CN112942881B

CN112942881B - Decorative cover and stripping repairing member

Info

Publication number: CN112942881B
Application number: CN202011442488.5A
Authority: CN
Inventors: 中籔朋己; 古内浩志
Original assignee: Goei Co Ltd
Current assignee: Goei Co Ltd
Priority date: 2019-12-10
Filing date: 2020-12-08
Publication date: 2022-07-22
Anticipated expiration: 2040-12-08
Also published as: CN112942881A; JP2021092062A; JP7341474B2

Abstract

The invention provides a decorative cover and a peeling repair member capable of positively preventing the outflow of an adhesive and preventing the protrusion from an anchor pin. A decorative cover (20) for closing a base end portion of an injection hole (11) of an anchor pin (10) with an injection hole, which is inserted into a hole (3) formed in a wall surface, the decorative cover (20) being characterized by comprising: a cover (21) that closes the front end of the hole (3); and a rod part (22) inserted into the injection hole (11), wherein the rod part (22) comprises a whole circumferential rib (28) extending along the circumferential surface of the base end side of the rod part (22) in the whole circumferential direction and a discontinuous rib (29) intermittently extending along the circumferential surface of the top end side of the rod part (22) in the circumferential direction.

Description

Decorative cover and stripping repairing member

Technical Field

The present invention relates to a decorative cover (Japanese: makeup ギャップ) and a peeling and repairing member.

Background

As a construction method for preventing peeling of tiles, mortar, etc. for external walls laid on the surface of a concrete body, for example, construction methods as shown in

patent documents

1 and 2 are known. In this construction method, a hole is formed from the wall surface to the concrete body, an anchor pin with an injection hole is inserted into the hole, an adhesive is injected into the anchor pin and the hole, and then a decorative cover is attached to the base end portion of the anchor pin. The decorative cover employs the structure shown in fig. 7. The decorative cover 101 includes a cover portion 102 and a rod portion 103. The rod 103 is formed with a rib 104 extending in the axial longitudinal direction, and is configured to facilitate insertion of the rod into the anchor pin.

Documents of the prior art

Patent literature

Patent document 1: japanese patent laid-open publication No. 2018-155046 (FIG. 11, etc.)

Patent document 2: japanese patent laid-open publication No. 2018-197477 (FIG. 1, etc.)

Disclosure of Invention

Problems to be solved by the invention

In the conventional decorative cover 101, the adhesive 107 is filled inside the cover 102, and the adhesive 107 may flow out through a gap between the hole and the cover. In addition, when the internal pressure of the filled adhesive 107 is high, the decorative cover 101 may be pushed out from the anchor pin by the internal pressure of the adhesive 107.

The present invention has been made in view of the above problems, and an object thereof is to provide a decorative cover and a peel-off repair member that can positively prevent the outflow of an adhesive and can prevent the protrusion from an anchor pin.

Means for solving the problems

A first aspect of the present invention is to provide a decorative cover for closing a base end portion of an injection hole of an anchor pin with an injection hole inserted into a hole formed in a wall surface. The decoration cover is characterized by comprising: a lid portion that closes a front-side end portion of the hole; and a rod portion inserted into the injection hole, the rod portion including a full-circumference rib extending in an entire circumferential direction along an outer circumferential surface of a base end side of the rod portion and a discontinuous rib intermittently extending in the circumferential direction along an outer circumferential surface of a tip end side of the rod portion.

A second aspect for solving the above problems provides a peel-repair member for adhesively repairing a surface material peeled from a structure body of a wall surface. The peel-off repair member is characterized by comprising: an anchor pin with an injection hole, which is inserted into a hole formed in the wall surface; and a decorative cover for sealing a base end portion of the injection hole of the anchor pin with the injection hole. The anchor pin with the injection hole includes a slit which communicates a gap between the structural body and the surface material with the injection hole, and the decorative cover includes: a lid portion that closes a front-side end portion of the hole; and a rod portion inserted into the injection hole, the rod portion including a full-circumference rib extending in an entire circumferential direction along an outer circumferential surface of a base end side of the rod portion and a discontinuous rib intermittently extending in the circumferential direction along an outer circumferential surface of a tip end side of the rod portion.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the decorative cover and the peel-off repair member of the present invention, the outflow of the adhesive can be prevented and the decorative cover can be prevented from protruding from the anchor pin.

Drawings

Fig. 1 is a sectional view showing a state in which a repair member according to an embodiment of the present invention is peeled.

Fig. 2 is an exploded perspective view of a decorative cover according to an embodiment of the present invention.

Fig. 3 is a perspective view of a decorative cover according to an embodiment of the present invention.

Fig. 4 (a) is a base end side view of a rod portion of a decorative cover according to an embodiment of the present invention, fig. 4 (b) is a front view including a partial cross section, and fig. 4 (c) is a tip end side view.

Fig. 5 (a) is a front view, partially in section, of a cover portion including a decorative cover according to an embodiment of the present invention, and fig. 5 (b) is a front end side view.

Fig. 6 (a) is a cross-sectional view showing an anchor pin insertion process with an injection hole in a step of providing a peeling-off repair member, fig. 6 (b) is a cross-sectional view showing an adhesive filling process, fig. 6 (c) is a cross-sectional view showing a step after the adhesive filling process, and fig. 6 (d) is a cross-sectional view showing a step after a decorative cover insertion process.

Fig. 7 is a perspective view of a conventional decorative cover.

Description of the reference numerals

1. Stripping the repair member; 3. an aperture; 4. a structural body; 5. ceramic tiles (surface material); 6. a gap; 7. an adhesive; 10. an anchor pin with an injection hole; 11. an injection hole; 14. a slit; 20. a decorative cover; 21. a cover portion; 22. a rod portion; 23. a flange portion; 24. a main body part; 24b, a reduced diameter portion; 25. mounting holes; 28. a full circumferential rib; 29. discontinuous ribs.

Detailed Description

Hereinafter, a decorative cover and a peel-off repairing member according to an embodiment of the present invention will be described in detail with reference to the drawings as appropriate. The decorative cover and the stripping and repairing member are used for stripping and repairing surface finishing materials such as external wall tiles, finishing mortar and the like. In the present embodiment, the decorative cover and the peeling and repairing member will be described by taking, as an example, repairing performed when a tile (surface material) of a wall is peeled from a structural body. As shown in fig. 1, the peeling and repairing member 1 is used for bonding and repairing a tile 5 (surface material) peeled from a main structure 4 of a wall surface of an external wall 2, and includes an anchor pin 10 having an injection hole and a decorative cover 20.

Anchor pin with injection hole

An anchor pin 10 having an injection hole is inserted into a hole 3 formed in an outer wall 2 of a building. The exterior wall 2 is configured to include a structural body 4 and tiles 5. The tiles 5 are attached to the structural body 4 by mortar 5 a. When the tile 5 is peeled off from the structure body 4, the hole 3 is provided from the tile 5, the mortar 5a in the peeled portion to the structure body 4.

The anchor pin 10 with the injection hole is formed of metal. The anchor pin 10 with an injection hole has a bottomed cylindrical shape and has an injection hole 11 formed therein. A filler of a resin material such as an epoxy adhesive 7 is injected into the injection hole 11. The anchor pin 10 with an injection hole comprises a cylindrical part 12 and a bottom part 13, and the cylindrical part 12 and the bottom part 13 divide the injection hole 11. The cylindrical portion 12 has an outer diameter equal to the inner diameter of the hole 3. The bottom portion 13 is formed at the tip of the anchor pin 10 with the injection hole (the end portion of the anchor pin 10 on the side inserted into the depth side of the hole 3). A slit 14 is formed on the distal end side of the cylindrical portion 12 so that the distal end portion of the anchor pin 10 with an injection hole is bifurcated. The slit 14 extends in the axial direction and is continuously formed across the bottom 13. The slit 14 allows the adhesive 7 injected into the injection hole 11 to flow out to the outside of the anchor pin 10 with the injection hole. An inner cone (japanese: jasper) (not shown) is inserted into the slit 14. By making the inner cone enter the slit 14, the slit 14 is opened. The length of the slit 14 is about half of the length of the anchor pin 10 with the injection hole. The insertion depth of anchor pin 10 with an injection hole into hole 3 is set so that slit 14 faces gap 6 generated between structure body 4 and mortar 5 a.

A circumferential groove 16 extending in the circumferential direction is formed on the outer circumferential surface of the distal end portion of the tube portion 12. The peripheral groove 16 is continuously formed so as to intersect the slit 14. A plurality of circumferential grooves 16 (three rows in the present embodiment) are provided at intervals in the axial direction of the cylindrical portion 12. The circumferential groove 16 allows the adhesive 7 flowing out of the slit 14 to flow in the circumferential direction of the outer circumferential surface of the tube portion 12 and fill a gap between the circumferential groove 16 and the inner circumferential surface of the hole 3.

A flange portion 17 having an outer peripheral surface with an increased diameter is formed at a base end portion of the cylindrical portion 12 (an end portion of the hole 3 on the side of the front opening). The anchor pin 10 with an injection hole is fixed to the hole 3 to a predetermined depth by engaging the flange 17 with the enlarged diameter portion 3a formed at the opening end of the hole 3.

< decorative cover >

The cosmetic cover 20 is a member for closing the base end portion of the injection hole 11 of the anchor pin 10 having the injection hole. As also shown in fig. 2 to 5, the trim cover 20 includes a cap portion 21 and a stem portion 22. The cap 21 and the lever 22 are formed of different members, and the cap 21 is fitted to the lever 22.

The lid portion 21 is a member for closing the front end of the hole 3, and is formed of metal. As shown in fig. 1 to 3 and 5, the cover portion 21 includes a flange portion 23 and a main body portion 24. The flange portion 23 is formed to have the same inner diameter as the inner diameter of the hole 3 and covers the opening of the hole 3. The surface of the flange portion 23 is formed in a flat shape, and a tapered portion 23a whose diameter decreases toward the depth side is formed on the back surface (the side closer to the inside of the hole 3) of the flange portion 23. The main body portion 24 is formed integrally with the flange portion 23, and stands up from the center of the flange portion 23 perpendicularly to the flange portion 23. The body portion 24 has a cylindrical shape and is fitted into a mounting hole 25 of the rod portion 22 described later. The upright base end portion of the body portion 24 has a small diameter. A tapered portion 24a whose diameter decreases as it goes toward the distal end is formed at the distal end portion of the outer peripheral surface of the body portion 24. A reduced diameter portion 24b is formed at a base end portion of the body portion 24 on the flange portion 23 side (base end portion of the rod portion 22). When the hole 3 is inclined from the direction perpendicular to the surface of the outer wall 2, the body portion 24 is bent to make the flange portion 23 flush with the surface of the outer wall 2, but since the reduced diameter portion 24b is thinner than the other portions, stress concentrates on the reduced diameter portion 24b to bend the reduced diameter portion 24 b. That is, the reduced diameter portion 24b is a portion for guiding a bending position when the main body portion 24 is bent with respect to the flange portion 23.

As shown in fig. 1, the stem portion 22 is a member inserted into the injection hole 11 and is formed of resin. As also shown in fig. 2 and 4, the stem portion 22 is cylindrical in shape. A base end portion of the rod portion 22 is formed with a mounting hole 25 into which the body portion 24 of the cap portion 21 is inserted. The mounting hole 25 has an inner diameter equal to the outer diameter of the main body portion 24, and extends in the axial direction. The body portion 24 is fitted in the mounting hole 25. A tapered portion 22a, which decreases in diameter as it goes toward the tip, is formed at the tip of the outer peripheral surface of the stem portion 22. A slit 26 is formed at the tip of the lever 22. By providing the slit 26, the tip of the rod 22 is bifurcated, and a space 27 is formed inside the slit 26.

The stem 22 includes a full circumferential rib 28 and a discontinuous rib 29. The entire circumferential rib 28 is formed along the outer circumferential surface of the rod portion 22 on the proximal end side, and extends annularly over the entire circumference of the outer circumferential surface in the circumferential direction. The entire circumferential rib 28 has an outer diameter slightly larger than the inner diameter of the injection hole 11 (an optimum ratio with respect to the inner diameter of the injection hole 11). The optimum ratio with respect to the inner diameter of the filling hole 11 is a ratio of the outer diameter of the entire circumferential rib 28 that can be pressed into the filling hole 11 while deforming. A plurality of (two in the present embodiment) entire circumferential ribs 28 are provided at intervals in the axial length direction of the stem portion 22. The discontinuous rib 29 is formed along the outer peripheral surface of the tip end side of the rod portion 22, and intermittently extends in the circumferential direction of the outer peripheral surface. The discontinuous rib 29 has an outer diameter slightly larger than the inner diameter of the injection hole 11 (an optimum ratio with respect to the inner diameter of the injection hole 11) as in the case of the entire circumferential rib 28. The optimum ratio with respect to the inner diameter of the filling hole 11 is a ratio of the outer diameter of the discontinuous rib 29 that can be pressed into the filling hole 11 while being deformed. The discontinuous rib 29 is provided at a position where the slit 26 is formed, and a position of the discontinuous rib 29 corresponding to the slit 26 is cut off. Therefore, the discontinuous rib 29 is cut away at two places intersecting the slit 26 in the circumferential direction. That is, the discontinuous rib 29 is formed of two circular arc-shaped

ribs

29a and 29a (see fig. 2 and 4). A plurality of (two in the present embodiment) discontinuous ribs 29 are provided at intervals in the axial length direction of the stem portion 22. The two full-

circumference ribs

28, 28 and the two

discontinuous ribs

29, 29 are disposed at arbitrary intervals in the axial length direction.

Next, with reference to fig. 6 and 1, a typical installation procedure of the decorative cover 20 and the peeling repair member 1 having the above-described structure will be described, and the operation and effects will be described. The construction for installing the peeling and repairing member 1 includes a hole forming step, an anchor pin inserting step with an injection hole, a filler injecting step, and a decorative cover inserting step.

The hole forming process is a process of forming a hole 3 in the outer wall 2 of the building. As shown in fig. 6 (a), in the drilling step, the installation hole 3 is inserted from the tile 5, the mortar 5a to the structure body 4 at a position where the mortar 5a to which the tile 5 adheres is peeled off from the structure body 4 to form the gap 6. The depth of the hole 3 is set to a depth such that the slit 14 of the inserted anchor pin 10 with an injection hole faces the gap 6. An enlarged diameter portion 3a is formed at the opening end of the hole 3.

The anchor pin insertion step with an injection hole is a step of inserting the anchor pin 10 with an injection hole into the hole 3. In the anchor pin inserting step with an injection hole, the anchor pin 10 with an injection hole is inserted into the hole 3 with the inner taper inserted into the slit 14 of the anchor pin 10 with an injection hole. The base end of the anchor pin 10 with the injection hole is struck by a jig such as a mallet, and the anchor pin 10 with the injection hole is pressed into the deep part of the hole 3. After the base end of the anchor pin 10 with an injection hole reaches the wall surface of the outer wall 2, a knock-in rod (Japanese: knock ち Write み rod) is brought into contact with the base end of the anchor pin 10 with an injection hole and further knocked in, and the flange portion 17 is fitted to the enlarged diameter portion 3a of the hole 3, thereby fixing the anchor pin 10 with an injection hole. At this point, the inner cone is pressed into the slit 14 and the slit 14 opens. This widens the flow path from the injection hole 11 to the gap 6, and therefore the adhesive 7 easily flows into the gap 6.

The filler injection step is a step of injecting a filler (adhesive 7) into the injection hole 11 of the anchor pin 10 with an injection hole. As shown in fig. 6 (b), in the filler injection step, the injection nozzle 8 is inserted into the injection hole 11, and the adhesive 7 is injected from the injection nozzle 8. The adhesive 7 is injected in a larger volume than the injection hole 11. That is, the adhesive 7 is filled in the injection hole 11, and the adhesive 7 is allowed to flow out from the slit 14 to the outside of the anchor pin 10 with the injection hole. The adhesive 7 flows into the gap 6 between the structure body 4 and the mortar 5a, and fills the gap 6 (see fig. 6 (c)). The adhesive 7 also flows into the circumferential groove 16, and bonds the inner circumferential surface of the hole 3 and the tube portion 12.

The decoration cap inserting step is a step of inserting the rod portion 22 of the decoration cap 20 into the injection hole 11 of the anchor pin 10 having the injection hole. In addition, the body portion 24 of the cap portion 21 is press-fitted into the mounting hole 25 in advance to couple the cap portion 21 and the rod portion 22 to each other in the decorative cover 20. At this time, since the tapered portion 24a is formed at the distal end portion of the body portion 24, the insertion into the mounting hole 25 can be performed smoothly. As shown in fig. 6 (d), in the cap insertion step, the rod portion 22 is pressed into the injection hole 11 before the adhesive 7 is cured. At this time, since the entire circumferential rib 28 and the discontinuous rib 29 have outer diameters slightly larger than the inner diameter of the injection hole 11, the rod portion 22 is inserted in a state where the entire circumferential rib 28 and the discontinuous rib 29 are pressed against the inner circumferential surface of the injection hole 11 and are deformed while being bent toward the proximal end side (see fig. 1). Adhesive 7 in injection hole 11 is pressed by the tip of rod 22, enters slit 26, and fills the gap between rod 22 and the inner circumferential surface of injection hole 11. The adhesive 7 can flow toward the base end side of the stem portion 22 from the portion of the discontinuous rib 29 where the rib is cut off. Since the slits 26 are formed in the stem portion 22, the adhesive 7 easily flows toward the proximal end side. The adhesive 7 flowing toward the base end side is blocked by the entire circumferential rib 28 located on the tip end side of the two entire

circumferential ribs

28, 28 and does not flow to the base end side of the entire circumferential rib 28. The adhesive 7 is filled so as to surround the discontinuous rib 29 at a position closer to the distal end side of the lever portion 22 than the entire circumferential rib 28 on the distal end side.

Since the adhesive 7 is blocked by the entire circumferential rib 28 on the distal end side in this manner, the adhesive 7 does not flow out to the proximal end side of the entire circumferential rib 28. Even if the adhesive 7 flows out to the base end side beyond the entire circumferential rib 28 on the tip end side, the adhesive does not further flow out to the base end side because another entire circumferential rib 28 is provided on the base end side. That is, the entire circumferential rib 28 on the proximal end side functions as a safety device for preventing the outflow of the adhesive 7. The adhesive 7 can be reliably prevented from leaking to the surface of the exterior wall 2.

On the other hand, since the adhesive 7 is filled between the outer peripheral surface of the rod portion 22 and the inner peripheral surface of the injection hole 11 so as to surround the discontinuous rib 29 and is fixed to the discontinuous rib 29, even if a stress to pull out the cosmetic cover 20 is applied, the discontinuous rib 29 is caught by the cured adhesive 7 and the rod portion 22 does not move. Therefore, the stem portion 22 can be prevented from being pulled out.

Further, the adhesive 7 is filled into the gap 6 between the structure body 4 and the mortar 5a and cured, whereby the peeled mortar 5a is bonded to the structure body 4. Therefore, the peeling of the surface material (tile 5) of the exterior wall 2 can be repaired.

When the rod portion 22 is inserted to a prescribed depth of the filling hole 11, the surface of the flange portion 23 of the cap portion 21 is flush with the surface of the outer wall 2. In addition, when the hole 3 is inclined from the direction perpendicular to the wall surface of the outer wall 2, the surface of the flange portion 23 and the surface of the outer wall 2 are not flush with each other, and therefore the following steps are performed. The cap 21 is inserted into the mounting hole 25 of the rod 22, the decorative cap 20 is inserted into the insertion hole 11 of the anchor pin 10 with an insertion hole in a shallow manner, and the surface of the flange 23 is driven into the hole by a tool such as a hammer. At this time, since the reduced diameter portion 24a is formed at the base end portion of the rod portion 22 on the flange portion 23 side (base end portion of the body portion 24), the body portion 24 is bent by the reduced diameter portion 24a, and the surface of the flange portion 23 and the surface of the exterior wall 2 become flush. At this time, the base end portion of the body portion 24 is bent, so that the distance between the opening end portion of the hole 3 and the bent portion approaches. Thus, the center of the flange portion 23 and the center of the hole 3 are not displaced, and therefore, a gap is not generated between the outer peripheral portion of the flange portion 23 and the inner peripheral portion of the hole 3.

In the present embodiment, since the outer diameter of the entire circumferential rib 28 and the outer diameter of the discontinuous rib 29 are larger than the inner diameter of the mounting hole 25, the trim cover 20 can be mounted to anchor pins having different inner diameters within the range of the outer diameter of the entire circumferential rib 28 and the outer diameter of the discontinuous rib 29. Further, by forming the rod portion 22 with the outer diameter of the entire circumferential rib 28 and the outer diameter of the discontinuous rib 29 changed and replacing the cap portion 21, it is possible to widely cope with the anchor pin having the injection hole 11 with a different inner diameter.

As described above, according to the decorative cover 20 and the peel-off repair member 1 of the present embodiment, the adhesive 7 does not flow out to the cover portion 21 by providing the entire circumferential rib 28, and thus the adhesive 7 can be prevented from flowing out to the surface of the outer wall 2. Further, since the discontinuous rib 29 is provided and the adhesive 7 is filled around the discontinuous rib 29, the stem portion 22 can be prevented from being pulled out of the anchor pin 10 with the injection hole.

In particular, in the present embodiment, since the plurality of entire circumferential ribs 28 are provided at intervals in the axial length direction of the rod portion 22, the adhesive 7 can be reliably prevented from flowing out to the base end side of the rod portion 22. Further, since the entire circumferential rib 28 is pressed against the inner circumferential surface of the injection hole 11 and is in close contact with the inner circumferential surface of the injection hole 11, the pressure of the dam adhesive 7 is large. The number of the entire circumferential ribs 28 is not limited to two, and may be one or 3 or more. However, since the rib functions as a safety device for preventing the outflow of the adhesive 7, a plurality of ribs 28 are preferable.

Further, since the plurality of discontinuous ribs 29 are provided at intervals in the axial length direction of the rod portion 22, the number of portions where the discontinuous ribs 29 are fixed to the adhesive 7 and engage with the adhesive 7 increases. This ensures a large reaction force against the pull-out of the rod 22. The number of the discontinuous ribs 29 is not limited to two, and may be one or 3 or more.

The embodiments of the present invention have been described above, but design changes can be made as appropriate within a range not departing from the gist of the present invention. For example, in the above embodiment, the filler is the epoxy adhesive 7, but the filler is not limited thereto. Other adhesives such as silicone-based adhesives may be used, or a resin-based material cured to a certain hardness may be used.

In the above embodiment, the decorative cover 20 is configured to include the cover portion 21 and the rod portion 22 which are provided separately, but is not limited thereto. The cap portion and the rod portion may be formed integrally. The structure of the lid 21 is not limited to that of the above embodiment. The base end portion of the main body portion 24 may be connected to the flange portion 23 via a universal joint or the like so as to be deformable. With this configuration, the rod portion inserted into the hole inclined from the direction orthogonal to the wall surface can be attached while keeping the surface of the flange portion of the lid portion flush with the wall surface, without striking the rod portion with a hammer.

Claims

1. A decorative cover for closing a base end portion of an injection hole of an anchor pin with an injection hole inserted into a hole formed in a wall surface,

this dress trim cover includes:

a lid portion that closes a front-side end portion of the hole; and

a rod part inserted into the injection hole,

the rod portion includes a full-circumference rib extending in the entire circumferential direction along an outer circumferential surface on a base end side of the rod portion and a discontinuous rib intermittently extending in the circumferential direction along an outer circumferential surface on a tip end side of the rod portion,

a slit is formed in the tip end portion of the rod portion, the discontinuous rib is provided at a position where the slit is formed, and a position of the discontinuous rib corresponding to the slit is cut off.

2. The decorative cover of claim 1,

the entire circumferential rib is provided in plurality at intervals in the axial length direction of the rod portion.

3. The decorative cover of claim 1,

the discontinuous ribs are provided in plurality at intervals in the axial length direction of the stem portion.

4. The decorative cover of claim 2,

the discontinuous ribs are provided in plurality at intervals in the axial length direction of the shaft portion.

5. The decorative cover according to any one of claims 1 to 4,

the cap portion and the stem portion are constituted by separate members,

the lid portion includes a flange portion and a body portion formed integrally with the flange portion,

the rod portion has a mounting hole into which the body portion is removably inserted, on a base end side.

6. The decorative cover of claim 5,

a reduced diameter portion is formed at a proximal end portion of the main body portion on the flange portion side.

7. A peel-repair member for use in adhesive repair of a surface material peeled from a structure body of a wall surface,

the peel-off repair member includes:

an anchor pin with an injection hole, which is inserted into a hole formed in the wall surface; and

the decorative cover according to any one of claims 1 to 6, which closes a base end portion of an injection hole of the anchor pin with an injection hole,

the anchor pin with the injection hole includes a slit that communicates a gap between the structural body and the surface material with the injection hole.