CN113789936A - Construction method for paving ceramic tiles in arc-shaped space - Google Patents

Abstract

The invention relates to a construction method for paving ceramic tiles in an arc-shaped space, which comprises the following steps: dividing a ground paving region in the arc-shaped space into a plurality of sections of sticking regions, wherein the plurality of sections of sticking regions are continuously arranged; paving floor tiles in each section of sticking area; paving ceramic tiles in the wall paving area in the arc-shaped space, paving wall tiles in each section of paving area by taking the divided area of the ground paving area as a reference, and paving the wall tiles in opposite joints with the corresponding ground tiles; by dividing the multiple sections of sticking areas, the specifications of the tiles in each section of sticking area are the same, so that the wall tiles and the ground tiles can be butt-jointed and paved, and the attractiveness of paving and decorating the tiles is improved; compared with the traditional mosaic ceramic tiles paved in the wall paving and pasting area in the arc-shaped space, the adopted ceramic tiles have large size, the paving area in unit time is increased, therefore, the construction efficiency is improved, and the labor cost is reduced.

Description

Construction method for paving ceramic tiles in arc-shaped space

Technical Field

The invention relates to the technical field of architectural decoration, in particular to a construction method for paving ceramic tiles in an arc-shaped space.

Background

At present, when the arc-shaped space wall surface uses ceramic tiles as decorative surface layers, the problem of curved surface transition of the arc-shaped space wall surface is solved by often selecting small-specification mosaic ceramic tiles.

However, the mosaic tiles have small specifications, the floor tiles have large specifications, and the wall and floor tiles have inconsistent modulus, so that the wall and floor tiles cannot be paved at opposite seams, and the beautiful effect of paving and decorating the tiles is influenced; meanwhile, in the process of paving and pasting the mosaic ceramic tiles, the construction efficiency is low, and the labor cost is increased.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a construction method for paving ceramic tiles in an arc-shaped space, which has the advantages that the appearance of paving and decorating the ceramic tiles can be improved; meanwhile, the construction efficiency is improved, and the labor cost is reduced.

The above object of the present invention is achieved by the following technical solutions: a construction method for tiling an arc-shaped space, the construction method comprising the steps of:

dividing a ground paving region in the arc-shaped space into a plurality of sections of sticking regions, wherein the plurality of sections of sticking regions are continuously arranged;

paving floor tiles in each section of the sticking area;

and paving ceramic tiles in the wall paving area in the arc-shaped space, paving the wall tiles in the paving area of each section by taking the dividing area of the ground paving area as a reference, and paving the wall tiles in the paving area of each section in a butt joint mode with the corresponding ground tiles.

Preferably, according to the construction method for paving the tiles in the arc-shaped space provided by the invention, the ground tiles comprise first tiles paved in the paving areas and trapezoidal tiles paved at the junctions of two adjacent sections of the paving areas, and one side of each first tile and one side of each trapezoidal tile are paved in a butt joint manner; every section all lay ground ceramic tile in the subsides are established the region, include: and a first ceramic tile is paved and pasted in each section of the pasting area, and a trapezoidal ceramic tile is paved and pasted at the junction of each two adjacent sections of the pasting area.

Preferably, the construction method for paving tiles in an arc-shaped space according to the present invention further includes, before dividing a ground paving area in the arc-shaped space into a plurality of segments of paving areas and continuously setting the plurality of segments of paving areas: and determining a paving area of the arc-shaped space, wherein the paving area is used for paving the ceramic tiles.

Preferably, according to the construction method for paving the tiles in the arc-shaped space provided by the invention, the paving area comprises the wall paving area and the ground paving area, and the bottom end of the wall paving area is connected with the ground paving area.

Preferably, the construction method for tile laying in an arc-shaped space according to the present invention, after determining the laying area of the arc-shaped space, before dividing the ground laying area in the arc-shaped space into a plurality of segments of laying areas and continuously arranging the plurality of segments of laying areas, further includes: and carrying out radian analysis on the wall body paving area, and determining the radian deviation value of the wall body paving area.

Preferably, according to the construction method for paving the ceramic tiles in the arc-shaped space, the specification of the ceramic tiles is determined according to the radian deviation value.

Preferably, according to the present invention, the tile is applied to the arc space by using a single tile, and the tile is applied to the wall tile and the floor tile.

Preferably, according to the construction method for paving the tiles in the arc-shaped space provided by the invention, the width of the first end of the trapezoidal tile is greater than that of the second end of the trapezoidal tile.

Preferably, according to the construction method for paving the tiles in the arc-shaped space provided by the invention, the tiles on the wall surface comprise the second tiles paved in the paving areas and the third tiles paved at the junctions of two adjacent sections of the paving areas, and one side of each second tile and one side of each third tile are paved in a butt joint manner; the second ceramic tile is butt-jointed and paved with the corresponding first ceramic tile; and the third ceramic tile is butt-jointed and paved with the corresponding trapezoid ceramic tile.

Preferably, according to the construction method for paving the tiles in the arc-shaped space provided by the invention, the third tiles are trapezoidal.

In conclusion, the beneficial technical effects of the invention are as follows: the application provides a construction method for paving ceramic tiles in an arc-shaped space, which comprises the following steps: dividing a ground paving region in the arc-shaped space into a plurality of sections of sticking regions, wherein the plurality of sections of sticking regions are continuously arranged; paving floor tiles in each section of sticking area; paving ceramic tiles in the wall paving area in the arc-shaped space, paving wall tiles in each section of paving area by taking the divided area of the ground paving area as a reference, and paving the wall tiles in opposite joints with the corresponding ground tiles; by dividing the multiple sections of sticking areas, the specifications of the tiles in each section of sticking area are the same, so that the wall tiles and the ground tiles can be butt-jointed and paved, and the attractiveness of paving and decorating the tiles is improved; compared with the traditional mosaic ceramic tiles paved in the wall paving and pasting area in the arc-shaped space, the adopted ceramic tiles have large size, the paving area in unit time is increased, therefore, the construction efficiency is improved, and the labor cost is reduced.

Drawings

Fig. 1 is a flow chart of a construction method for tiling an arc space according to an embodiment of the present invention.

Fig. 2 is a schematic view of the overall structure of the arc-shaped space provided by the embodiment of the invention.

Fig. 3 is a first schematic structural diagram of a paving region in an arc space provided by an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a second paving region in an arc space provided by an embodiment of the present invention.

Fig. 5 is a schematic structural diagram three of a paving region in an arc space provided by the embodiment of the present invention.

Fig. 6 is a schematic structural view of a single tile in an arc space provided by an embodiment of the present invention.

Fig. 7 is a schematic structural view of a single tile in an arc space provided by an embodiment of the invention.

In the figure, 1, an arc space; 10. paving a pasting area; 101. paving a wall body in a pasting area; 1011. an outer arcuate surface; 1012. an inner arc-shaped surface; 102. paving a ground area; 20. pasting an area; 201. floor tile; 2011. a first tile; 2012. a trapezoidal ceramic tile; 2013. a single tile; 30. measuring a line; 40. a single tile.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 4, the invention discloses a construction method for paving tiles in an arc-shaped space, which comprises the following steps:

s101, dividing a ground paving area 102 in the arc-shaped space 1 into a plurality of sections of sticking areas 20, wherein the plurality of sections of sticking areas 20 are continuously arranged.

Specifically, the ground paving region 102 is divided into a plurality of segments of the paving regions 20 by a circle cutting method of 'straight instead of curved'. In the circle cutting, a regular polygon is inscribed in a circle to form a fine circle, and the circumference of the regular polygon is infinitely close to the circumference of the circle, so that a more accurate circumference ratio is obtained.

According to the circle cutting operation, each divided section of the pasting area 20 is similar to a plane, and the area of each section of the pasting area 20 is larger than that of a single ceramic tile, so that the ceramic tile is prevented from being cut in the construction process, the construction efficiency is improved, and the labor cost is reduced.

In this embodiment, the ground paving region 102 is divided into four segments of the attaching regions 20, each segment of the attaching region 20 is close to a plane, and the four segments of the attaching regions 20 are connected in sequence; and the area of each section of the sticking area 20 is larger than that of the selected single ceramic tile, so that the subsequent ceramic tile paving is facilitated, the ceramic tile cutting on a large scale is avoided, the paving efficiency is improved, and the construction period is shortened.

With continued reference to fig. 1 and 5, at S102, floor tiles 201 are laid in each of the placement areas 20.

The floor tile 201 comprises a first tile 2011 paved in the pasting area 20 and a trapezoid tile 2012 paved at the junction of two adjacent pasting areas 20; one side of the first ceramic tile 2011 and one side of the trapezoid ceramic tile 2012 are butted and paved; therefore, the appearance of the tile paving decoration is improved.

In this embodiment, each section of the sticking area 20 is paved with floor tiles 201, including: a first ceramic tile 2011 is paved in each section of the paving area 20, and a trapezoidal ceramic tile 2012 is paved at the junction of each two adjacent sections of the paving areas 20; by paving the trapezoidal ceramic tiles 2012 at the junction of the two adjacent sections of the pasting areas 20, the smoothness transition of the two adjacent first ceramic tiles 2011 is improved.

Specifically, the paving position of each trapezoidal tile is determined according to the boundary line of each two adjacent paving areas 20.

With continued reference to fig. 5, in particular, the first tile 2011 includes a plurality of individual tiles 2013, and the individual tiles 2013 are connected in an assembled manner. And the specifications of each individual tile 2013 are the same.

Note that the overall structure of the first tile 2011 in each segment of the attachment area 20 may be the same or different. But the individual tiles 2013 in the floor tile 201 in each section of the tile layup area 20 are all of the same size.

Specifically, the trapezoidal tile 2012 includes a plurality of cut tiles that are laid in a staggered manner. It should be noted that the structure of each cut tile may be the same or different, and each cut tile is cut from a single tile 2013.

With reference to fig. 2, in this embodiment, before dividing the ground paving area 102 in the arc-shaped space 1 into the multiple segments of the paving areas 20 and continuously setting the multiple segments of the paving areas 20, the method further includes: determining a paving area 10 of the arc-shaped space 1, wherein the paving area 10 is used for paving ceramic tiles; therefore, the subsequent tile paving is facilitated.

The paving area 10 includes a wall paving area 101 and a ground paving area 102, and the bottom end of the wall paving area 101 is connected with the ground paving area 102.

Specifically, the extending direction of the wall-laying area 101 is perpendicular to the extending direction of the floor-laying area 102. It should be noted that the wall tile area 101 is used for tiling wall tiles, and the floor tile area 102 is used for tiling floor tiles 201.

Further, in this embodiment, the width of the first end of the trapezoidal tile 2012 is greater than the width of the second end of the trapezoidal tile 2012.

Specifically, taking the orientation shown in fig. 5 as an example, the first end of the trapezoidal tile 2012 is the left end, and the second end of the trapezoidal tile 2012 is the right end. That is, the side of the trapezoidal tile 2012 facing the outer arc surface 1011 of the wall plastering area 101 is the first end, and the side of the trapezoidal tile 2012 facing the inner arc surface 1012 of the wall plastering area 101 is the second end.

Further, in this embodiment, the width of the first tile 2011 is greater than the width of the first end of the trapezoidal tile 2012.

With continued reference to fig. 3, in the present embodiment, after determining the paving area 10 of the arc-shaped space 1, before dividing the ground paving area 102 in the arc-shaped space 1 into the multiple segments of the paving areas 20 and continuously setting the multiple segments of the paving areas 20, the method further includes: and performing radian analysis on the wall body paving area 101 to determine the radian deviation value of the wall body paving area 101.

Specifically, the measurement line 30 is pulled in the wall paving area 101, and two ends of the measurement line 30 are respectively connected with two ends of the outer arc surface 1011 or the inner arc surface 1012 of the wall paving area 101. It should be noted that the measurement line 30 corresponds to a chord line of the outer arc surface 1011 or the inner arc surface 1012.

The distance between the measurement line 30 and the outer arc surface 1011 or the inner arc surface 1012 is referred to as an arc deviation value. Here, taking the orientation shown in fig. 3 as an example, the maximum radian deviation value is a distance value between the measurement line 30 and a convex point on the left side of the outer arc surface 1011 or the inner arc surface 1012.

Wherein, the specification of the ceramic tile is determined according to the radian deviation value; compared with the traditional arc-shaped wall surface for paving mosaic tiles, the ceramic tile specification is larger than that of the mosaic tiles, so that the construction efficiency is improved, and the labor cost is reduced.

Specifically, the specification of the ceramic tile is determined according to the position of the maximum radian deviation value. When the range of the maximum radian deviation value is less than or equal to 10mm, the length range of the specification of the ceramic tile is less than or equal to the length size of the measuring line.

When the maximum radian deviation value is larger than or equal to 10mm, each section of the pasting area 20 in the wall body pasting area 101 needs to be divided until the maximum radian deviation value is smaller than or equal to 10mm, and the tile specification meeting the requirements is selected.

For convenience of explanation, the tile specification of any one of the sections 20 of the wall paving area 101 will be described as an example.

The attachment region is divided into a plurality of unit regions along the extending direction of the outer arc surface 1011 or the inner arc surface 1012, and the plurality of unit regions are continuously provided, and it should be noted that each unit region is arc-shaped.

A reference line is pulled at one side of the extrados or intrados of each unit area and is connected with two end points at one side of each unit area, and the reference line is equivalent to a chord line of the extrados or the intrados.

The distance between the datum line and the convex points of the outer arc surface or the inner arc surface is the maximum radian deviation value, and when the maximum radian deviation value is smaller than or equal to 10mm, the length of the selected tile specification is smaller than or equal to the datum line.

It should be noted that, when the lengths of the selected tile specifications in each segment of the pasting area 20 are different, in order to make the tile specifications laid in each segment of the pasting area 20 the same, the tile specification with the smallest length is taken as the finally determined tile specification.

And S103, paving ceramic tiles in the wall paving area 101 in the arc-shaped space 1, paving the wall tiles in each section of the paving area 20 by taking the divided area of the ground paving area 102 as a reference, and paving the wall tiles in opposite joints with the corresponding ground tiles 201.

Specifically, the extending direction of the wall tiles is perpendicular to the extending direction of the ground tiles, the wall tiles are respectively pasted in each pasting area 20, the wall tiles and the ground tiles 201 are arranged in a one-to-one correspondence manner, and each wall tile is butt-jointed and paved with the corresponding ground tile 201; therefore, the appearance of the tile paving decoration is improved.

The wall surface tiles comprise second tiles paved in the pasting area 20 and third tiles paved at the junction of two adjacent pasting areas 20; one side of the second ceramic tile is butt-jointed and paved with one side of the third ceramic tile; therefore, the appearance of the tile paving decoration is improved.

Specifically, the second tile includes a plurality of individual tiles 40, and the plurality of individual tiles 40 are connected in an assembled manner. And each individual tile 40 is of the same size.

It should be noted that the overall structure of the second tiles in each of the placement areas 20 may be the same or different. But the individual tiles 40 in each wall tile segment in the tile attachment area 20 are of the same size.

Wherein, the third ceramic tile is trapezoidal, and the third ceramic tile includes a plurality of ceramic tiles of tailorring, and a plurality of ceramic tiles of tailorring butt joint are spread and are pasted. The width of the first end of third ceramic tile is the same with the width of the first end of trapezoidal ceramic tile 2012, and the width of the second end of third ceramic tile is the same with the width of the second end of trapezoidal ceramic tile 2012, from this, the third ceramic tile of being convenient for and the trapezoidal ceramic tile butt joint of corresponding spread the subsides, has improved the aesthetic property that the ceramic tile was spread and is pasted and decorate.

Through setting up the third ceramic tile for smooth excessive between two adjacent second ceramic tiles, improved wall body ceramic tile and wall body simultaneously and spread regional laminating 101 degree of consistency.

With continued reference to fig. 6 and 7, in this embodiment, the first edge dimension of the individual tiles 40 in the wall tiles is the same as the second edge dimension of the individual tiles 2013 in the floor tiles 201.

Wherein, by setting the length of the first side (i.e., side a) of the single tile 40 to be the same as the length of the second side (i.e., side b) of the single tile 2013; therefore, the wall tiles and the corresponding ground tiles 201 can be conveniently paved in a butt joint mode, and the attractiveness of paving and decorating the tiles is improved.

Specifically, the second ceramic tiles are arranged in one-to-one correspondence with the first ceramic tiles 2011, and the second ceramic tiles are butt-jointed with the corresponding first ceramic tiles 2011; the third ceramic tiles and the trapezoidal ceramic tiles 2012 are arranged in a one-to-one correspondence manner, and the third ceramic tiles and the corresponding trapezoidal ceramic tiles 2012 are paved in a butt joint manner; therefore, the appearance of the tile paving decoration is improved.

The application provides a construction method for paving ceramic tiles in an arc-shaped space 1, which comprises the following steps: dividing a ground paving region 102 in the arc-shaped space 1 into a plurality of sections of sticking regions 20, wherein the plurality of sections of sticking regions 20 are continuously arranged; the floor tiles 201 are paved in each section of the sticking area 20; paving ceramic tiles in a wall paving area 101 in the arc-shaped space 1, paving wall tiles in each section of paving area 20 by taking a divided area of a ground paving area 102 as a reference, and paving the wall tiles and corresponding ground tiles 201 in a butt joint manner; by dividing the multiple sections of the sticking areas 20, the widths of the wall tiles in each section of the sticking area 20 are the same as those of the ground tiles 201, so that the wall tiles and the ground tiles 201 can be butt-jointed and paved, and the attractiveness of tile paving and decorating is improved; compared with the traditional mosaic ceramic tiles paved in the wall paving and pasting area in the arc-shaped space 1, the adopted ceramic tiles have large size, the paving area in unit time is increased, therefore, the construction efficiency is improved, and the labor cost is reduced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: it should be understood that the above examples are only for clearly illustrating the present invention and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications of the invention may be made without departing from the scope of the invention.

Claims (10)

1. A construction method for paving ceramic tiles in an arc-shaped space is characterized by comprising the following steps: the construction method comprises the following steps:

dividing a ground paving region in the arc-shaped space into a plurality of sections of sticking regions, wherein the plurality of sections of sticking regions are continuously arranged;

paving floor tiles in each section of the sticking area;

and paving ceramic tiles in the wall paving area in the arc-shaped space, paving the wall tiles in the paving area of each section by taking the dividing area of the ground paving area as a reference, and paving the wall tiles in the paving area of each section in a butt joint mode with the corresponding ground tiles.

2. The construction method for tiling an arc-shaped space according to claim 1, wherein: the ground ceramic tile comprises a first ceramic tile paved in the paving area and a trapezoidal ceramic tile paved at the junction of two adjacent sections of the paving area, and one side of the first ceramic tile and one side of the trapezoidal ceramic tile are paved in a butt joint mode;

every section all lay ground ceramic tile in the subsides are established the region, include: and a first ceramic tile is paved and pasted in each section of the pasting area, and a trapezoidal ceramic tile is paved and pasted at the junction of each two adjacent sections of the pasting area.

3. The construction method for tiling an arc-shaped space according to claim 1, wherein: will ground among the arc space is spread the region and is divided into the multistage and paste the region of establishing, and the multistage paste before establishing regional continuous setting, still include:

and determining a paving area of the arc-shaped space, wherein the paving area is used for paving the ceramic tiles.

4. The construction method for tiling an arc-shaped space according to claim 3, wherein: the paving area comprises the wall paving area and the ground paving area, and the bottom end of the wall paving area is connected with the ground paving area.

5. The construction method for tiling an arc-shaped space according to claim 4, wherein: after confirming the region of paving in arc space, will ground in the arc space is paved the region and is divided into the multistage and is pasted and establish the region, and the multistage the region of pasting establishes before setting up in succession, still include:

and carrying out radian analysis on the wall body paving area, and determining the radian deviation value of the wall body paving area.

6. The construction method for tiling an arc-shaped space according to claim 5, wherein: and determining the specification of the ceramic tile according to the radian deviation value.

7. The construction method for tiling an arc-shaped space according to claim 1, wherein: the first edge of the single tile in the wall tile has the same size as the second edge of the single tile in the floor tile.

8. The construction method for tiling an arc-shaped space according to claim 2, wherein: the width of the first end of the trapezoidal ceramic tile is greater than the width of the second end of the trapezoidal ceramic tile.

9. The construction method for tiling an arc-shaped space according to claim 2, wherein: the wall surface tiles comprise second tiles paved in the paving areas and third tiles paved at the junctions of two adjacent sections of the paving areas, and one side of each second tile is paved opposite to one side of each third tile;

the second ceramic tile is butt-jointed and paved with the corresponding first ceramic tile;

and the third ceramic tile is butt-jointed and paved with the corresponding trapezoid ceramic tile.

10. The construction method for tiling an arc-shaped space according to claim 9, wherein: the third ceramic tile is trapezoidal.

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