CN109745714A - A kind of bi-coordinate system connection modular system - Google Patents

Abstract

The invention discloses a kind of bi-coordinate systems to connect modular system, cell block in modular system is octagonal unit block made of being merged as two square brick cell block superpositions, angle between the adjacent two sides of octagonal unit block is in 45 °, the right and lower section of cell block A1 is provided with tenon, its corresponding top and left side are provided with mortise, only right side is provided with tenon to cell block A2, other sides are provided with mortise, bi-coordinate system cell block A3 after merging is provided with tenon on its upper left side, right side and lower section are also equipped with tenon, and mortise is provided on other sides, a cell block in bi-coordinate system connection modular system has the function of multiple square brick cell blocks, it is more flexible changeable when in use, the type and producer that these accessories are remembered when playing building blocks conducive to children save production cost, and Cell block in bi-coordinate system connection modular system has the function of that square brick cell block does not have, and connection direction is more.

Description

A kind of bi-coordinate system connection modular system

Technical field

The present invention relates to a kind of modular system, specifically a kind of bi-coordinate system connects modular system.

Background technique

Building blocks are all square or rectangulars mostly now, and link direction is mostly orthogonal two directions between building blocks Extend.Some building block unit grown forms are consistent, only link tenon direction and quantity is different, although the only difference of a bit Different functions is formed, when building some moulding, it may be necessary to constantly switching building block unit, so that building block unit type is opposite It is more, it is unfavorable for remembeing the type of these units when children play building blocks, is also unfavorable for producer and saves production cost.

Summary of the invention

The purpose of the present invention is to provide a kind of bi-coordinate systems to connect modular system, to solve to propose in above-mentioned background technique The problem of.

To achieve the above object, the invention provides the following technical scheme:

A kind of bi-coordinate system connects modular system, and the cell block in modular system is closed by two square brick cell blocks superpositions Octagonal unit block made of and, the angle between the adjacent two sides of octagonal unit block are in 45 °, the right of cell block A1 and under Side is provided with tenon, its corresponding top and left side are provided with mortise, and only right side is provided with tenon, other sides to cell block A2 Face is provided with mortise, and the bi-coordinate system cell block A3 after merging is provided with tenon on its upper left side, and right side and lower section are also provided with There is tenon, and is provided with mortise on other sides, when bi-coordinate system cell block A3 original state, the function with cell block A1 It is consistent, after bi-coordinate system cell block A3 rotates clockwise 135 °, is consistent with the function of cell block A2.

The positive Middle face of the bi-coordinate system cell block A3 is provided with round mortise, uniformly sets in a ring on the outside of the circle mortise Eight round mortises are equipped with, and each round mortise corresponds to a side of bi-coordinate system cell block A3.

Several square mortises are provided at the bi-coordinate system cell block A3 front edge, square mortise is along double The side of coordinate system cell block A3 is evenly distributed, the square mortise in corresponding three of each side.

Round mortise there are two being symmetrical arranged on each side the bi-coordinate system cell block A3.

Each side edge length in the bi-coordinate system cell block A3 main view is equal.

As a further solution of the present invention:

As further scheme of the invention:

Compared with prior art, the beneficial effects of the present invention are:

A cell block in bi-coordinate system connection modular system has the function of multiple square brick cell blocks, when in use more Add flexible and changeable, remembers that the type of these accessories and producer save production cost, and bi-coordinate system when playing building blocks conducive to children Cell block in connection modular system has the function of that square brick cell block does not have, and connection direction is more, connection side Formula is more abundant.

Detailed description of the invention

Fig. 1 is the cell block function constitution map in bi-coordinate system connection modular system.

Fig. 2 is another cell block function constitution map in bi-coordinate system connection modular system.

Fig. 3 connects the knot when bi-coordinate system cell block in modular system or more both sides are longer than other each sides for bi-coordinate system Structure schematic diagram.

Fig. 4 is the specific connecting method schematic diagram in bi-coordinate system connection modular system.

Fig. 5 is another specific connecting method schematic diagram in bi-coordinate system connection modular system.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Specific embodiment 1:

Please refer to Fig. 1 and Fig. 3, in the embodiment of the present invention, a kind of bi-coordinate system connects modular system, the cell block in modular system It is that octagonal unit block made of merging is superimposed as two square brick cell blocks, between the adjacent two sides of octagonal unit block Angle be in 45 °, the right and lower section of cell block A1 is provided with tenon, its corresponding top and left side are provided with mortise, Only right side is provided with tenon to cell block A2, and other sides are provided with mortise, and the bi-coordinate system cell block A3 after merging is on its left side Top is provided with tenon, and right side and lower section are also equipped with tenon, and mortise is provided on other sides, bi-coordinate system unit When block A3 original state, it is consistent with the function of cell block A1, after bi-coordinate system cell block A3 rotates clockwise 135 °, with cell block The function of A2 is consistent.

The positive Middle face of the bi-coordinate system cell block A3 is provided with round mortise, uniformly sets in a ring on the outside of the circle mortise Eight round mortises are equipped with, and each round mortise corresponds to a side of bi-coordinate system cell block A3.

Several square mortises are provided at the bi-coordinate system cell block A3 front edge, square mortise is along double The side of coordinate system cell block A3 is evenly distributed, the square mortise in corresponding three of each side.

Round mortise there are two being symmetrical arranged on each side the bi-coordinate system cell block A3.

Each side edge length in the bi-coordinate system cell block A3 main view is equal.

Specific embodiment 2:

Please refer to Fig. 2 and Fig. 3, in the embodiment of the present invention, a kind of bi-coordinate system connects modular system, the cell block in modular system It is to be merged by two square brick cell blocks in 45 ° of superpositions, is formed by octagonal unit block, eight sides after removing supplementary set part Angle between the adjacent two sides of shape cell block is in 45 °, and the right and lower section of cell block B1 is provided with tenon, it is corresponding thereon Side and left side are provided with mortise, and only two sides are provided with tenon to cell block B2 up and down, and other sides are provided with mortise, merge Bi-coordinate system cell block B3 afterwards is provided with tenon in its upper left and lower left, and right side and lower section are also equipped with tenon, and its It is provided with mortise on its side, when bi-coordinate system cell block B3 original state, is consistent with the function of cell block B1, bi-coordinate system After cell block B3 rotates clockwise 135 °, it is consistent with the function of cell block B2.

The positive Middle face of the bi-coordinate system cell block B3 is provided with round mortise, uniformly sets in a ring on the outside of the circle mortise Eight round mortises are equipped with, and each round mortise corresponds to a side of bi-coordinate system cell block B3.

Several square mortises are provided at the bi-coordinate system cell block B3 front edge, square mortise is along double The side of coordinate system cell block B3 is evenly distributed, the square mortise in corresponding three of each side.

Round mortise there are two being symmetrical arranged on each side the bi-coordinate system cell block B3.

Each side edge length in the bi-coordinate system cell block B3 main view is equal.

Specific embodiment 3:

Referring to Fig. 3, being based on specific embodiment 1 and specific embodiment 2, the side up and down in bi-coordinate system cell block main view can Greater than other sides, and it is corresponding, and inner circular mortise and square mortise quantity increase according to side edge length difference.

The working principle of the invention is:

In traditional square brick system, five building block units, five building block units can be roughly divided into according to the position of tenon It is respectively provided with different function, and the building block unit in bi-coordinate system connection modular system is in octagon, by two square bricks Unit center is overlapped, and is in after 45 degree of superpositions merge, to retain intersection part, can amplify out bi-coordinate system connection building blocks list Member, this bi-coordinate system connects building block unit, and there are two the functions of square brick unit for tool simultaneously；As shown in Figure 1, bi-coordinate system When cell block A3 original state, it is consistent with the function of cell block A1, after bi-coordinate system cell block A3 rotates clockwise 135 °, with list The function of first block A2 is consistent；Bi-coordinate system connection building block unit also has the function of that square brick unit does not have, such as Fig. 4 institute Show, the connecting method cannot be achieved in square brick unit, or as shown in figure 5, square brick unit is carrying out the splicing When mode, need using to two different building block units；Side up and down in bi-coordinate system cell block main view can be greater than it Its side, and it is corresponding, and inner circular mortise and square mortise quantity increase according to side edge length difference, at this time should The effect of bi-coordinate system cell block is identical as rectangle building blocks.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (5)

1. a kind of bi-coordinate system connects modular system, which is characterized in that the cell block in modular system is by two square products The wooden cell block is superimposed octagonal unit block made of merging, and the angle between the adjacent two sides of octagonal unit block is in 45 °, first The right and lower section of cell block (A1) are provided with tenon, its corresponding top and left side are provided with mortise, second unit block (A2) only right side is provided with tenon, and other sides are provided with mortise, and the bi-coordinate system cell block (A3) after merging is in its upper left Side is provided with tenon, and right side and lower section are also equipped with tenon, and are provided with mortise on other sides.

2. bi-coordinate system according to claim 1 connects modular system, which is characterized in that the bi-coordinate system cell block (A3) positive Middle face is provided with round mortise, is evenly arranged with eight round mortises on the outside of the circle mortise in a ring, and every A circle mortise corresponds to a side of bi-coordinate system cell block (A3).

3. bi-coordinate system according to claim 1 connects modular system, which is characterized in that the bi-coordinate system cell block (A3) several square mortises are provided at front edge, square mortise is equal along the side of bi-coordinate system cell block (A3) Even arrangement, the square mortise in corresponding three of each side.

4. bi-coordinate system according to claim 1 connects modular system, which is characterized in that the bi-coordinate system cell block (A3) round mortise there are two being symmetrical arranged on each side.

5. bi-coordinate system according to claim 1 connects modular system, which is characterized in that the bi-coordinate system cell block (A3) each side edge length in main view is equal.