JP6339352B2 - Tile connecting sheet and unit tile having the same - Google Patents

Description

  The present invention relates to a tile connecting sheet and a unit tile having the same.

  2. Description of the Related Art Conventionally, unit tiles in which a plurality of tiles are connected are known in order to reduce the number of construction steps in attaching tiles to a base such as a wall surface. In order to connect a plurality of tiles in a unit tile, a tile connection sheet having a large number of holes is used. The tile connection sheet is used by being adhered to the back surface of the tile. In order to firmly bond the tile of the unit tile to the base such as the wall surface, the ratio of the area of the hole to the entire area of the tile connection sheet (hereinafter sometimes referred to as “opening ratio”) should be as large as possible. .

  Therefore, it has been proposed to use a tile connection sheet knitted with a glass fiber having a large opening ratio and high strength, particularly as a tile connection sheet used outdoors that is bonded to a relatively heavy tile and exposed to a severe environment (for example, , See Patent Document 1). On the other hand, since the tiles used are lighter than the tiles for the outer wall, it is not necessary to adhere the tile and the base as firmly as outdoors. Therefore, as a tile connecting sheet used indoors, a tile connecting sheet in which a plurality of holes are cut out from a sheet material made of paper or the like, which is advantageous in terms of cost and ease of processing, is often used. .

JP 2006-45970 A

  By the way, when using a tile connection sheet made of paper, etc., which is advantageous in terms of cost and ease of processing, with a plurality of holes cut out, the adhesion between the tile and the ground is strengthened. Therefore, it is necessary to increase the aperture ratio. In order to increase the aperture ratio of the tile connection sheet, it is conceivable to increase the hole portion or to narrow the width of the partition wall that separates adjacent hole portions. That is, in order to increase the opening ratio of the tile connection sheet from which a plurality of hole portions are cut out, the area of the portion derived from the sheet material in the tile connection sheet, that is, the area of the partition wall may be reduced as much as possible.

  However, in the tile connection sheet in which a plurality of hole portions are cut out, the strength is lowered when the area of the partition wall portion is reduced. Moreover, in the tile connection sheet from which a plurality of holes are cut out, when the area of the partition wall is reduced, the width of the partition wall with respect to the size of the hole is reduced. When the width of the partition wall is narrowed, the tile connecting sheet is likely to be twisted or distorted by being pulled.

  The present invention has been made in view of the above, and an object of the present invention is to provide a tile connection sheet that has high strength and shape stability, is inexpensive, and can be easily manufactured.

  (1) In order to achieve the above object, the present invention is a tile connection sheet for connecting a plurality of tiles (for example, tile connection sheets 1 and 1A to E described later), and is formed by cutting out the sheet regularly. Polygonal holes (for example, holes 20 and 20A to E described later) continuously arranged on the wall, and partition walls (for example, partition walls 30 and 30A to E described later) that separate the adjacent holes from each other A tile connection sheet is provided that includes a branch portion (for example, branch portions 40, 40A to E described later) extending straight from one end to the other end of the tile connection sheet and penetrating through the hole.

  In the invention of (1), in a tile connection sheet that is formed by cutting out a sheet and includes a plurality of regularly arranged polygonal holes, the tile connection sheet is straight from one end to the other end. A branch that extends and penetrates the hole is provided. As a result, even if the tile connecting sheet is pulled in the extending direction of the branch portion, the branch portion supports the load, so the shape of the hole is distorted and the partition wall portion is twisted in the out-of-plane direction of the tile connecting sheet. Can be prevented. Therefore, the tile connection sheet according to the invention of (1) is inexpensive and easy to manufacture, and even when a large hole is formed in order to improve the adhesion between the tile and the base, the strength and shape are effectively stabilized. Can increase the sex.

  (2) The shape of the hole is preferably a hexagon.

  In the invention of (2), the hole is a hexagon. Thereby, the hexagon can disperse the stress from all directions, and the shape stability is particularly high among polygons. Therefore, in the tile connection sheet 1 according to the invention of (2), the shape of the hole is not easily distorted, and the shape stability becomes higher.

  (3) It is preferable that the tile connection sheet has a honeycomb structure in which the hexagonal hole portions are closely arranged via the partition wall portions having a constant width.

  In the invention of (3), the tile connection sheet has a honeycomb structure in which hexagonal holes are closely arranged via partition walls having a constant width. Thereby, the aperture ratio of a tile connection sheet becomes high. Therefore, according to the tile connection sheet according to the invention of (3), the tile and the base can be firmly bonded when used by being bonded to the tile.

  (4) It is preferable that the said branch part penetrates the center of the said hole.

  In the invention of (4), the branch part shall penetrate the center of the hole. Thereby, it can prevent stably the hole part which a branch part penetrates by the force by which a tile connection sheet is pulled in the direction where a branch part extends. Therefore, the tile connection sheet 1 according to the invention of (4) has higher shape stability.

  (5) The holes adjacent to each other in a direction in which the branch extends (for example, a Y direction described later) are shifted by a half cycle in a direction orthogonal to the direction in which the branch extends (for example, the X direction described later). It is preferable that

  In the invention of (5), the hole portions adjacent in the direction in which the branch portion extends are arranged so as to be shifted by a half cycle in the direction orthogonal to the direction in which the branch portion extends. Thereby, the force by which the tile connecting sheet is pulled in the extending direction of the branch portions can be dispersed with a good balance. Therefore, the tile connection sheet according to the invention of (5) has higher shape stability.

  (6) It is preferable that a part of the branch part also serves as the partition wall part.

  In the invention of (6), a part of the branch part also serves as the partition part. Thereby, a branch part can be provided, suppressing the reduction | decrease of the aperture ratio of the tile connection sheet 1. FIG. Therefore, in the tile connection sheet according to the invention of (6), it is possible to achieve both improvement in strength and maintenance of adhesiveness to the base of the tile when used while being adhered to the tile.

  (7) Of the corners of the hole, an obtuse corner (for example, a first corner V1, a second corner V2, a third corner V3, a fourth corner V4, and a fifth corner V5 described later). And the sixth corner portion V6) is preferably chamfered.

  In the invention of (7), chamfering is performed on the corners that are obtuse among the corners of the hole. Thereby, it can prevent that a stress will concentrate on the corner | angular part of a hole part and a tile connection sheet will be torn. Therefore, in the tile connection sheet according to the invention of (7), the strength can be further improved.

  (8) It is preferable that the said sheet | seat consists of paper, a nonwoven fabric, or a resin sheet.

  According to the invention of (8), a tile connection sheet that is inexpensive and easy to manufacture can be provided.

  (9) The tile connection sheet that connects the plurality of tiles by being attached to a plurality of tiles (for example, a tile 50 described later) and a back surface (for example, a back surface 51 described later) of the plurality of tiles. And the tile connecting sheet is attached to the plurality of tiles with the extending direction of the branch portion as a vertical direction when the unit tile is constructed. A unit tile is provided.

In the invention of (9), the tile connection sheet is affixed to the back surfaces of the plurality of tiles so that the extending direction of the branch portions is the vertical direction when the unit tile is constructed.
According to the invention of (9), it is possible to provide a unit tile having high adhesion to the base and high strength.

  According to the present invention, it is possible to provide a tile connection sheet that has high strength and shape stability, is inexpensive, and can be easily manufactured.

It is a top view of the tile connection sheet which concerns on one Embodiment of this invention. It is a figure shown about the hole part of the tile connection sheet which concerns on the said embodiment, (a) is a figure shown about the hole part which a branch part does not penetrate, (b) is a figure shown about the hole part which a branch part penetrates. . It is a figure shown about the detail of the tile connection sheet which concerns on the said embodiment, and is an enlarged view of FIG. It is a figure which compares about the hole of the conventional tile connection sheet, and the hole of the tile connection sheet which concerns on the said embodiment, (a) is a figure shown about the hole of the conventional tile connection sheet, (b) is the said It is a figure shown about the hole of the tile connection sheet which concerns on embodiment. It is a figure shown about the use condition of the tile connection sheet which concerns on the said embodiment. It is a fragmentary top view of the tile connection sheet which concerns on the modification 1 of the said embodiment. It is a partial top view of the tile connection sheet which concerns on the modification 2 of the said embodiment. It is a fragmentary top view of the tile connection sheet which concerns on the modification 3 of the said embodiment. It is a fragmentary top view of the tile connection sheet which concerns on the modification 4 of the said embodiment. It is a fragmentary top view of the tile connection sheet which concerns on the modification 5 of the said embodiment.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a plan view of a tile connection sheet 1 according to an embodiment of the present invention.
As shown in FIG. 1, the tile connection sheet 1 has a rectangular shape. The tile connection sheet 1 includes a plurality of hexagonal hole portions 20 formed by cutting out a rectangular sheet, a partition wall portion 30 that separates adjacent hole portions 20, and one end of the tile connection sheet 1 facing each other. 1 to the other end (from the upper end to the lower end of the tile connection sheet 1 in FIG. 1), and a branch portion 40 penetrating the hole.

  The sheet | seat used as the raw material of the tile connection sheet 1 consists of paper, a nonwoven fabric, or a resin sheet. The tile connecting sheet 1 includes a side 11 on one end side in the Y direction (vertical direction in FIG. 1) and a side 12 on the other end side, and a side on one end side in the X direction (lateral direction in FIG. 1) orthogonal to the Y direction. 13 and the other end side 14 are formed in a rectangular shape.

The holes 20 are regularly arranged continuously in the same direction. More specifically, the hole 20 is adjacent to the two holes 20 via the partition wall 30 in the X direction, and is adjacent to the four holes 20 via the partition wall 30 in the Y direction. The adjacent holes 20 in the Y direction are arranged with a half cycle shift in the X direction. Here, the “period” is a distance in the X direction between an end portion on one side in the X direction of the hole portion 20 and an end portion on one side of the hole portion 20 adjacent to the hole portion 20 in the X direction. .
Thus, the tile connection sheet 1 has a honeycomb structure in which the hexagonal hole portions 20 are closely arranged via the partition walls 30 having a constant width (for example, 2.7 mm).

  As shown in FIG. 1, as the hole 20, a hole 20 that does not penetrate a branch 40 (hole 20 in the structure U <b> 1), which will be described later, and a hole 20 that penetrates the branch 40 (hole 20 in the structure U <b> 2). Exists. Details of the structures U1 and U2 will be described later.

  As shown in FIG. 1, the branch portion 40 extends linearly in the Y direction and penetrates the center of the hole portion 20. The branch part 40 has a hole penetrating part 41 penetrating the center of the hole part 20 and a hole non-passing part 42 that also serves as the partition wall part 30 that separates the adjacent hole parts 20 in the X direction. The width of the branch part 40 is equal to the width of the partition wall part 30 (for example, 2.7 mm).

  Five branch portions 40 are arranged side by side in the X direction. In the branch portions 40 adjacent to each other in the X direction, the order in which the hole penetrating portion 41 and the hole non-passing portion 42 are arranged in the Y direction is reversed. With such an arrangement, it is possible to distribute the tile load applied to the tile connection sheet 1 when the tile connection sheet 1 is used.

Next, the structures U1 and U2 in the tile connection sheet 1 will be described.
FIG. 2A is a diagram illustrating the structure U1 in the tile coupling sheet 1, and FIG. 2B is a diagram illustrating the structure U2 in the tile coupling sheet 1. FIG. FIGS. 2A and 2B are enlarged views of the structures U1 and U2 in FIG. 1, respectively.
As shown in FIGS. 2A and 2B, the partition wall portion 30 includes a first partition wall portion 31 disposed at the upper right, upper left, left, lower left, lower right and right of the hole 20 in FIG. The second partition wall portion 32, the third partition wall portion 33, the fourth partition wall portion 34, the fifth partition wall portion 35, and the sixth partition wall portion 36. In structure U2, since branch 40 penetrates hole 20 as shown in FIG. 2 (b), hole 20 is arranged on the right and left of branch 40 in FIG. 2 (b), respectively. The first hole 21 and the second hole 22 are configured.

  By the way, the hole 20 is not a regular hexagon but a hexagon extending in the Y direction. For example, the length W in the X direction of the hole 20 is 17 mm, and the length L in the Y direction of the hole 20 is 23 mm.

  Further, in the structure U1, as shown in FIG. 2A, the hole 20 includes a first corner portion V1 formed by the first partition wall portion 31 and the second partition wall portion 32, a second partition wall portion 32, and By the second corner V2 formed by the third partition wall 33, the third corner V3 formed by the third partition wall 33 and the fourth partition wall 34, the fourth partition wall 34 and the fifth partition wall 35. A fourth corner portion V4 formed, a fifth corner portion V5 formed by the fifth partition wall portion 35 and the sixth partition wall portion 36, and a sixth corner formed by the sixth partition wall portion 36 and the first partition wall portion 31. Part V6. In the structure U2, as shown in FIG. 2B, the hole 20 includes the second corner V2, the third corner V3, the fifth corner V5, the sixth corner V6, and the first corner V2. A seventh corner portion V7 and an eighth corner portion V8 formed by dividing the corner portion V1 by the branch portion 40, and a ninth corner portion formed by dividing the fourth corner portion V4 by the branch portion. V9 and the tenth corner V10.

  The angles (for example, 140 °) of the first corner portion V1 and the fourth corner portion V4 in the hole 20 are the second corner portion V2, the third corner portion V3, the fifth corner portion V5, and the sixth corner portion V6 (for example, , 110 °). As described above, the first corner portion V1 and the fourth corner portion V4 are formed so that the angles thereof are larger than those of the second corner portion V2, the third corner portion V3, the fifth corner portion V5, and the sixth corner portion V6. Compared with the case where the part 20 is a regular hexagon, the area of the blank where the hole part 20 is not formed can be reduced at one end and the other end in the Y direction of the tile connecting sheet 1 (see FIG. 1). If the area of the blank in which the hole 20 is not formed can be reduced at one end and the other end in the Y direction of the tile connecting sheet 1, the opening ratio of the tile connecting sheet 1 can be increased.

FIG. 3 is a diagram showing details of the tile connection sheet 1, and is an enlarged view of a region R in FIG.
As shown in FIG. 3, the first corner V1, the second corner V2, the third corner V3, the fourth corner V4, the fifth corner V5, and the sixth corner V6 in the hole 20 are obtuse angles. , Chamfered. In other words, the first corner V1, the second corner V2, the third corner V3, the fourth corner V4, the fifth corner V5, and the sixth corner V6 in the hole 20 are rounded.
On the other hand, as shown in FIG. 2B, the seventh corner V7, the eighth corner V8, the ninth corner V9, and the tenth corner V10 in the hole 20 are acute angles (for example, 70 °). .

  Subsequently, referring to FIG. 4, the conventional tile connection sheet 1P and the tile connection sheet 1 according to the embodiment are compared. FIG. 4A is a view showing the hole 20P of the conventional tile connecting sheet 1P and its periphery, and FIG. 4B is a hole 20 through which the branch part 40 of the tile connecting sheet 1 according to the above embodiment passes. It is a figure shown about it and its periphery.

  The tile connection sheet 1P has a honeycomb structure having no branch portion. As shown in FIG. 4A, when a force pulling in the vertical direction (force in the direction of arrow F1) is applied to the tile connecting sheet 1P, the force pulls up the first partition wall portion 31P and the second partition wall portion 32P. In addition, it becomes a force (force in the direction of arrow F2) for pulling down the fourth partition wall portion 34P and the fifth partition wall portion 35P. Due to the force in the direction of arrow F2, the third partition wall portion 33P and the sixth partition wall portion 36P are deformed into the shape of the broken line shown in FIG. 4A, the shape of the hole 20P is distorted, and the partition wall portion 30P becomes the tile connecting sheet. 1P is twisted in the out-of-plane direction.

  On the other hand, as shown in FIG. 4B, when a force pulling in the vertical direction (force in the direction of arrow F <b> 1) is applied to the tile connection sheet 1 according to the present embodiment, the force penetrates the hole of the branch portion 40. The force that pulls the portion 41 in the vertical direction in FIG. 4B (force in the direction of arrow F3) is reduced, and the force corresponding to the force in the direction of arrow F2 shown in FIG. As described above, in the tile connection sheet 1, a force that tends to distort the shape of the hole portion 20 can be suppressed by the branch portion 40 that penetrates the hole portion 20. In addition, in the tile connection sheet 1, the deformation of the hole 20 through which the branch part 40 does not penetrate is suppressed by the presence of the hole 20 through which the branch part 40 penetrates.

Then, the manufacturing method of the tile connection sheet 1 is demonstrated.
The tile connection sheet 1 can be manufactured by cutting out rectangular paper, nonwoven fabric, or a resin sheet to form the hole 20. The method for cutting out the hole 20 is not particularly limited. The hole 20 may be cut out using a cutter such as a cutter knife, or the hole 20 may be formed using a punch. Needless to say, when the tile connection sheet 1 is manufactured, the hole 20 in the structure U1 and the hole 20 in the structure U1 have different shapes from which the material is cut out.

  The dimensions of the tile connection sheet 1 are, for example, a length in the Y direction of 285 mm and a length in the X direction of 200 mm. As a dimension of the tile connection sheet 1, the length in the Y direction is preferably 50 to 500 mm, and the length in the X direction is preferably 20 to 300 mm. If it is smaller than these dimensions, it tends to be difficult to connect many tiles. Conversely, if it is larger than these dimensions, many tiles can be connected. The sheet 1 tends to be easily damaged.

  The thickness of the tile connection sheet 1 (the material sheet of the tile connection sheet 1) is, for example, 0.2 mm. The thickness of the tile connection sheet 1 is preferably 0.05 to 1 mm. When the thickness of the tile connection sheet 1 is less than 0.05, the strength of the tile connection sheet 1 tends to be low. When the thickness of the tile connection sheet 1 exceeds 1 mm, the distance between the tile and the base is increased when the tile connection sheet 1 described later is used, and the adhesiveness tends to be lowered.

The area of the hole 20 in the tile connection sheet 1 is, for example, 357 mm ² . The area of the hole 20 in the tile connection sheet 1 is preferably 200 to 400 mm ² . When the area of the hole 20 is less than 200 mm ² , the adhesiveness between the tile and the ground tends to be low when the tile connection sheet 1 described later is used. When the area of the hole 20 exceeds 400 mm ² , the strength of the tile connection sheet 1 tends to be low.

  The aperture ratio in the tile connection sheet 1 (the ratio of the total area of the holes 20 to the area of the entire tile connection sheet 1) is, for example, 72.5%. It is preferable that the aperture ratio in the tile connection sheet 1 is 68 to 75%. When the opening ratio in the tile connection sheet 1 is less than 68%, the adhesion between the tile and the ground tends to be low when the tile connection sheet 1 described later is used. When the aperture ratio in the tile connection sheet 1 exceeds 75%, the strength of the tile connection sheet 1 tends to be low.

Then, the use condition (construction method) of the tile connection sheet 1 is demonstrated. FIG. 5 is a view showing the usage state of the tile connection sheet 1 and is a perspective view of the unit tile 100.
The unit tile 100 includes a plurality of tiles 50 and a tile connection sheet 1 that connects the plurality of tiles 50 by being attached to the back surface 51 of the plurality of tiles 50. The tile connection sheet 1 is attached to the plurality of tiles 50 with the extending direction of the branch portion 40 (Y direction) as the vertical direction when the unit tile 100 is constructed.

  Although not shown, a coating layer is formed on the back surface 51 side of the tile 50 of the tile connection sheet 1, and the tile connection sheet 1 and the plurality of tiles 50 are bonded to each other by the coating layer. Although it does not specifically limit as a raw material for forming a coating layer, Various synthetic resins, such as an acrylic type, EVA (ethylene vinyl acetate) type, an epoxy type, a urethane type, these mixtures, etc. are mentioned. In addition, when the size of the tile 50 is small, the tile connection sheet 1 can be used by being cut along the branch portion 40.

  As shown in FIG. 5, the tile 50 has a rectangular plate shape. The tiles 50 are arranged so that the longitudinal direction is the X direction. Two tiles 50 are arranged side by side in the X direction and arranged in six stages in the Y direction. The tiles 50 adjacent in the Y direction are arranged so as to be alternately shifted in the X direction. The tiles 50 are arranged with a predetermined joint width. The tiles 50 adjacent in the Y direction are always connected by one or more identical branches. Further, two or more branch portions 40 are always bonded to one tile 50. With such a structure, the strength of the unit tile 100 is increased.

  As shown in FIG. 5, the unit tile 100 is affixed to a base such as a wall surface so that the Y direction is the vertical direction and the X direction is the horizontal direction. When the unit tile 100 is attached to the base, an elastic adhesive such as silicon or epoxy is applied to the base in advance. Subsequently, the unit tile 100 is bonded to the base before the elastic adhesive applied to the base is solidified.

If the color of the surface of the tile connection sheet 1 on the tile 50 side is the same color or the same color as the color of the elastic adhesive applied to the base of the unit tile 100, the joints between the tiles 50 are formed after the unit tile 100 is constructed. Even if it is not filled, the tile connection sheet 1 can be made inconspicuous.
In addition, by making the width of the branch portion of the tile connection sheet 1 (the interval between the hole portions 20) equal to the width of the comb of the elastic adhesive applied to the base (for example, 3 mm), After the construction, the tile connection sheet 1 can be made inconspicuous without filling the joints between the tiles 50.

According to this embodiment, the following effects are produced.
In the present embodiment, the tile connection sheet 1 includes a plurality of polygonal (hexagonal) hole portions 20 that are formed by cutting out a sheet and regularly arranged continuously in the same direction. A branch portion 40 extending straight from one end to the other end and penetrating through the hole 20 is provided.
Thereby, even if the tile connection sheet 1 is pulled in the extending direction of the branch portion 40 (Y direction), the branch portion 40 supports the load, so that the shape of the hole 20 is distorted and the partition wall portion 30 becomes the tile connection sheet. 1 can be prevented from being twisted in the out-of-plane direction. Therefore, the tile connecting sheet 1 according to the present embodiment is inexpensive and easy to manufacture, and even when the hole 20 is formed large in order to improve the adhesion between the tile 50 and the base, the strength and shape stability are effectively stabilized. Can increase the sex.

In the present embodiment, the hole 20 has a hexagonal shape.
The hexagonal shape can disperse stress from all directions, and has a particularly high shape stability among polygons. Therefore, in the tile connection sheet 1 according to the present embodiment, the shape of the hole 20 is not easily distorted, and the shape stability is higher.

Moreover, in this embodiment, the tile connection sheet 1 has a honeycomb structure in which hexagonal holes 20 are closely arranged via partition walls 30 having a constant width.
Thereby, the aperture ratio of the tile connection sheet 1 is increased. Therefore, according to the tile connection sheet 1 according to the present embodiment, when the tile connection sheet 1 is used while being bonded to the tile 50, the tile 50 and the base can be firmly bonded.

In the present embodiment, the branch portion 40 penetrates the center of the hole portion 20.
Thereby, it can prevent stably that the hole 20 which the branch part 40 penetrates by the force by which the tile connection sheet 1 is pulled in the direction (Y direction) where the branch part 40 extends is distorted. Therefore, the tile connection sheet 1 according to the present embodiment has higher shape stability.

In the present embodiment, the adjacent holes 20 in the Y direction are arranged with a half cycle shift in the X direction.
Thereby, the force by which the tile connection sheet 1 is pulled in the extending direction of the branch portion 40 (Y direction) can be dispersed with a good balance. Therefore, the tile connection sheet 1 according to the present embodiment has higher shape stability.

In the present embodiment, a part of the branch portion 40 also serves as the partition wall portion 30.
Thereby, the branch part 40 can be provided, suppressing the reduction | decrease of the aperture ratio of the tile connection sheet 1. FIG. Therefore, in the tile connection sheet 1 according to the present embodiment, it is possible to achieve both improvement in strength and maintenance of the adhesion of the tile 50 to the ground when used by being bonded to the tile 50.

In the present embodiment, the first corner portion V1, the second corner portion V2, the third corner portion V3, the fourth corner portion V4, the fifth corner portion V5, and the sixth corner that are obtuse among the corner portions of the hole portion 20. The corners were chamfered.
Thereby, it can prevent that a stress concentrates on the corner | angular part of the hole part 20, and the tile connection sheet 1 is torn. Therefore, in the tile connection sheet 1 according to the present embodiment, the strength can be further improved.

Moreover, in this embodiment, the sheet | seat used as the raw material of the tile connection sheet 1 shall consist of paper, a nonwoven fabric, or a resin sheet.
Thereby, the tile connection sheet 1 which is cheap and easy to process can be provided.

Moreover, in this embodiment, the tile connection sheet 1 is affixed on the back surface of the plurality of tiles 50 so that the extending direction of the branch portion is the vertical direction when the unit tile is constructed.
Thereby, the unit tile 100 with high adhesiveness to the foundation and high strength can be provided.

It should be noted that the present invention is not limited to the above-described embodiment, and modifications, improvements, etc. within a scope that can achieve the object of the present invention are included in the present invention.
In the said embodiment, although the hole 20 was made into the hexagon, the hole 20 will not be specifically limited if it is a polygonal shape. The modification of the said embodiment is shown to FIGS.

FIG. 6 is a partial plan view of a tile connection sheet 1A according to Modification 1 of the above embodiment in which the hole 20A is rhombus.
The tile connecting sheet 1A is formed by cutting out a sheet, and is formed by regularly and continuously arranging rhombus holes 20A, partition walls 30A that separate adjacent holes 20A, and holes extending in a straight line in the Y direction. A branch portion 40A penetrating the portion 20A. The branch portion 40A passes through the center of the hole portion 20A. The adjacent holes 20A in the Y direction are arranged with a half cycle shift in the X direction.

FIG. 7 is a partial plan view of a tile connection sheet 1B according to Modification 2 of the above embodiment in which the hole 20B is square.
The tile connecting sheet 1B is formed by cutting out a sheet, and square holes 20B regularly arranged continuously, partition walls 30B separating adjacent hole parts 20B, and holes extending in a straight line in the Y direction. A branch portion 40B penetrating the portion 20B. The branch part 40B penetrates the center of the hole 20B. Further, the adjacent holes 20B in the Y direction are arranged with a half-cycle shift in the X direction. Furthermore, a part of the branch part 40B also serves as the partition part 30B.

FIG. 8 is a partial plan view of a tile connection sheet 1C according to Modification 3 of the above embodiment in which the hole 20C is rectangular.
The tile connecting sheet 1C is formed by cutting out a sheet, the rectangular hole portions 20C regularly arranged continuously, the partition wall portions 30C separating the adjacent hole portions 20C, and the holes extending in a straight line in the Y direction. A branch portion 40C penetrating the portion 20C.

FIG. 9 is a partial plan view of a tile connection sheet 1D according to Modification 4 of the above embodiment in which the hole 20D is an octagon.
The tile connection sheet 1D is formed by cutting out a sheet, and regularly and continuously arranged octagonal holes 20D, partition walls 30D that separate adjacent holes 20D, and a straight line extending in the Y direction. A branch portion 40D penetrating the hole portion 20D. The branch part 40D penetrates the center of the hole part 20D.

FIG. 10 is a partial plan view of a tile connection sheet 1E according to Modification 5 of the above embodiment in which the hole 20E is an octagon.
The tile connection sheet 1E is an sheet in which octagonal holes 20E similar to the tile connection sheet 1D are formed. However, the hole 20E adjacent in the Y direction is different in the X direction from the tile connection sheet 1D. They are arranged with a half-cycle shift. Further, the branch portion 40E passes through the center of the hole 20DE, and a part of the branch portion 40E also serves as the partition wall portion 30E.

DESCRIPTION OF SYMBOLS 1,1A-E ... Tile connection sheet 20, 20A-E ... Hole 30, 30A-E ... Partition part 40, 40A-E ... Branch part 50 ... Tile 51 ... Back surface 100 ... Unit tile V1 ... First corner ( Corner)
V2 ... Second corner (corner)
V3 ... Third corner (corner)
V4 ... Fourth corner (corner)
V5 ... 5th corner (corner)
V6 ... Sixth corner (corner)

Claims (9)

A tile connection sheet for connecting a plurality of tiles,
Hexagonal holes that are formed by cutting out sheets and are regularly arranged continuously,
A partition wall that separates the adjacent holes from each other;
A tile connecting sheet comprising: a branch portion extending straight from one end to the other end of the tile connecting sheet and penetrating the hole portion. Tile connecting sheet according to claim 1 having a closely aligned honeycomb structure through the hexagonal hole is the partition wall portion having a constant width.   The tile connection sheet according to claim 1, wherein the branch portion passes through a center of the hole portion. A tile connection sheet for connecting a plurality of tiles,
Polygonal holes that are formed by cutting out a sheet and regularly arranged continuously;
A partition wall that separates the adjacent holes from each other;
A branch portion extending straight from one end to the other end of the tile connection sheet and penetrating the hole portion,
The tile connection sheet in which the hole portions adjacent to each other in the extending direction of the branch portions are shifted by a half cycle in a direction orthogonal to the extending direction of the branch portions.   The tile connection sheet according to claim 4, wherein the hole has a hexagonal shape.   The tile connection sheet according to any one of claims 1 to 5, wherein a part of the branch part also serves as the partition wall part.   The tile connection sheet according to any one of claims 1 to 6, wherein a chamfer is applied to an obtuse corner among the corners of the hole.   The tile connection sheet according to any one of claims 1 to 7, wherein the sheet is made of paper, non-woven fabric, or a resin sheet. Multiple tiles,
The tile connecting sheet according to any one of claims 1 to 8 , wherein the tile connecting sheet connects the plurality of tiles by being attached to a back surface of the plurality of tiles,
The unit tile according to claim 1, wherein the tile connection sheet is attached to the plurality of tiles with a direction in which the branch portion extends as a vertical direction when the unit tile is constructed.

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