CN113005841B - Seamless concatenation of dysmorphism subassembly and road of mating formation - Google Patents

Abstract

The application relates to a seamless concatenation of dysmorphism subassembly and road of mating formation. The application seamless concatenation subassembly of mating formation of dysmorphism include: the first splicing plates are sequentially connected and surround the periphery of the regular hexagonal plate; the first splice plate comprises a first longest side, a first secondary long side, a first shortest side and two first connecting sides; six second connecting edges with equal length are formed on the regular hexagonal plate; the length L of the first secondary long edge E, the length L of the second connecting edge and the length D of the first longest edge satisfy the relationship: e + L = D. The application seamless concatenation of dysmorphism subassembly and road of mating formation have regular dislocation and lay and pleasing to the eye advantage.

Description

Seamless concatenation of dysmorphism subassembly and road of mating formation

Technical Field

The application relates to a subassembly and the road of mating formation, especially relate to subassembly and road of mating formation are joined in marriage in seamless concatenation of dysmorphism.

Background

Under the large background of the artistic landscape effect, the design of characteristic pavement is increasingly emphasized, the corridor frame is a commonly used garden landscape structure, and the commonly used pavement modes are grid pavement and I-shaped pavement. The existing pavement mode is convenient to construct, small in loss, but relatively stiff and lacks of artistic pattern design.

Disclosure of Invention

Based on this, the utility model aims at, provide dysmorphism seamless concatenation subassembly and road of mating formation, it has regular dislocation and lays and pleasing to the eye advantage.

One aspect of the application provides a special-shaped seamless splicing and paving assembly which comprises first splicing plates and a regular hexagonal plate, wherein the first splicing plates are sequentially connected and surround the periphery of the regular hexagonal plate;

the first splice plate comprises a first longest side, a first secondary long side, a first shortest side and two first connecting sides; one end of the first secondary long side is connected with one end of the first longest side, and an included angle formed between the first longest side and the first secondary long side is 60 degrees; one end of the first shortest side is connected with the other end of the first longest side, and an included angle formed by the first shortest side and the first longest side is 90 degrees; one ends of the two first connecting edges are connected with each other, and the included angle of the two first connecting edges is 120 degrees; the other end of the first connecting edge is connected with the other end of the first secondary long edge, and the other end of the first connecting edge is connected with the other end of the first shortest edge;

six second connecting edges with equal length are formed on the regular hexagonal plate;

the length E of the first secondary long edge, the length L of the second connecting edge and the length D of the first longest edge satisfy the following relation: e + L = D.

This application seamless concatenation subassembly of mating formation of dysmorphism, through setting up first splice plate to six first splice plates set up around regular hexagon shaped plates in proper order, thereby form the subassembly of mating formation, arbitrary two subassemblies of mating formation can freely splice, the figure position that forms after the concatenation moreover is crisscross, the edge is irregular, but can seamless concatenation, but obtain irregular but seamless road. The road thus formed is both aesthetically pleasing and flat.

Further, the regular hexagonal plate comprises two second splicing plates; the two second splicing plates are arranged in central symmetry and spliced to form the regular hexagonal plate.

Further, the second splice plate comprises a second longest side, a second shortest side, a second connecting side and a second shortest side; the second longest side, the second shortest side, one of the second joining sides, the other of the second joining sides, and the second longest side are sequentially joined; the included angle between the second secondary long edge and one second connecting edge, the included angle between one second connecting edge and the other second connecting edge, and the included angle between the other second connecting edge and the second shortest edge are respectively 120 degrees;

the length m of the second secondary long edge, the length n of the second shortest edge and the length L of the second connecting edge satisfy the relationship: m + n = L.

Further, regular hexagon shaped plate includes two isosceles trapezoid boards, two isosceles trapezoid board is central symmetry setting to the concatenation forms regular hexagon shaped plate.

Further, regular hexagon board includes six regular triangle boards, and six regular triangle board connects gradually, and forms regular hexagon board.

Further, the first splicing plate is a wood plate, a stone plate or a ceramic plate.

Further, the regular hexagonal plate is a wood plate, a stone plate or a ceramic plate.

Furthermore, one of the second splicing plates is provided with a first color, and the other second splicing plate is provided with a second color.

A dysmorphism seamless splicing pavement road, including the above-mentioned dysmorphism seamless splicing pavement assembly of any scheme;

and a plurality of the special-shaped seamless splicing paving assemblies are sequentially spliced to form a pavement road in staggered distribution.

Further, the paved road is S-shaped.

For a better understanding and implementation, the present application is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a front view of an exemplary first splice bar of the present application;

FIG. 2 is a front view of an exemplary second splice bar of the present application;

FIG. 3 is a front view of another exemplary first splice bar of the present application;

FIG. 4 is a front view of another exemplary second splice bar of the present application;

FIG. 5 is a front view of an exemplary profiled seamless splice paving assembly of the present application;

FIG. 6 is a front view of another example shaped seamless splice paving assembly of the present application;

FIG. 7 is a front view of an exemplary profiled seamless splice paved road of the present application;

FIG. 8 is a front view of an exemplary hexagonal plate of the present application;

FIG. 9 is a front view of another exemplary hexagonal plate of the present application;

FIG. 10 is a front view of yet another exemplary hexagonal plate of the present application.

Detailed Description

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the present application. In the description of the present application, the meaning of "a plurality" is two or more unless otherwise specified.

FIG. 1 is a front view of an exemplary first splice bar of the present application; FIG. 2 is a front view of an exemplary second splice bar of the present application; FIG. 3 is a front view of another exemplary first splice bar of the present application; FIG. 4 is a front view of another exemplary second splice bar of the present application; FIG. 5 is a front view of an exemplary profiled seamless splice paving assembly of the present application; FIG. 6 is a front view of another example shaped seamless splice paving assembly of the present application; FIG. 7 is a front view of an exemplary profiled seamless splice paved road of the present application; FIG. 8 is a front view of an exemplary hexagonal plate of the present application; FIG. 9 is a front view of another exemplary hexagonal plate of the present application; FIG. 10 is a front view of yet another exemplary hexagonal plate of the present application.

Referring to fig. 1-10, an exemplary profiled seamless splicing paving assembly of the present application includes a first splicing plate a and a regular hexagonal plate 30, wherein a plurality of the first splicing plates a are sequentially connected to and surround the periphery of the regular hexagonal plate 30;

the first splice plate a comprises a first longest side 11, a first minor long side 12, a first shortest side 14 and two first connecting sides 13; one end of the first minor long side 12 is connected to one end of the first longest side 11, and an included angle between the first longest side 11 and the first minor long side 12 is 60 degrees; one end of the first shortest side 14 is connected to the other end of the first longest side 11, and an included angle between the first shortest side 14 and the first longest side 11 is 90 °; one ends of the two first connecting edges 13 are connected with each other, and the included angle between the two first connecting edges 13 is 120 degrees; the other end of one of the first connecting edges 13 is connected with the other end of the first minor long side 12, and the other end of the other of the first connecting edges 13 is connected with the other end of the first shortest side 14;

the regular hexagonal plate 30 is formed with six second joining edges 23 with equal length;

the length E of the first minor long side 12, the length L of the second joining side 23 and the length D of the first longest side 11 satisfy the relationship: e + L = D.

In some preferred embodiments, the regular hexagonal panel 30 includes two second splice panels B; the two second splicing plates B are arranged in central symmetry and spliced to form the regular hexagonal plate 30.

In some preferred embodiments, the second splice bar B comprises a second longest side 21, a second shortest side 22, a second shortest side 24, and two second joining sides 23; the second longest side 21, the second longest side 22, one of the second connecting sides 23, the other of the second connecting sides 23, and the second shortest side 24 are sequentially connected; and the included angle between the second minor long side 22 and one of the second connecting sides 23, the included angle between one of the second connecting sides 23 and the other second connecting side 23, and the included angle between the other second connecting side 23 and the second shortest side 24 are respectively 120 degrees;

the length m of the second minor long side 22, the length n of the second shortest side 24 and the length L of the second joining side 23 satisfy the relationship: m + n = L.

Referring to fig. 9, in some preferred embodiments, the regular hexagonal panels 30 include two isosceles trapezoidal panels, which are arranged in a central symmetry and are spliced to form the regular hexagonal panels 30.

Referring to fig. 10, in some preferred embodiments, the regular hexagonal plate 30 includes six regular triangular plates, which are connected in sequence and form the regular hexagonal plate 30.

In some preferred embodiments, the first splicing plate a is a wooden plate, a stone plate or a ceramic plate.

In some preferred embodiments, the hexagonal plate 30 is a wooden, stone or ceramic plate.

In some preferred embodiments, one of the second splicing plates B is provided with a first color, and the other second splicing plate B is provided with a second color.

Referring to fig. 7, the application discloses an exemplary irregular seamless splicing paved road, which comprises the irregular seamless splicing paved component according to any one of the above schemes;

and a plurality of the special-shaped seamless splicing paving assemblies are sequentially spliced to form a pavement road in staggered distribution.

In some preferred embodiments, the paved road is S-shaped.

In one example, the first longest side 11 is 770mm, the first shortest side 12 is 270mm, the first shortest side 14 is 150mm, and the first joining side 13 is 370mm; the second longest side 21 is 870mm, the second shortest side 22 is 300mm, the second shortest side 24 is 200mm, and the second joining side 23 is 500mm.

The working principle of the irregular seamless splicing paved road comprises the following steps:

as shown in the figure, the two second splicing plates B are symmetrically spliced along the center to form a regular hexagonal plate 30, and the six first splicing plates a are sequentially spliced and surround the periphery of the regular hexagonal plate 30, so that a flower-shaped irregular seamless splicing and paving assembly is formed. Any two irregular seamless splicing paving assemblies can be spliced seamlessly, and the first splicing plates A, the second splicing plates B and the second splicing plates B can be spliced seamlessly.

When two special-shaped seamless splicing paving assemblies are spliced, or when three special-shaped seamless splicing paving assemblies are spliced, a first connecting edge 13 of one special-shaped seamless splicing paving assembly is attached to a first connecting edge 13 of the other special-shaped seamless splicing paving assembly, and a first shortest edge 14 of one special-shaped seamless splicing paving assembly is attached to a first shortest edge 14 of the other special-shaped seamless splicing paving assembly; the first connecting edges 13 of the three special-shaped seamless splicing and paving components are respectively attached.

In addition, the two second splicing plates B can be respectively in two colors, so that a color effect is formed during splicing, and the colors can also be the same. The first splice plates A of the same irregular seamless splicing paving component can be respectively in two, three or even multiple colors so as to enhance the color effect.

The utility model provides a seamless concatenation of dysmorphism subassembly of mating formation can realize seamless joint during the concatenation each other, through parameterization programming, plans the special-shaped polygon combination of two modules of accessible, forms seamless connection's floor mat formation, is particularly useful for community park, and comprehensive park, art park etc. require higher place to the artistic modeling. The seamless concatenation of dysmorphism subassembly of mating formation of this application adopts the parameterization design gimmick, need not on-the-spot cutting, and through the accurate cutting of digit control machine tool, after processing is accomplished, the on-the-spot just can be laid according to the drawing and paste, and simple to operate is swift.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application.

Claims (6)

1. The utility model provides a subassembly of mating formation is joined in marriage in seamless concatenation of dysmorphism which characterized in that: the splicing plate comprises first splicing plates and a regular hexagonal plate, wherein the first splicing plates are sequentially connected and surround the periphery of the regular hexagonal plate;

the first splice plate comprises a first longest side, a first secondary long side, a first shortest side and two first connecting sides; one end of the first secondary long side is connected with one end of the first longest side, and an included angle formed between the first longest side and the first secondary long side is 60 degrees; one end of the first shortest side is connected with the other end of the first longest side, and an included angle formed by the first shortest side and the first longest side is 90 degrees; one ends of the two first connecting edges are connected with each other, and the included angle of the two first connecting edges is 120 degrees; the other end of the first connecting edge is connected with the other end of the first secondary long edge, and the other end of the first connecting edge is connected with the other end of the first shortest edge;

six second connecting edges with equal length are formed on the regular hexagonal plate;

the length E of the first secondary long edge, the length L of the second connecting edge and the length D of the first longest edge satisfy the following relation: e + L = D;

the regular hexagonal plate comprises two second splicing plates; the two second splicing plates are arranged in a central symmetry manner and are spliced to form the regular hexagonal plate;

the second splice plate comprises a second longest side, a second shortest side, a second longest side and two second connecting sides; the second longest side, one of the second connecting sides, the other of the second connecting sides and the second shortest side are sequentially connected; the included angle between the second secondary long edge and one second connecting edge, the included angle between one second connecting edge and the other second connecting edge, and the included angle between the other second connecting edge and the second shortest edge are respectively 120 degrees;

the length m of the second secondary long side, the length n of the second shortest side and the length L of the second connecting side satisfy the relationship: m + n = L;

or the regular hexagonal plates comprise two isosceles trapezoid plates which are arranged in a central symmetry manner and are spliced to form the regular hexagonal plates;

or, the regular hexagonal plate includes six regular triangle plates, and six regular triangle plates connect gradually to form the regular hexagonal plate.

2. The profiled seamless splice paving assembly of claim 1, further comprising: the first splicing plate is a wood plate, a stone plate or a ceramic plate.

3. The shaped seamless splice paving assembly of claim 2, further comprising: the regular hexagonal plates are wood plates, stone plates or ceramic plates.

4. The profiled seamless splice paving assembly of claim 1, wherein: one of the second splicing plates is provided with a first color, and the other second splicing plate is provided with a second color.

5. The utility model provides a road of mating formation is spliced to dysmorphism seamless which characterized in that: the profiled seamless splicing paving component comprises the profiled seamless splicing paving component of any one of claims 1-4;

and a plurality of the special-shaped seamless splicing paving assemblies are sequentially spliced to form a pavement road in staggered distribution.

6. The profiled seamless spliced paving road of claim 5, wherein: the paved road is S-shaped.

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