and tenon module are larger than the sizes of the dovetail grooves on the periphery.

7. The utility model provides a wisdom mortise and tenon toy is pieced together and is taken module system, including wisdom mortise and tenon module and two forked tail, its characterized in that:

the upper layer of the intelligent mortise and tenon module is provided with dovetail grooves and straight mortise grooves which are connected and positioned in a row;

the middle layer is a base plate;

the lower layer consists of a plurality of downward protruding table tops, a dovetail groove is formed between two adjacent table tops, each table top is provided with a downward protruding tenon, the downward protruding tenon is embedded with a straight tenon-and-mortise of the upper layer of the other intelligent mortise-and-tenon module, and the dovetail groove between the table tops and the dovetail groove of the upper layer of the other intelligent mortise-and-tenon module form a double dovetail groove;

the double-dovetail penetrating belt is inserted into the double-dovetail groove and used for fixing the two intelligent mortise and tenon modules.

8. The intelligent mortise and tenon toy building module system according to claim 7, characterized in that:

and dovetail grooves and/or dovetails are formed in the side edges of the middle layer of the intelligent mortise and tenon module.

9. A smart mortise toy jigsaw module system according to one of claims 7 or 8, characterized in that:

the tenon with the downward bulge of the lower table surface of the intelligent mortise and tenon module can be one or more of a straight tenon, an L-shaped tenon, a cross tenon and a T-shaped tenon.

10. The intelligent mortise and tenon toy building module system according to claim 9, characterized in that:

based on a table, the smart mortise and tenon module may include any number of tables, including but not limited to the following: 2 x 4 mesa, 2 x 2 mesa, 1 x 4 mesa.