JP2019157404A - Surface coating member, surface coating member for installed end, and surface coating method - Google Patents

Abstract

To provide a surface coating member which can be laid in a finished state where appearance is beautiful even in a place where a laying line is curved, and which can be easily laid out, and to provide a method for laying the same.SOLUTION: In a surface coating member 10, which is used for coating the surface of an object to be executed by forming a main body 12 in a plate shape and combining a plurality of the main body parts together, an arcuate convex part 14A and an arcuate recess 14B provided on the opposite side of the arcuate protrusion 14A and into which the arcuate protrusion 14A can enter, at outer periphery 14 of the main body part 12 are formed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a surface covering member, a surface covering member for an arrangement end, and a surface covering method. More specifically, the present invention relates to a surface covering member and an arrangement that can be laid beautifully and easily along a laying line that draws a curve. The present invention relates to a surface covering member for an installation end and a surface covering method.

  As disclosed in Patent Document 1 (Japanese Patent Laid-Open No. 2000-136519), as a surface covering member typified by a tile block used for finishing a floor surface or a plate-like block used in revetment work, a plan view is shown. In many cases, the shape is square or rectangular.

JP 2000-136519 A (paragraph numbers 0026 to 0036, FIGS. 8 and 9)

  According to the surface covering member described in Patent Document 1, if the laying line is a straight construction target portion, it can be finished to have an appearance that exhibits a regular geometric pattern. However, in the construction target location where the laying line is curved, there is a problem that the gap between the adjacent surface covering members becomes large and the appearance in the finished state cannot be made beautiful.

  The surface covering member and the surface covering member for the arrangement end and the surface covering method in the present invention can be laid in a finished state with a beautiful appearance even at a construction target location where the laying line is curved. Therefore, it is intended to enable easy laying.

  That is, the present invention provides a surface covering member used for covering a surface of a construction target range by arranging a plurality of body portions in a plate shape, and an arcuate convexity is formed on the outer periphery of the body portion. The surface covering member is characterized in that a portion and an arc-shaped concave portion that is provided on a side opposite to the arc-shaped convex portion and into which the arc-shaped convex portion can enter are formed.

  Thereby, even if it is the construction object location where the laying line is drawing a curve, it is possible to lay it in a beautifully finished state, and it is possible to lay it easily.

  Moreover, it is preferable that the said arc-shaped recessed part is formed in the hollow dimension shallower than the protrusion height dimension of the said arc-shaped convex part.

  Thereby, connection of surface covering members can be performed still more easily.

  Moreover, it is preferable that the curvature radius of the said arc-shaped convex part and the curvature radius of the said arc-shaped recessed part are equal.

  Thereby, the width dimension of the joint material between an arc-shaped convex part and an arc-shaped recessed part can be made uniform.

  Moreover, it is preferable that the flat surface part extended outward is formed in the both ends of the said circular arc-shaped convex part, and the both ends of the said circular arc-shaped recessed part, respectively.

  Thereby, the yield at the time of manufacture can be improved, and breakage in which both end portions of the arc-shaped convex portion and both end portions of the arc-shaped concave portion are chipped can be prevented.

  Moreover, it is preferable that it is formed with porous concrete.

  Thereby, the surface covering member can be provided with water permeability, and when using the surface covering member in the present invention for a slope protection work, etc., the use of a backfill material can be omitted, and the construction cost can be reduced. Contributes to reduction.

  Moreover, it is preferable that an anchor pin hole is formed at the center position of the arc of the arc-shaped convex portion.

  Thereby, when positioning adjacent surface covering members, an anchor pin can be used as a rotating shaft, and the efficiency of laying work can be improved.

  Also, a first covering end surface covering member in which an arc-shaped recess is formed on one side of the outer periphery of the plate-like main body, and the recess enters the one side of the outer periphery of the plate-like main body. There is also an invention as a surface covering member for an arrangement end part, comprising a surface covering member for a second arrangement end part formed with a possible arcuate convex part.

  Thereby, when coat | covering the surface of a construction object range using the surface coating member in this invention, the finished state of the start end part and termination | terminus part of a construction target range can be made into the state which aligned the surface coating member.

  Further, the arc-shaped concave portion of the surface covering member disposed at the required position has the same shape as the surface covering member disposed at the required position, and is adjacent to the surface covering member disposed at the required position. An uneven fitting process for making the arc-shaped convex portion of the adjacent surface covering member disposed so as to make a concave-convex fit, and the adjacent along the arc-shaped concave portion of the surface covering member disposed at the required position A positioning step for positioning the adjacent surface covering member by rotating the arc-shaped convex portion of the surface covering member, and the joint between the surface covering member disposed at the required position and the adjacent surface covering member. There is also an invention of a surface coating method characterized by repeatedly performing a step of forming a material.

  Thereby, even if it is the construction object location where the laying line is drawing a curve, it is possible to lay it in a beautifully finished state, and it is possible to lay it easily.

  Furthermore, the arc-shaped concave portion of the surface covering member disposed at a required position has the same shape as the surface covering member disposed at the required position, and the surface covering member disposed at the required position. A concave / convex fitting step for making the arc-shaped convex portions of adjacent surface covering members disposed adjacent to each other so as to make a concave / convex fitting, and an anchor pin for placing an anchor pin in the anchor pin hole of the adjacent surface covering member And placing the arc-shaped convex portion of the adjacent surface covering member around the arc-shaped concave portion of the surface covering member disposed at the required position with the anchor pin as a center of rotation. Repeatedly performing a positioning step of positioning the adjacent surface covering member, and a step of forming a joint material between the surface covering member disposed at the required position and the adjacent surface covering member. There is also the invention of the surface coating method according to symptoms.

  Thereby, even if it is the construction object location where the laying line is drawing a curve, it is possible to lay it in a beautifully finished state, and it is possible to lay it easily. Moreover, when positioning the adjacent surface covering members, an anchor pin can be used as a rotating shaft, and the efficiency of laying work can be improved.

  Further, the first covering end surface covering member is disposed at the start end portion of the construction target range, and the circle of the surface covering member disposed adjacent to the first disposing end surface covering member. After the arc-shaped convex portion is inserted into the concave portion so as to be concavo-convexly fitted, the arc-shaped convex portion is rotated and positioned along the concave portion, and the second arrangement is arranged at the end portion of the construction target range. A surface covering member for the end portion is disposed, and the convex portion is unevenly fitted into the arc-shaped concave portion of the surface covering member disposed at a position adjacent to the surface covering member for the second disposing end portion. Between the step of rotating and positioning the convex portion along the arc-shaped concave portion, and the first covering end surface covering member and the surface covering member, A joint is formed between the covering member and the second covering end surface covering member. It may further include a step.

  Further, the surface covering member for the second disposing end portion is disposed at the start end portion of the construction target range, and the circle of the surface covering member disposed adjacent to the surface covering member for the second disposing end portion. After the arc-shaped concave portion is inserted into the convex portion so as to be concavo-convexly fitted, the arc-shaped concave portion is rotated and positioned along the convex portion, and the first arrangement is arranged at the end portion of the construction target range. A surface covering member for the installation end is disposed, and the concave portion is unevenly fitted to the arc-shaped convex portion of the surface covering member disposed at a position adjacent to the surface covering member for the first arrangement end. Between the step of rotating and positioning the concave portion along the arc-shaped convex portion, and the first covering end surface covering member and the surface covering member, A joint is formed between the covering member and the second covering end surface covering member. It may further include a step.

  Accordingly, when the surface of the construction target range is coated using the surface covering member in the present invention, the finished state of the start end portion and the terminal end portion of the construction target range can be made to be in a state aligned with the surface covering member.

  In the present invention, even if it is a construction target location where the laying line draws a curve, it can be laid in a beautifully finished state, and can be laid easily.

It is a top view of the surface covering member in this embodiment. It is a perspective view of the surface covering member in this embodiment. It is a top view of the surface covering member for arrangement | positioning edge parts corresponding to the surface covering member shown in FIG. It is a schematic process figure in the surface coating method in this embodiment. It is a top view which shows an example of the laying state of the surface covering member in this embodiment, and the surface covering member for arrangement | positioning edge parts. It is a top view which shows the modification of the laying state of the surface covering member in this embodiment, and the surface covering member for arrangement | positioning edge parts. It is a top view which shows the modification of a surface covering member.

  1 and 2 show examples of the surface covering member 10 in the present embodiment. The surface covering member 10 in this embodiment is formed in plate shape with porous concrete. A plurality of pattern convex portions 13 imitating stone are formed on the upper surface side of the main body portion 12, whereas the bottom surface side is formed on a flat surface. In addition, the pattern convex part 13 has also played the role of anti-slip.

  Further, an arc-shaped convex portion 14A is formed on one side of the outer periphery 14 of the main body portion 12, and an arc-shaped convex portion is formed on one side facing the arc-shaped convex portion 14A that is a portion opposite to the arc-shaped convex portion 14A. An arcuate recess 14B that can enter the portion 14A is formed. The indentation depth dimension h2 of the arcuate recess 14B is formed to be shallower (smaller) than the protrusion height dimension h1 of the arcuate protrusion 14A. In this embodiment, the radius of curvature of the arc-shaped convex portion 14A and the radius of curvature of the arc-shaped concave portion 14B are the same. However, if the arc-shaped convex portion 14A can enter the arc-shaped concave portion 14B, the arc-shaped convex portion The portion 14A and the arcuate recess 14B can be formed with different radii of curvature. Further, the lateral outer periphery 14C formed by a straight line is parallel and symmetrical to the center line of the main body 12 (surface covering member 10) formed by connecting the arcuate convex portion 14A and the apex of the arcuate convex portion 14A. ing.

  In the present embodiment, flat surface portions 14D extending outward and orthogonal to the lateral outer periphery 14C are formed at both end portions of the arc-shaped convex portion 14A and both end portions of the arc-shaped concave portion 14B. Providing such a flat surface portion 14D is advantageous in that the product yield when the main body portion 12 (surface covering member 10) is formed of porous concrete can be improved. Further, it is also advantageous in that breakage of both end portions of the arc-shaped convex portion 14A and both end portions of the arc-shaped concave portion 14B during handling of the surface covering member 10 can be prevented.

  Further, an anchor pin hole 16 for driving an anchor pin AP (see FIGS. 5 and 6) for fixing the surface covering member 10 at the center position of the radius of curvature of the arcuate convex portion 14A. Can also be made to penetrate through the thickness direction of the main body 12. Furthermore, a lifting tool mounting body (not shown) for mounting the lifting tool may be embedded in the upper surface of the main body portion 12.

  Further, as shown in FIG. 3, a first covering end surface covering member 20 and a second disposing end surface covering member 30 are provided as the covering end surface covering members corresponding to the surface covering member 10. It is preferable to use it. As shown in FIG. 3, the first disposing end surface covering member 20 has a second disposing end portion at a central portion of one of the long sides of the rectangular portion 21 which is a plate-shaped main body portion. An arc-shaped concave portion 22 that can enter the arc-shaped convex portion 32 of the surface covering member 30 is formed, and the overall shape is formed in a concave shape. Like the surface covering member 10, the pattern convex part 23 can also be formed in the upper surface of the surface covering member 20 for 1st arrangement | positioning edge parts.

  In addition, the second disposed end surface covering member 30 is formed in an arc-shaped first disposed end surface covering member 20 at a central portion of one of the long sides of the rectangular portion 31 which is a plate-shaped main body. An arc-shaped convex portion 32 that can enter the concave portion 22 is formed, and the entire shape is formed in a convex shape. Like the surface covering member 10, the pattern convex part 33 can also be formed in the upper surface of the surface covering member 30 for 2nd arrangement | positioning edge parts. Further, the arc-shaped concave portion 22 of the first disposed end surface covering member 20 has a shape that allows the arc-shaped convex portion 14A of the surface covering member 10 to enter (the same planar shape as the arc-shaped convex portion 14A). Preferably). And the arc-shaped convex part 32 of the surface covering member 30 for 2nd arrangement | positioning edge parts is a shape (the same planar shape as the arc-shaped recessed part 14B) which can make the arc-shaped recessed part 14B of the surface covering member 10 approach. Is preferable).

  In the first covering end surface covering member 20 and the second disposing end surface covering member 30 formed in this way, lifting tool attachments are appropriately disposed in the same manner as the surface covering member 10. You can also. Further, the position where the anchor pin hole is formed in the first covering end surface covering member 20 is a position on the vertical line from the top of the arc-shaped recess 22 toward the disposing edge contact side 26. It is preferable to arrange. When the anchor pin hole is drilled in the second covering end surface covering member 30, it is preferably disposed at the center position of the arc of the arc-shaped convex portion 32.

  The side outer periphery 24 and the side outer periphery 34 in FIG. 3 correspond to the side outer periphery 14 </ b> C in the surface covering member 10. Similarly, the configurations of the flat surface portion 25 and the flat surface portion 35 in FIG. 3 correspond to the flat surface portion 14 </ b> D in the surface covering member 10. Further, similarly, the arrangement edge contact side 26 and the arrangement edge contact side 36 in FIG. 3 are portions corresponding to (contact) the end positions in the arrangement target range of the surface covering member 10.

  In addition, the surface covering member 20 for 1st arrangement | positioning edge parts and the surface covering member 30 for 2nd arrangement | positioning edge parts are the surface covering members 10 shown in FIG. 1 between the arc-shaped convex part 14A and the arc-shaped recessed part 14B. It can also be obtained by dividing the main body 12.

  Next, a plurality of the surface covering member 10, the first disposing end surface covering member 20, and the second disposing end surface covering member 30 (disposing end surface covering member) in the present embodiment are included in the construction target range. A surface coating method for covering the construction target range by using a single unit (a plurality of the side by side) will be described with reference to the drawings. FIG. 4 is a schematic process diagram of the surface covering method in the present embodiment, and FIG. 5 is a plan view showing an example of a laying state of the surface covering member and the arrangement end surface covering member in the present embodiment.

  First, the arrangement edge contact side 26 of the rectangular portion 21 in the first covering end surface covering member 20 is brought into contact with or separated from the start end portion of the construction target range only by the width dimension of the joint material 40. It arrange | positions and forms the joint material 40 as needed (surface covering member arrangement | positioning process for arrangement | positioning edge parts to a start-end part). Next, the arc-shaped convex portion 14A of the surface covering member 10 is caused to enter the concave-convex portion 22 of the first covering end surface covering member 20 so as to be unevenly fitted (concave-convex fitting step 1). Next, the anchor pin AP is driven into the anchor pin hole 16 of the surface covering member 10 (anchor pin placing step 1). Next, with the anchor pin AP as the center of rotation, the arc-shaped convexity of the surface covering member 10 along the arc-shaped concave portion 22 of the first covering end surface covering member 20 so as to match the alignment of the construction target range. The part 14A is rotated, and the positioning angle of the surface covering member 10 is finely adjusted for positioning (positioning step 1). When the position of the surface covering member 10 with respect to the first covering end surface covering member 20 is determined, a joint such as a non-shrinkable mortar is formed in the gap portion between the first covering end surface covering member 20 and the surface covering member 10. The material 40 is formed (joint material forming step 1).

  Next, the adjacent surface covering member 10A adjacent to the surface covering member 10 disposed immediately before at a required position is installed. The adjacent surface covering member 10 </ b> A is formed in the same shape as the surface covering member 10. Specifically, the arc-shaped convex portion 14A of the adjacent surface covering member 10A is inserted into the arc-shaped concave portion 14B of the surface covering member 10 disposed at a required position so as to be engaged with the concave and convex portions (the concave-convex fitting step). 2). Next, the anchor pin AP is driven into the anchor pin hole 16 of the adjacent surface covering member 10A (anchor pin placing step 2). Next, the arc-shaped convex portion 14A of the adjacent surface covering member 10A is rotated along the arc-shaped concave portion 14B of the previous surface covering member 10 so that the anchor pin AP is set as the center of rotation and matches the alignment of the construction target range. (Positioning step 2). When the arrangement position of the adjacent surface covering member 10A adjacent to the previous surface covering member 10 is determined, a joint material 40 such as a non-shrink mortar is formed in a gap portion between the previous surface covering member 10 and the adjacent surface covering member 10A ( Joint material forming step 2).

  Along the construction target range, the uneven fitting process part 2, the positioning process part 2, and the joint material forming process part 2 are repeated, and a plurality of adjacent surface covering members 10A are provided side by side. Then, at the end portion of the construction target range, the arc-shaped convex portion 32 of the second disposed end portion surface covering member 30 is concavo-convexly fitted into the arc-shaped concave portion 14B of the adjacent surface covering member 10A disposed immediately before. The arrangement edge contact side 36 of the rectangular part 31 is arranged so as to contact the terminal part of the construction target range or to be separated by the width dimension of the joint material 40 (arrangement to the terminal part). Surface covering member disposing step for installation end). Further, between the adjacent surface covering member 10A and the second disposing end surface covering member 30 and between the second disposing end surface covering member 30 and the end portion of the construction target range as necessary. A joint material such as a non-shrink mortar is formed in a gap portion between them (joint material forming step 3).

  The surface covering at the start end portion and the end end portion of the construction target range may be performed with cast-in-place concrete or the like without using the first disposing end surface covering member 20 and the second disposing end surface covering member 30. Is possible. In this case, the process regarding arrangement | positioning of the surface covering member 20 for 1st arrangement | positioning edge parts and the surface covering member 30 for 2nd arrangement | positioning edge parts can be skipped.

  By performing each of the above steps, the laying line of the surface covering member 10 can be a curve along the alignment of the construction target range as shown in FIG. By adopting such a laying method, extremely good workability can be achieved when surface covering is performed along curved laying lines such as bank protection works for riverbanks and rivers. This is advantageous in that the appearance aesthetics can be improved. If the positioning step 1 and the positioning step 2 are omitted, the laying line of the surface covering member 10 can be made straight as shown in FIG.

  As described above, the surface covering member 10, the first disposing end surface covering member 20, the second disposing end surface covering member 30, and the surface covering method in which a plurality of these are disposed in the construction target range in the present embodiment. Although described, the technical scope of the present invention is not limited to the above embodiments. For example, in the above embodiment, the shape shown in FIG. 1 and FIG. 2 is adopted for the surface covering member 10, but a shape as shown in FIG. 7 can also be adopted. That is, the surface covering member 10 is formed to have an arcuate convex portion 14A and a radius of curvature that is the same as the radius of curvature of the arcuate convex portion 14A, and a shallower dimension than the protruding height dimension of the arcuate convex portion 14A. Any plate-like body in which the circular arc-shaped concave portion 14B is formed may be used.

  Accordingly, the arrangement of the pattern convex portion 13 described in the above embodiment, the side outer periphery 14C between the hem portion of the arc-shaped convex portion 14A, both end portions of the arc-shaped concave portion 14B, and the side outer periphery 14C The formation of the orthogonal flat surface portion 14D and the arrangement of the anchor pin hole 16 and the lifting tool mounting body can be omitted. Similarly to FIG. 3, if the surface covering member 10 shown in FIG. 7 is divided into two at the midway position of the lateral outer periphery 14C, the first disposing end portion corresponding to the surface covering member 10 shown in FIG. A surface covering member and a second covering end surface covering member (both not shown) can be obtained.

  When the shape shown in FIG. 7 is adopted, the problem of yield rate and the problem of breakage during handling can be avoided by forming the surface covering member 10 from synthetic resin or the like. The surface covering member 10, the first disposing end surface covering member 20, and the second disposing end surface covering member 30 are not limited to porous concrete, synthetic resin, or the like, and are formed using arbitrary raw materials. be able to.

  Further, in the above embodiment, when the surface covering member 10 is laid in the construction target range, the first covering end surface covering member 20 is disposed at the start end portion of the disposing target range, and the disposing target. Although the order in which the second covering end portion surface covering member 30 is disposed at the end portion of the range is shown, the present invention is not limited to this order. The surface covering member 30 for the 2nd arrangement | positioning edge part is arrange | positioned in the start end part of the arrangement | positioning object range, and the circular arc shape of the surface coating | coated member 10 in the circular-arc-shaped convex part 32 of the surface covering member 30 for 2nd arrangement | positioning edge parts. The surface covering member 10 may be further connected after the recess 14B is appropriately connected. And in the terminal part of the arrangement | positioning object range, the circular-arc-shaped convex part 14A of the surface covering member 10 arrange | positioned just before the terminal part of the arrangement | positioning object range has the circular arc shape of the surface covering member 20 for 1st arrangement | positioning edge parts. The recesses 22 may be arranged so as to be appropriately connected.

  In the above laying method, the anchor pin placing step for placing the anchor pin AP in the anchor pin hole 16 is provided, but the anchor pin placing step can be omitted. If there is no anchor pin hole 16, a step of drilling the anchor pin hole 16 may be added before the anchor pin AP is driven.

  In any construction sequence, the connection between the first covering end surface covering member 20 and the surface covering member 10 was made to enter the arcuate concave portion 22 so that the arcuate convex portion 14A was fitted into the concave and convex portions. Thereafter, the arcuate convex portion 14A may be positioned and connected by appropriately rotating along the arcuate concave portion 22. Similarly, after the second covering end surface covering member 30 and the surface covering member 10 are connected to the arc-shaped convex portion 32 so as to fit the arc-shaped concave portion 14B, The arcuate recess 14B may be positioned and connected by appropriately rotating along the arcuate projection 32.

  Further, the surface covering member 10, the first disposing end surface covering member 20, the second disposing end surface covering member 30, and the surface covering method according to the present invention are the embodiments and various modifications described above. Can also be realized by an appropriate combination.

10 surface covering member, 10A adjacent surface covering member,
12 body part, 13 pattern convex part, 14 outer periphery,
14A Arc-shaped convex part, 14B Arc-shaped concave part, 14C Lateral outer periphery, 14D Flat surface part,
16 Anchor pin hole,
20 surface covering member for first arrangement end,
21 rectangular portion, 22 concave portion, 23 pattern convex portion, 24 lateral outer periphery, 25 flat surface portion,
26 arrangement edge contact side,
30 Surface covering member for second arrangement end,
31 rectangular portion, 32 convex portion, 33 pattern convex portion, 34 lateral outer periphery, 35 flat surface portion,
36 arrangement edge contact side,
40 joint materials,
AP anchor pin,
h1 Projection height of arc-shaped convex part, h2 Depth depth dimension of arc-shaped concave part

Claims (11)

The body part is plate-shaped, and is a surface covering member used for covering the surface of the construction target range with a plurality of parts,
In the outer periphery of the main body,
An arcuate convex portion;
An arcuate recess that is provided on the opposite side of the arcuate protrusion and into which the arcuate protrusion can enter;
A surface covering member characterized by being formed.   The surface covering member according to claim 1, wherein the arc-shaped concave portion is formed to have a recess size shallower than a protruding height size of the arc-shaped convex portion.   The surface covering member according to claim 1, wherein a radius of curvature of the arc-shaped convex portion is equal to a radius of curvature of the arc-shaped concave portion.   The flat surface part extended outward is formed in the both ends of the said circular-arc-shaped convex part, and the both ends of the said circular-arc-shaped recessed part, respectively, The Claims 1-3 characterized by the above-mentioned. Surface covering member.   It is formed with porous concrete, The surface covering member as described in any one of Claims 1-4 characterized by the above-mentioned.   The surface covering member according to any one of claims 1 to 5, wherein an anchor pin hole is formed at a center position of the arc of the arc-shaped convex portion. A surface covering member for a first arrangement end, in which an arc-shaped recess is formed on one side of the outer periphery of the plate-shaped main body,
A surface covering member for a second arrangement end portion in which an arc-shaped convex portion capable of entering the concave portion is formed on one side of the outer periphery of the plate-shaped main body portion;
The surface covering member for arrangement | positioning edge parts characterized by having. A surface coating method for coating a surface of a construction target range using a plurality of the surface coating members according to any one of claims 1 to 5,
The arc-shaped concave portion of the surface covering member disposed at a required position has the same shape as the surface covering member disposed at the required position, and is arranged adjacent to the surface covering member disposed at the required position. An uneven fitting process for entering the arcuate convex portion of the adjacent surface covering member to be set so as to be unevenly fitted,
A positioning step of positioning the adjacent surface covering member by rotating the arcuate convex portion of the adjacent surface covering member along the circular arc concave portion of the surface covering member disposed at the required position;
Forming a joint material between the surface covering member disposed at the required position and the adjacent surface covering member;
The surface coating method characterized by repeatedly performing. A surface coating method for coating a surface of a construction target range using a plurality of surface coating members according to claim 6,
The arc-shaped concave portion of the surface covering member disposed at the required position has the same shape as the surface covering member disposed at the required position and is adjacent to the surface covering member disposed at the required position. An uneven fitting step for entering the arcuate convex portion of the adjacent surface covering member to be provided so as to make an uneven fit; and
An anchor pin placing step of placing an anchor pin in the anchor pin hole of the adjacent surface covering member;
The adjacent surface covering member is formed by rotating the arc-shaped convex portion of the adjacent surface covering member along the arc-shaped concave portion of the surface covering member disposed at the required position with the anchor pin as a center of rotation. A positioning process for positioning
Forming a joint material between the surface covering member disposed at the required position and the adjacent surface covering member;
The surface coating method characterized by repeatedly performing. Further using the surface covering member for arrangement end part according to claim 7,
The surface covering member for the first disposing end portion is disposed at the start end portion of the construction target range, and the arc-shaped protrusion of the surface covering member disposed adjacent to the surface covering member for the first disposing end portion. A step of positioning the circular arc-shaped convex portion along the concave portion after the portion has entered the concave portion so as to fit the concave and convex portions;
The surface covering member for the second disposing end portion is disposed at a terminal portion of the construction target range, and the surface covering member disposed at a position adjacent to the surface covering member for the second disposing end portion. A step of positioning the convex portion along the arc-shaped concave portion after allowing the convex portion to enter the arc-shaped concave portion so as to fit the concave-convex portion;
Forming joints between the first covering end surface covering member and the surface covering member, between the surface covering member and the second disposing end surface covering member;
The surface coating method according to claim 8, further comprising: Further using the surface covering member for arrangement end part according to claim 7,
The arc-shaped concave portion of the surface covering member that is disposed adjacent to the surface covering member for the second disposing end portion, the surface covering member for the second disposing end portion is disposed at the start end portion of the construction target range. , The step of rotating the arcuate concave portion along the convex portion and positioning it so as to fit the convex portion to the concave portion,
The surface covering member for the first disposing end portion is disposed at a terminal portion of the construction target range, and the surface covering member disposed at a position adjacent to the surface covering member for the first disposing end portion. A step of positioning the concave portion along the arc-shaped convex portion after allowing the concave portion to enter the concave portion and the arc-shaped convex portion;
Forming joints between the first covering end surface covering member and the surface covering member, between the surface covering member and the second disposing end surface covering member;
The surface coating method according to claim 8, further comprising:

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