CN110984425B - Method for composing picture by utilizing staggered wall and staggered wall - Google Patents

Abstract

The application discloses a method for composing a picture by utilizing a staggered wall body, which comprises the following steps: constructing a first wall layer by using wall blocks, wherein the wall blocks comprise at least two types of wall blocks with different sizes and different colors, and the sizes of the wall blocks are in an even proportional relation; a second wall layer is constructed over the first wall layer using the blocks. The beneficial effect of this application is: the method for composing the picture by using the wall blocks with at least two sizes is provided, so that a user can use the wall blocks with different granularities to compose lines when composing the picture, and a specific staggered structure is used, so that a richer presentation scheme is provided on the change of composition lines. The convenience of the user in composing the picture by using the wall block is improved.

Description

Method for composing picture by utilizing staggered wall and staggered wall

Technical Field

The present disclosure relates to a staggered wall, and more particularly, to a method for forming a picture by using a staggered wall and a staggered wall.

Background

In the prior art, there are two main ways of composing a picture on a wall, the first way is to directly draw on a complete wall, and the defects of this way are that the pattern on the wall is easily scraped off, and the pattern needs to be maintained. The second is to use wall blocks of different colors to make combination and splicing to present the required pattern. When the method is used for composition, the direct regular arrangement is generally adopted, so that clear curve patterns are difficult to present in a limited wall body.

Disclosure of Invention

Accordingly, there is a need to provide a method for forming a picture by using a staggered wall and a staggered wall, so as to solve the disadvantages of the prior art.

The technical scheme adopted by the application for solving the technical problems is as follows:

a method of composing a picture using staggered walls, comprising:

constructing a first wall layer using wall blocks, the wall blocks comprising at least two sizes and the different sizes of the wall blocks having different colors, the sizes of the wall blocks being in an even proportional relationship;

constructing a second wall course over the first wall course using the blocks.

Further, the wall blocks of the first wall body layer and the second wall body layer are different in composition mode.

Furthermore, the wall block comprises a full-size block, a half-size module, a quarter-size module and a single module, and the wall block is a cuboid-shaped wall block.

Further, the size ratio of the length to the width of the full-size blocks is integral multiple;

the length of the half-size module is one half of the full-size block, and the width of the half-size module is one half of the full-size block;

the length of the quarter-size module is one fourth of the full-size block, and the width of the quarter-size module is one fourth of the full-size block;

the length of the single module is one eighth of the full-size block, and the width of the single module is one eighth of the full-size block.

Further, the wall blocks of the first wall body layer and the second wall body layer are formed in a manner that:

the first wall layer is formed by connecting N full-size blocks end to end, the second wall layer is formed by connecting N-1 full-size blocks and 2 half-size modules end to end, the N-1 full-size blocks are connected end to form a middle layer, and the 2 half-size modules are respectively arranged at two ends of the middle layer;

or the first wall layer is formed by connecting N full-size blocks end to end, the second wall layer is formed by connecting N-1 full-size blocks and 1 quarter-size module end to end, the N-1 full-size blocks are connected end to form a transition layer, and the quarter-size module is arranged at one end of the transition layer;

or the first wall layer is formed by connecting 2N full-size blocks end to end, the second wall layer is formed by N full-size blocks and 2N half-size modules, and the full-size blocks and the half-size modules are arranged in a staggered mode.

Further, the constructing a first wall layer using wall blocks includes:

constructing a mounting frame;

and placing the wall blocks in a framework of the mounting frame in a sliding embedding mode to construct the first wall body layer.

Further, the installation frame and the wall block include:

a raised line is arranged on the framework of the installation frame, a sliding groove is arranged on the edge of the wall block, and the raised line is matched with the sliding groove;

or, a framework of the installation frame is provided with a sliding groove, the edge of the wall block is provided with a bulge, and the raised line and the sliding groove are matched with each other;

or, be provided with the spout on the skeleton of installation frame, the spout with the size at wall piece edge matches each other.

Further, the wall block includes: a first wall block and a second wall block; the edge part of the first wall block is of a convex structure, and the edge part of the second wall block is of a sliding groove structure;

the constructing a first wall layer using wall blocks includes:

and constructing the first wall body layer by using the first wall block and the second wall block in a staggered manner for nesting.

Furthermore, the edge shapes of two opposite sides of the wall block are respectively a convex strip and a groove;

and sequentially splicing the wall blocks according to the edge shapes of the wall blocks to form the first wall body layer.

A staggered wall, comprising: at least two sizes of the wall blocks,

the sizes of the wall blocks are in even proportional relation, wherein the wall blocks with different sizes have different colors;

the wall blocks form at least two wall body layers, the at least two wall body layers are stacked to form a staggered wall body, and the wall blocks of the two adjacent wall body layers are different in forming mode.

The beneficial effect of this application is: the method for composing the picture by utilizing the staggered wall and the staggered wall are provided, so that a user can use wall blocks with different granularities to form lines during composition, and a specific staggered structure is used in the method, so that a richer presentation scheme is provided on the change of composition lines. The convenience of the user in composing the picture by using the wall block is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic view of the block of a staggered wall of the present application;

FIG. 2 is a schematic block diagram of the first and second wall courses of the present application;

FIG. 3 is another schematic block diagram of the first and second wall courses of the present application;

fig. 4, 5 and 6 are schematic structural diagrams of the mounting frame and the wall block according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of the wall block in embodiment 3 of the present application;

fig. 8 is a schematic structural diagram of the wall block in embodiment 4 of the present application;

fig. 9 is a schematic structural diagram of the wall blocks in embodiment 8 of the present application spliced into an L-shaped structure in a top view;

fig. 10 is a schematic structural diagram of the wall blocks in embodiment 8 of the present application spliced into a T-shaped structure in a top view.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are given in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The embodiment of the application provides a method for composing a picture by utilizing a staggered wall and the staggered wall.

A method of composing a picture using staggered walls, comprising:

constructing a first wall layer using wall blocks, the wall blocks comprising at least two sizes and the different sizes of the wall blocks having different colors, the sizes of the wall blocks being in an even proportional relationship;

constructing a second wall course over the first wall course using the blocks.

Specifically, the first wall body layer and the second wall body layer are respectively constructed in different manners by using a plurality of wall blocks with different colors, so that lines desired by a user are formed between the first wall body layer and the second wall body layer.

It is understood that in practical applications, besides the first wall body layer and the second wall body layer, there may be more than two wall body layers for drawing specific patterns, which are described herein by way of example only and should not be construed as limiting the embodiments of the present application.

Example 1, the first and second wall layers have different wall block compositions.

Specifically, by respectively adjusting the composition of the wall blocks between the first wall body layer and the second wall body layer, the first wall body layer and the second wall body layer have different lines, and a user can flexibly adjust the composition of the wall blocks in each wall body layer according to the design, so that the whole wall body can present patterns required by the user.

Further, referring to fig. 1, the wall blocks include a full-size block 110, a line block 120, a half-size module 130, a quarter-size module 140, and a single module 150, and the wall blocks are rectangular parallelepiped-shaped wall blocks.

Further, the size ratio of the length to the width of the full-size blocks is integral multiple;

the length of the half-size module is one half of the full-size block, and the width of the half-size module is one half of the full-size block;

the length of the quarter-size module is one fourth of the full-size block, and the width of the quarter-size module is one fourth of the full-size block;

the length of the single module is one eighth of the full-size block, and the width of the single module is one eighth of the full-size block.

Specifically, the top surface area of the line block is the same as that of the half-size module and is half of that of the full-size block, the top surface area of the quarter-size module is one fourth of that of the full-size block, the top surface area of the single module is one eighth of that of the full-size block, and a user can select the wall block with a proper size according to the color of a graphic line, the size of a space position reserved for the staggered wall body by the user and the improvement of the stability of the staggered wall body.

Further, the wall blocks of the first wall body layer and the second wall body layer are formed in a manner that:

referring to fig. 2, the first wall layer is formed by connecting N full-size blocks end to end, the second wall layer is formed by connecting N-1 full-size blocks and 2 half-size modules end to end, the N-1 full-size blocks are connected to end to form a middle layer, and the 2 half-size modules are respectively disposed at two ends of the middle layer;

or, referring to fig. 3, the first wall layer is formed by connecting N full-size blocks end to end, the second wall layer is formed by connecting N-1 full-size blocks and 1 quarter-size module, the N-1 full-size blocks are connected end to form a transition layer, and the quarter-size module is disposed at one end of the transition layer;

or, the first wall layer is formed by connecting 2N full-size blocks end to end, the second wall layer is formed by N full-size blocks and 2N half-size modules, and the full-size blocks and the half-size modules are arranged in a staggered manner (not shown).

Embodiment 2, the constructing a first wall layer using wall blocks, comprising:

constructing a mounting frame;

and placing the wall blocks in a framework of the mounting frame in a sliding embedding mode to construct the first wall body layer.

Specifically, the wall blocks are embedded into the framework of the installation frame in a sliding embedding mode, so that the wall blocks are fixed by the installation frame without using an adhesive material, and the wall body can be moved integrally to meet the carrying requirement.

Further, the installation frame and the wall block include:

referring to fig. 4, a rib 211 is disposed on a framework of the mounting frame 210, a sliding groove 221 is disposed on an edge of the wall block 220, and the rib 211 and the sliding groove 221 are matched with each other; that is, one side of the wall block 220 is slidably disposed on the protruding strip 211 through the sliding groove 221, so that the wall block is mounted on the mounting frame 210.

Or, referring to fig. 5, a sliding groove is formed in the framework of the mounting frame 210, a protrusion is formed on the edge of the wall block 220, and the protruding strip and the sliding groove are matched with each other;

or, referring to fig. 6, a sliding groove is formed in the framework of the mounting frame 210, and the sliding groove is matched with the edge of the wall block 220 in size.

In embodiment 3, referring to fig. 7, the wall block 220 includes: a first wall block and a second wall block; the edge part of the first wall block is of a convex structure, and the edge part of the second wall block is of a sliding groove structure;

the constructing a first wall layer using wall blocks includes:

and constructing the first wall body layer by using the first wall block and the second wall block in a staggered manner for nesting.

Specifically, the first wall body is combined in a manner that the first wall block and the second wall block are mutually staggered and nested, so that an adhesive material is not required for fixing, and colored particles can be more vivid.

In embodiment 4, referring to fig. 8, the edge shapes of two opposite sides of the wall block 220 are respectively a convex strip and a concave strip;

and sequentially splicing the wall blocks according to the edge shapes of the wall blocks to form the first wall body layer.

The application also provides a staggered wall body, and the specific technical scheme is as follows:

a staggered wall, comprising: the wall blocks with at least two sizes have the proportional relation of the sizes of even numbers, wherein the wall blocks with different sizes have different colors;

the wall blocks form at least two wall body layers, the at least two wall body layers are stacked to form a staggered wall body, and the wall blocks of the two adjacent wall body layers are different in forming mode.

Specifically, referring to fig. 1, the wall block is in a rectangular parallelepiped shape, and the size refers to the area size of the top surface or the bottom surface of the wall block; the sizes of the wall blocks are in even proportion, for example, the area proportion of the top surface or the bottom surface among different wall blocks is 2:1, 4:1, 8:1 and the like; not unidimensional the wall piece has different colours, so for the user can use the wall piece of different granularities to go to constitute the lines when the composition, two at least wall body layers are constituteed to the wall piece, and two adjacent wall piece composition modes are different, so, adjacent two the wall body layer has the lines of different colours respectively, two at least wall body range upon range of add and form crisscross wall body, so, a plurality of lines concatenation combination become the figure that the user needs, and because two at least wall body layers superpose with crisscross mode, make to have abundanter presentation scheme in the change of composition lines.

In embodiment 5, referring to fig. 1, a circular or square protrusion is disposed on a connecting surface above a wall block, a circular or square slot is disposed on a connecting surface below the wall block, and an upper wall block and a lower wall block are connected through the protrusion and the slot.

Namely, the wall blocks are combined and overlapped in a staggered connection mode, and any two adjacent wall blocks on the same layer can be stably connected in the staggered connection mode without adding an adhesive material additionally.

Furthermore, the wall blocks also comprise a top closing block and a quarter-size closing block, and due to the fact that gaps exist among the protrusions, the gaps of the wall blocks on the top layer can affect the appearance, so that the top closing block or the quarter-size closing block is selected to fill the gaps according to actual needs.

Example 6, each of the wall layers has the same volume, and generally, in order to increase the stability of the connection of the wall layers, the volume of each wall layer formed by splicing the wall blocks is the same, although the number of the wall blocks used in the wall layers is not necessarily the same.

Embodiment 7, the staggered wall comprising: half staggered walls and quarter staggered walls.

Further, referring to fig. 2, one wall body layer of the half staggered wall is formed by connecting N full-size blocks end to end, the other wall body layer of the half staggered wall is formed by connecting N-1 full-size blocks and 2 half-size modules end to end, the N-1 full-size blocks are connected end to form a middle layer, and the 2 half-size modules are respectively disposed at two ends of the middle layer.

Specifically, since the size of the half staggered wall is smaller than that of the full-size block, lines formed by the half staggered walls in a plurality of wall body layers have obvious granular feeling, and the graphics desired by a user can be clearly expressed.

Still further, referring to fig. 3, one wall layer of the quarter staggered wall is formed by connecting N full-size blocks end to end, another wall layer of the quarter staggered wall is formed by connecting N-1 full-size blocks and 1 quarter-size module, N-1 full-size blocks are connected end to form a transition layer, and the quarter-size module is disposed at one end of the transition layer.

Specifically, since the size of the quarter staggered wall is smaller than that of the half staggered wall, lines formed by the quarter staggered walls in a plurality of wall body layers have more obvious granular feeling, and the graphics desired by a user can be more clearly expressed.

Example 8, the blocks are spliced into an L-shaped or T-shaped structure in a top view.

Specifically, referring to fig. 9 and 10, in order to achieve the stability of the wall, the wall blocks are spliced into an L-shaped or T-shaped structure on the top view plane at the origin or the end of the wall, and the L-shaped or T-shaped structure includes at least two layers, wherein the splicing manners of the wall blocks of the two layers are different, and any two adjacent wall blocks of the whole layer can be stably connected by the staggered connection manner without adding an additional adhesive material.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express a few 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. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. A method of patterning using staggered walls, comprising:

constructing a first wall layer using wall blocks, the wall blocks comprising at least two sizes and the different sizes of the wall blocks having different colors, the sizes of the wall blocks being in an even proportional relationship;

constructing a second wall layer above the first wall layer using the wall blocks such that wall blocks of different particle sizes form a line;

the first wall body layer and the second wall body layer are different in wall block composition mode;

the wall blocks comprise full-size blocks, half-size modules, quarter-size modules and single modules, and the wall blocks are cuboid-shaped wall blocks;

the size ratio of the length to the width of the full-size blocks is integral multiple;

the length of the half-size module is one half of the full-size block, and the width of the half-size module is one half of the full-size block;

the length of the quarter-size module is one fourth of the full-size block, and the width of the quarter-size module is one fourth of the full-size block;

the length of the single module is one eighth of the full-size block, and the width of the single module is one eighth of the full-size block;

a round or square bulge is arranged at the upper connecting surface of the wall block, a round or square clamping groove is arranged at the lower connecting surface of the wall block, and two adjacent wall blocks are connected with each other through the bulge and the clamping groove;

the wall blocks are spliced into an L-shaped or T-shaped structure on a plane of depression;

the wall block composition mode of first wall body layer and second wall body layer includes:

the first wall layer is formed by connecting N full-size blocks end to end, the second wall layer is formed by connecting N-1 full-size blocks and 2 half-size modules end to end, the N-1 full-size blocks are connected end to form a middle layer, and the 2 half-size modules are respectively arranged at two ends of the middle layer;

or the first wall layer is formed by connecting N full-size blocks end to end, the second wall layer is formed by connecting N-1 full-size blocks and 1 quarter-size module end to end, the N-1 full-size blocks are connected end to form a transition layer, and the quarter-size module is arranged at one end of the transition layer;

or the first wall layer is formed by connecting 2N full-size blocks end to end, the second wall layer is formed by N full-size blocks and 2N half-size modules, and the full-size blocks and the half-size modules are arranged in a staggered mode.

2. The method of claim 1, wherein constructing the first wall layer using the wall blocks comprises:

constructing a mounting frame;

and placing the wall blocks in a framework of the mounting frame in a sliding embedding mode to construct the first wall body layer.

3. The method of claim 2, wherein the step of forming the pattern with the interlaced wall includes the step of forming the pattern with the interlaced wall,

the installation frame reaches the wall piece includes:

a raised line is arranged on the framework of the installation frame, a sliding groove is arranged on the edge of the wall block, and the raised line is matched with the sliding groove;

or, a framework of the installation frame is provided with a sliding groove, the edge of the wall block is provided with a bulge, and the raised line and the sliding groove are matched with each other;

or, be provided with the spout on the skeleton of installation frame, the spout with the size at wall piece edge matches each other.

4. The method of claim 1, wherein the wall block comprises: a first wall block and a second wall block; the edge part of the first wall block is of a convex structure, and the edge part of the second wall block is of a sliding groove structure;

the constructing a first wall layer using wall blocks includes:

and constructing the first wall body layer by using the first wall block and the second wall block in a staggered manner for nesting.

5. The method of claim 1, further comprising forming the wall block with ridges and grooves on the edges of the opposing sides of the wall block;

and sequentially splicing the wall blocks according to the edge shapes of the wall blocks to form the first wall body layer.

6. A staggered wall, characterized in that the method for composition by using a staggered wall according to any one of claims 1 to 5 is used for composition;

the staggered wall body comprises:

the wall blocks with at least two sizes have the proportional relation of the sizes of even numbers, wherein the wall blocks with different sizes have different colors;

the wall blocks form at least two wall body layers, the at least two wall bodies are stacked to form a staggered wall body, and the wall blocks of the two adjacent wall body layers are different in forming mode;

the wall block comprises a full-size block, a half-size module, a quarter-size module and a single module, and the wall block is a cuboid-shaped wall block.

Images