CN216454507U - Seamless splicing structure - Google Patents

Abstract

The utility model discloses a seamless splicing structure, which comprises a body; the body comprises two main faces and N side faces, wherein N is 3, 4 or 6; the N sides include a first side, a second side … …, and an nth side; the two major faces include a first major face and a second major face; the first side surface, the second side surface … … and the Nth side surface are irregular surfaces with the same shape and size; the main face includes N vertices; the N vertices include a first vertex, a second vertex … …, and an Nth vertex; a first side of the major face between the first vertex and the second vertex, and an nth side of the major face between the second vertex and the third vertex and an nth vertex … … of the major face between the nth vertex and the first vertex; and the first side and the second side … … have the same irregular curve at the Nth side. The utility model discloses a seamless mosaic structure has that the processing cost is lower, present irregular pattern, splice back do not have fretwork or cavity, can solve traditional regular figure mosaic structure and cause advantages such as the tired problem of aesthetic for people.

Description

Seamless splicing structure

Technical Field

The utility model relates to a mosaic structure, especially a seamless mosaic structure.

Background

In the construction industry, floor tiles or wall tiles of the same shape and size are often spliced together to form a wall or a ground. In the clothing industry, the same shape and size of cloth are often spliced together to form an integral cloth for cutting clothes; or a carpet formed by splicing cloth. In a common splicing structure, the edge portion is a regular pattern with a plane (the edge portion of the cross section is a straight line). For example, the common home decoration floor is mostly rectangular or square. Common road splicing floor tiles are mostly square. The butt joint surface between two adjacent splicing structures is in plane butt joint. The final spliced graph of the common splicing structure is a square structure with a medium pitch, and the patterns look uniform, so that people feel aesthetic fatigue.

With the aesthetic pursuit of different patterns and the requirement of different pattern functions, the general regular pattern splicing can not meet the requirements of people. Thus, novel patterns and patterns for different purposes have emerged.

The chinese patent application No. 201610353786.4 discloses a tangram type spliced carpet. This concatenation carpet comprises seven splice pieces concatenation, and seven splice pieces constitute a monoblock complete carpet, and a monoblock complete carpet is the shape of a first square: the specific shape of the seven splicing blocks is two first triangles, two second triangles, a third triangle, a second square and a parallelogram, and the seven splicing blocks are just spliced into a whole first square complete carpet. By adopting the technical scheme, the favorite patterns can be randomly put out according to the favorite of customers, and can be spliced into various characters, images, animals, bridges, houses, towers and the like, and also can be spliced into Chinese and English letters. The scheme has the advantages that: simple structure, easy and simple to handle, understand easily understood, moreover, also have in the enterprise's production process and have local defect on some carpet, the accessible cutting obtains little concatenation carpet, make full use of resource.

Although the spliced carpet changes the common regular shape and has certain innovation, the whole shape of the spliced carpet is still in a square structure and does not completely depart from the traditional thought of the traditional regular pattern. Moreover, each square is formed by 5 specifications of shapes, 5 different dies are needed, and the production cost is high.

In addition, in the existing splicing structure with irregular edges, hollow parts or cavities are easy to appear in the middle due to the butt joint problem between the irregular surfaces. Under the condition, splicing units in other shapes need to be manufactured to supplement hollow positions or cavities, structures in different shapes need additional molds, and the production cost of the splicing structure is increased.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a weak point for avoiding existence among the above-mentioned prior art provides a processing cost is lower, present the seamless mosaic structure of irregular pattern to solve traditional regular figure mosaic structure and cause the tired problem of aesthetic for people.

The utility model discloses a solve technical problem and adopt following technical scheme.

A seamless splicing structure is structurally characterized by comprising a body; the body comprises two main faces and N side faces, wherein N is 3, 4 or 6; the N sides include a first side, a second side … …, and an nth side; the two major faces include a first major face and a second major face; the figures formed by the outer contour lines of the first main surface and the second main surface are parallel planes with the same shape and are centrosymmetric figures; the first side surface, the second side surface … … and the Nth side surface are irregular surfaces with the same shape and size; the surface of the irregular surface is a non-plane and is in an irregular shape.

The main surface comprises N vertexes, and a positive N-shaped polygon is formed among the N vertexes; the N vertices include a first vertex P1, a second vertex P2 … …, and an Nth vertex;

a first side 101 of the main surface is located between the first vertex P1 and the second vertex P2, a second side 102 … … of the main surface is located between the second vertex P2 and the third vertex P3, and an nth side of the main surface is located between the nth vertex PN and the first vertex P1;

the nth sides of the first side 101 and the second side 102 … … are the same irregular curves; the outer contour line is formed by sequentially connecting the Nth edges of the first edge 101 and the second edge 102 … … end to end.

The utility model discloses a seamless mosaic structure's structural feature also lies in:

further, an intersection O of the irregular curve and a connecting line between two vertexes of the irregular curve is a symmetric center of the irregular curve. The irregular surface is formed by the movement of the irregular curved line along the normal direction of the plane formed by the outer contour of the main surface.

Further, the irregular curve is a smooth curve.

Further, the irregular curve is a zigzag line formed by connecting a plurality of straight lines in sequence.

Further, the irregular curve includes a curved line segment and a smooth curve segment. The irregular curve includes two line segments: a meander line consisting of straight lines and a smooth curved section consisting of curved lines.

Further, the first major surface or the second major surface is a plane.

Further, the first main surface or the second main surface is a curved surface.

Further, the first main surface or the second main surface is provided with an uneven pattern.

Further, an inner hole is formed in the first main face or the second main face.

Further, the inner hole is a through hole penetrating through the first main face and the second main face.

Compared with the prior art, the utility model discloses beneficial effect embodies:

the utility model discloses a seamless splicing structure, which comprises a body; the body comprises two main faces and N side faces, wherein N is 3, 4 or 6; the N sides include a first side, a second side … …, and an nth side; the two major faces include a first major face and a second major face; the first side surface, the second side surface … … and the Nth side surface are irregular surfaces with the same shape and size; the major face includes N vertices; the N vertices include a first vertex, a second vertex … …, and an Nth vertex; a first side of the major face between the first vertex and the second vertex, and an nth side of the major face between the second vertex and the third vertex and an nth vertex … … of the major face between the nth vertex and the first vertex; and the first side and the second side … … have the same irregular curve at the Nth side.

The utility model discloses a seamless mosaic structure has that the processing cost is lower, present irregular pattern, splice back do not have fretwork or cavity, can solve traditional regular figure mosaic structure and cause advantages such as the tired problem of aesthetic for people.

Drawings

Fig. 1 is a schematic diagram of a single splicing unit (with the fold line as an edge) according to an embodiment of the present invention (N is 4) (the letter a in the middle of the figure is used to identify the direction).

Fig. 2 is a schematic view of the central symmetry of a single side of the main face of fig. 1.

Fig. 3 is a schematic structural diagram of a plurality of splicing units of fig. 1 after splicing.

Fig. 4 is a schematic diagram of a single splicing unit (with a curve) according to the present invention (N is 4).

Fig. 5 is a schematic structural diagram of a plurality of splicing units of fig. 4 after splicing.

Fig. 6 is a schematic structural diagram of a single splicing unit (unit contains complex patterns) according to still another embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a plurality of splicing units of fig. 6 after splicing.

Fig. 8 is a schematic diagram of a single splicing unit (with fold lines) according to another embodiment of the present invention (N is 3).

Fig. 9 is a schematic structural diagram of a plurality of the splicing units of fig. 8 after splicing.

Fig. 10 is a schematic diagram of a single splicing unit (with fold lines) according to another embodiment of the present invention (N is 6).

Fig. 11 is a schematic structural view of a plurality of the splicing units of fig. 10 after splicing.

The present invention will be further explained by the following detailed description and the accompanying drawings

Detailed Description

Referring to fig. 1-11, the seamless splicing structure of the present invention comprises a body; the body comprises two main faces and N side faces, wherein N is 3, 4 or 6; the N sides include a first side, a second side … …, and an nth side; the two major faces include a first major face and a second major face; the figures formed by the outer contour lines of the first main surface and the second main surface are parallel planes with the same shape and are centrosymmetric figures; the first side surface, the second side surface … … and the Nth side surface are irregular surfaces with the same shape and size; the surface of the irregular surface is a non-plane and is in an irregular shape.

The main surface comprises N vertexes, and a positive N-shaped polygon is formed among the N vertexes; the N vertices include a first vertex P1, a second vertex P2 … …, and an Nth vertex;

a first side 101 of the main surface is located between the first vertex P1 and the second vertex P2, a second side 102 … … of the main surface is located between the second vertex P2 and the third vertex P3, and an nth side of the main surface is located between the nth vertex PN and the first vertex P1;

the nth sides of the first side 101 and the second side 102 … … are the same irregular curves; the outer contour line is formed by sequentially connecting the Nth edges of the first edge 101 and the second edge 102 … … end to end.

Further, an intersection O of the irregular curve and a connecting line between two vertexes of the irregular curve is a symmetric center of the irregular curve. The irregular surface is formed by the movement of the irregular curved line along the normal direction of the plane formed by the outer contour of the main surface.

Further, the irregular curve is a smooth curve.

Further, the irregular curve is a zigzag line formed by connecting a plurality of straight lines in sequence.

Further, the irregular curve includes a curved line segment and a smooth curve segment. The irregular curve includes two line segments: a meander line consisting of straight lines and a smooth curved section consisting of curved lines.

Further, the first major surface or the second major surface is a plane.

Further, the first main surface or the second main surface is a curved surface.

Further, the first main surface or the second main surface is provided with an uneven pattern. In a specific embodiment, the first main surface or the second main surface may be a front surface. The first main surface or the second main surface may be parallel to each other and have the same plane, or the main surface as the front surface may be an arc surface or a surface with a convex-concave pattern. The utility model discloses a structure when regard as ceramic tile or wall brick, generally can be provided with various patterns as positive principal. The main surface is not necessarily a plane, and may be an aesthetically pleasing pattern such as a rugged uneven surface. The pattern is a stone-like or wood-like pattern.

Further, an inner hole is formed in the first main face or the second main face.

Further, the inner hole is a through hole penetrating through the first main face and the second main face.

The inner hole may be a through hole penetrating through the first main surface and the second main surface, or may be a blind hole penetrating only through the first main surface or the second main surface.

The utility model discloses a seamless mosaic structure, N is 3, 4 or 6. When N is 3, it is a regular triangle, i.e. an equilateral triangle. When N is 4, the shape is a regular quadrangle, namely a square. When N is 6, the shape is a regular hexagon.

Such as the embodiment of fig. 1-7 when N is 4. In fig. 1, the solid line is an outer contour line of the main surface, and the broken line is a square formed by four vertices of the main surface. The first side 101 is rotated 90 ° counterclockwise around the second vertex P2 and then coincides with the second side 102; the second side 102 is rotated 90 ° counterclockwise around the third vertex P3 and then coincides with the third side 103. The third side 103 is rotated counterclockwise by 90 ° around a fourth vertex P4 and then coincides with the fourth side 104; the fourth side 104 is rotated 90 counter clockwise around the first apex P1 to coincide with the first side 101.

Similarly, it can be seen that:

the first side 101 is rotated 90 ° clockwise around the first apex P1 and coincides with the fourth side 104.

The second side 102 is rotated 90 ° clockwise about the second apex P2 to coincide with the first side 101.

The third side 103 is rotated 90 ° clockwise around the third apex P3 to coincide with the second side 102.

The fourth side 104 is rotated 90 ° clockwise around the fourth vertex P4 and coincides with the third side 103.

As in fig. 1-7, the major face is bounded by four irregular curves. The four irregular curves are sequentially connected end to form a main surface of the seamless splicing structure.

Fig. 1-7 show a structure similar to a quadrangular prism, which is used for mutually splicing to form a complete pattern. The seamless splicing structure can be used as a splicing unit of splicing structures such as floor tiles, wall tiles, cloth splicing blocks and the like. The common irregular splicing units are easy to be arranged in the middle when a plurality of seamless splicing structures are butted.

Because the abutting surfaces of the four sides are irregular patterns, the spliced patterns are not as right as the plate plates of the existing regular patterns, and the irregular aesthetic feeling is given to people.

The main surface is a front surface or a back surface, the side surface is used as a butt joint surface, and the six surfaces form a shape similar to a quadrangular prism; unlike the conventional quadrangular prism, the four side surfaces are irregular surfaces. The shape and size of the four-sided irregularities are identical.

When butt-jointed, 4 seamless splicing structures are arranged around each seamless splicing structure except for the edge part.

The main surfaces are all in a centrosymmetric pattern. The main surface is rotated by 90 ° around its center of symmetry and completely coincides with the original figure.

As shown in fig. 1, the first edge corresponds to the first side surface, that is, the first edge is an intersection line of the front surface and the first side surface; the second edge corresponds to the second side surface, namely the second edge is an intersection line of the front surface and the second side surface; the third side face corresponds to the third side face, namely the third side face is an intersecting line of the front face and the third side face; the fourth side corresponds to the fourth side, namely the fourth side is the intersection line of the front surface and the fourth side. The first side, the second side, the third side and the fourth side are all irregular curves, the outlines of the curves correspond to irregular surfaces of the first side surface, the second side surface, the third side surface and the fourth side surface, and the irregular surfaces are formed by movement of the irregular curves along the direction of a perpendicular line of the main surface.

Fig. 8 is a schematic diagram of the N-sided polygon mosaic structure as an equilateral triangle. The solid line in fig. 8 is the actual contour of the main surface, and the broken line is an equilateral triangle formed by three vertices of the main surface.

The first side 101 is rotated counterclockwise by 60 ° around the second vertex P2 to coincide with the second side 102; the second side 102 is rotated counterclockwise by 60 ° around the third vertex P3 to coincide with the third side 103. The third side 103 is rotated 60 ° counterclockwise around the first vertex P1 to coincide with the first side 101.

Fig. 9 is a schematic diagram of a plurality of the single units of fig. 8 after splicing.

Fig. 10 is a schematic diagram of the N-sided mosaic structure as a regular hexagon. In fig. 10, the solid line represents the actual contour of the main surface, and the broken line represents a regular hexagon formed by six vertices of the main surface.

The first side 101 is rotated 120 degrees counterclockwise around the second vertex P2 to coincide with the second side 102; the second side 102 is rotated 120 ° counterclockwise around the third vertex P3 to coincide … … with the third side 103 and the sixth side is rotated 120 ° counterclockwise around the first vertex P1 to coincide with the first side 101.

Fig. 11 is a schematic diagram of a plurality of the single units of fig. 10 after splicing.

The utility model discloses a N limit shape mosaic structure for the side docks with the side wantonly, constitutes complete pattern that does not have the space. The N-edge splicing structure can be used as splicing units of splicing structures such as floor tiles, wall tiles, cloth splicing blocks and the like. When a plurality of common splicing units are spliced together at will, the edges cannot be tightly attached due to the pattern, so that gaps or hollow parts are easy to appear.

Because the butt joint face of the N-edge splicing structure is an irregular figure, the spliced figure is not as upright as the plate of the existing regular figure, and gives people irregular aesthetic feeling.

The main surface is a front surface or a back surface, and the side surface is used as a butt joint surface; the N side surfaces are irregular surfaces, the shapes and the sizes are completely the same, and any two side surfaces can be completely overlapped and butted when the side surfaces are butted.

When in butt joint, except for the edge part, N N-edge splicing structures which are in butt joint with the N-edge splicing structures are arranged around each N-edge splicing structure.

The utility model discloses a mosaic structure, because the contour line have special geometric characteristics, the geometric characteristics on every limit all is the same, wholly be central symmetrical figure moreover, so arbitrary one side of any splice unit can all realize seamless butt joint with arbitrary one side of another splice unit of same specification, the same mosaic structure of size specification can splice with unlimited number and can not appear the space in its middle part, has the advantage of seamless butt joint.

As can be seen from figures 3, 7, 9 and 11, no matter how many units of butt joint, the utility model discloses a seamless butt joint can be realized to mosaic structure, can not appear between the concatenation unit because the reason of pattern causes the unable problem of laminating of edge part.

The utility model discloses a seamless mosaic structure has that the processing cost is lower, present irregular pattern, splice back do not have fretwork or cavity, can solve traditional regular figure mosaic structure and cause advantages such as the tired problem of aesthetic for people.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A seamless splicing structure is characterized by comprising a body; the body comprises two main faces and N side faces, wherein N is 3, 4 or 6; the N sides include a first side, a second side … …, and an nth side; the two major faces include a first major face and a second major face; the figures formed by the outer contour lines of the first main surface and the second main surface are parallel planes with the same shape and are centrosymmetric figures; the first side surface, the second side surface … … and the Nth side surface are irregular surfaces with the same shape and size;

the main face comprises N vertexes, and a positive N-polygon is formed among the N vertexes; the N vertices include a first vertex (P1), a second vertex (P2) … …, and an Nth vertex;

a first side (101) of the main face between the first vertex (P1) and the second vertex (P2), a second side (102) … … of the main face between the second vertex (P2) and the third vertex (P3), an Nth side of the main face between the Nth vertex (PN) and the first vertex (P1);

the Nth sides of the first side (101) and the second side (102) … … are the same irregular curves; the outer contour line is formed by sequentially connecting the first edge (101) and the Nth edge (102) … … end to end.

2. The seamless splicing structure according to claim 1, wherein an intersection O of the irregular curve and a connecting line between two vertexes of the irregular curve is a symmetrical center of the irregular curve.

3. A seamless splice structure as claimed in claim 1, wherein the irregular curve is a smooth curve.

4. The seamless splicing structure according to claim 1, wherein the irregular curved line is a zigzag line formed by connecting a plurality of straight lines in sequence.

5. The seamless splice structure of claim 1, wherein the irregular curve comprises a curvilinear segment and a smooth curvilinear segment.

6. The seamless splice structure of claim 1, wherein the first major face or the second major face is planar.

7. The seamless splice structure of claim 1, wherein the first major surface or the second major surface is curved.

8. The seamless splice structure of claim 1 wherein the first major surface or the second major surface has a relief pattern.

9. The seamless splice structure of claim 1, wherein the first major surface or the second major surface has an internal bore.

10. A seamless splice structure as in claim 9 wherein said internal aperture is a through hole extending through said first and second major faces.

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