JP7417700B1 - exterior wall panels - Google Patents

Abstract

An object of the present invention is to provide an exterior wall panel in which the structure of parts related to connection is simplified. An exterior wall panel 30 includes a connecting portion 56 at one end and a connecting portion 58 at the other end. One end connecting portion 56 has an engagement groove 70 . The other end connecting portion 58 has a protruding portion 130 and a cantilever portion 132. The cantilever portion 132 continues to the tip of the protrusion 130 . The tip of the cantilever section 132 faces in the direction described below. The direction is based on the assumption that the cantilever portion 132 of the other end connecting portion 58 is fitted into the engagement groove 70 of the one end connecting portion 56 and the one end connecting portion 56 and the other end connecting portion 58 are butted. This is the direction in which the base of the force-receiving side surface 112 of the engagement groove 70 of the one-end connecting portion 56 is located. [Selection diagram] Figure 5

Description

The present invention relates to exterior wall panels.

Patent Document 1 discloses a connection structure for external wall panels. The exterior wall panel has a core material between two metal skins. A plurality of fitting protrusions are provided at one end of the outer wall panel at predetermined intervals in the thickness direction of the panel. A plurality of fitting recesses are provided at the other end at predetermined intervals in the thickness direction of the panel. The external wall panel connection structure described above is one in which two adjacent sandwich panels are connected by fitting between a fitting convex portion and a fitting recess. A locking convex portion is provided on the outdoor side surface of the indoor side wall of at least one fitting recess. A locking recess is provided on the indoor side surface of the fitting protrusion that fits into the fitting recess. The locking convex portion is locked in the locking recess when the above-mentioned fitting recess is shifted from the fitting position toward the outdoors. In the external wall panel connection structure disclosed in Patent Document 1, even when negative pressure is applied due to wind load, the connection due to the concave-convex fitting is difficult to come off.

Japanese Patent Application Publication No. 2013-189789

However, the external wall panel connection structure disclosed in Patent Document 1 has the problem that while the connection can be made difficult to disconnect, it is difficult to simplify the fitting recess and the fitting protrusion. That is, in the external wall panel connection structure disclosed in Patent Document 1, the locking convex portion is locked to the locking recess, making it difficult for the connection due to the concave-convex fitting to come off. In order to make this possible, the locking concave portion and the locking convex portion must have sufficient strength. This makes it difficult to simplify the fitting recess and the fitting protrusion.

The present invention solves these problems. The purpose is to provide an exterior wall panel in which the structure of the parts involved in connection is simplified.

Exterior wall panels of the present invention are described. Note that the reference numerals in the figures are used in this column to aid understanding of the content of the invention, and are not intended to limit the content to the illustrated range.

In order to solve the above-mentioned problems, according to an aspect of the present invention, the exterior wall panels 30, 32, 34, 36 have one end connecting portion 56, 256, 356, 456 located at one end and one end connecting portion 56, 256, 356, 456 located at the other end. The other end connecting portion 58, 258, 358, 458 is provided. The one end connecting portion 56, 256, 356, 456 has an engagement groove 70, 270, 370, 470. The engagement groove 70, 270, 370, 470 has a bottom surface 110, 310, 410, 510 and a pair of side surfaces 112, 114, 312, 314, 412, 414, 512, 514. The other end connecting portion 58, 258, 358, 458 has a protruding portion 130, 320, 420, 520 and a cantilever portion 132, 322, 422, 522. The protrusions 130, 320, 420, 520 extend from one end connecting portion 56, 256, 356, 456 to the other end connecting portion 58, 258, 358, 458 when viewed from the position of the engagement groove 70, 270, 370, 470. It is arranged so as to face the engagement grooves 70, 270, 370, 470 in the direction. The protruding parts 130, 320, 420, 520 protrude along the direction from the one end connecting part 56, 256, 356, 456 to the other end connecting part 58, 258, 358, 458. The cantilever portions 132, 322, 422, 522 extend from one end connecting portion 56, 256, 356, 456 to the other end connecting portion 58, 258, 358, 458 when viewed from the position of the engagement groove 70, 270, 370, 470. It is arranged so as to face the engagement grooves 70, 270, 370, and 470 in the direction toward. The cantilever portions 132, 322, 422, 522 are continuous with the tips of the protrusion portions 130, 320, 420, 520. When the following two types of assumptions are true, the tips of the cantilever sections 132, 322, 422, 522 face the direction in which the bases of the force-receiving sides 112, 312, 412, 512 are located. One of these two types of assumptions is that the cantilever portions 132, 322 of the connecting portions 58, 258, 358, 458 of the other end are connected to the engagement grooves 70, 270, 370, 470 of the connecting portions 56, 256, 356, 456 of one end. , 422, 522 are fitted. The other of these two types of assumptions is that one end connecting portion 56, 256, 356, 456 and the other end connecting portion 58, 258, 358, 458 are in contact. The force receiving side surface 112, 312, 412, 512 is the side surface 112, 114, 312, 314, 412, 414, 512, 514 of the engagement groove 70, 270, 370, 470 of the one end connecting portion 56, 256, 356, 456. It is one of the pairs.

It is assumed that a pair of exterior wall panels 30, 32, 34, and 36 according to the present invention is fixed to a building 20 or the like. At this time, it is assumed that the force-receiving side surfaces 112, 312, 412, and 512 of the outer wall panels 30, 32, 34, and 36 are arranged on the indoor side of the building 20. Furthermore, the connection between one end connecting portion 56, 256, 356, 456 of one pair of outer wall panels 30, 32, 34, 36 and the other end connecting portion 58, 258, 358, 458 is Suppose that it is about to come off due to pressure. In that case, the force-receiving side surfaces 112, 312, 412, 512 of the former engagement grooves 70, 270, 370, 470 approach the latter cantilever portions 132, 322, 422, 522. At this time, the tips of the latter cantilever portions 132, 322, 422, 522 are directed toward the base of the force receiving side surfaces 112, 312, 412, 512 of the former engagement grooves 70, 270, 370, 470. It happens. In this state, the tips of the latter cantilever sections 132, 322, 422, 522 fit into their bases. When negative pressure continues to be applied to the former outer wall panels 30, 32, 34, 36 in this state, the former's engagement grooves 70, 270, 370, 470 are connected to the latter's cantilever sections 132, 322, 422, 522. Trying to flip it up. The latter cantilever portions 132, 322, 422, 522 apply a reaction force to the former engagement grooves 70, 270, 370, 470 as they are about to be turned up. Since the reaction force is applied, the former engagement grooves 70, 270, 370, 470 are held down by the latter cantilever sections 132, 322, 422, 522. Since the former engagement grooves 70, 270, 370, and 470 are held down, the former is prevented from being turned up by the above-mentioned negative pressure. Since the cantilever portions 132, 322, 422, 522 prevent the outer wall panels 30, 32, 34, 36 from being turned up, the turning up of the outer wall panels 30, 32, 34, 36 is suppressed. The structure for this is simplified. As a result, outer wall panels 30, 32, 34, and 36 are provided in which the structures of the parts involved in connection are simplified.

Alternatively, it is desirable that the above-described protrusions 130, 320, 520 and cantilever beams 132, 322, 522 extend along the engagement grooves 70, 270, 470. In this case, it is desirable that an open space 160, 360, 560 is formed between the protruding portion 130, 320, 520 and the cantilever portion 132, 322, 522. The open space 160, 360, 560 is open on the opposite side of the protrusion 130, 320, 520 when viewed from between the protrusion 130, 320, 520 and the cantilever section 132, 322, 522. In this case, it is desirable that the force-receiving side surfaces 112, 312, 512 of the engagement grooves 70, 270, 470 face the open spaces 160, 360, 560 if the following two types of assumptions hold true. One of these two assumptions is that the cantilever portions 132, 322, 522 of the other end connecting portions 58, 258, 458 are fitted into the engagement grooves 70, 270, 470 of the one end connecting portions 56, 256, 456. It is something. The other of these two assumptions is that the one-end connection portion 56, 256, 456 and the other-end connection portion 58, 258, 458 are in contact.

It is assumed that one end connecting portion 56, 256, 456 of one pair of outer wall panels 30, 32, 36 according to the present invention and the other end connecting portion 58, 258, 458 are connected. In this case, the cantilever portions 132, 322, 522 of the other end connecting portions 58, 258, 458 of the latter are fitted into the engagement grooves 70, 270, 470 of the former. Further, the former one end connecting portion 56, 256, 456 and the latter other end connecting portion 58, 258, 458 are in contact with each other. As a result, the force-receiving side surfaces 112, 312, 512 of the former engagement grooves 70, 270, 470 face the open spaces 160, 360, 560 formed in the latter. The latter protruding parts 130, 320, 520 protrude along the direction from the one end connecting part 56, 256, 456 to the other end connecting part 58, 258, 458. The latter protrusions 130, 320, 520 and the latter cantilever sections 132, 322, 522 extend along the former engagement grooves 70, 270, 470. Due to these, the above-mentioned open spaces 160, 360, 560 are connected to the force-receiving side surfaces 112, 312, 512 of the engagement grooves 70, 270, 470 of the former, the protrusions 130, 320, 520 and the cantilever portion 132 of the latter, 322 and 522. When the open space 160, 360, 560 is pinched, when the former tries to turn up due to the above-mentioned negative pressure, the force-receiving side surface 112, 312, 512 of the former enters the latter open space 160, 360, 560. It happens. As a result of such intrusion, when the former is about to turn up due to the above-mentioned negative pressure, when the force-receiving side surface 112, 312, 512 of the former comes into contact with the protrusion 130, 320, 520 of the latter, then The possibility of being mentioned increases. The possibility is that the former force-receiving side surface 112, 312, 512 comes into contact with the latter protrusion 130, 320, 520 and cantilever section 132, 322, 422, 522 and is held back. As a result, when objects having a common structure in connection-related parts are connected, one of them is further suppressed from being flipped up due to negative pressure. Not only when the former tries to turn up due to the above-mentioned negative pressure, but also because of thermal deformation due to a fire, for example, the force-receiving side surface 112, 312, 512 of the former may enter the open space 160, 360, 560 of the latter. There is. As a result of such intrusion, the force-receiving side surface 112, 312, 512 of the former may come into contact with the protrusion 130, 320, 520 of the latter. If there is such contact, the open space 160, 360, 560 will be closed. Since the open spaces 160, 360, 560 are closed, the fire resistance of the outer wall panels 30, 32, 34, 36 is improved.

Alternatively, it is desirable that the engagement groove 70 described above includes a groove main body portion 90 and a side reinforcement portion 92. Groove body portion 90 forms a bottom surface 110 and a pair of side surfaces 112,114. The side reinforcement portion 92 is arranged on the back side of the force receiving side surface 112 when viewed from the position of the bottom surface 110 of the groove main body portion 90. The side reinforcement portion 92 reinforces the force receiving side surface 112.

It is assumed that the connection between one end connecting portion 56 and the other end connecting portion 58 of the pair of exterior wall panels 30 according to the present invention is about to come off due to negative pressure applied to the former. In that case, the former engagement groove 70 is held down by the latter cantilever section 132. At that time, the force-receiving side surface 112 of the former engagement groove 70 is difficult to bend. This is because the former force-receiving side surface 112 is reinforced by the side surface reinforcing portion 92 . Since the force-receiving side surface 112 of the former is difficult to bend, there is less risk that the engagement groove 70 of the former will come off from the cantilever section 132 of the latter due to the force-receiving side 112 bending. As a result, when objects having a common structure in connection-related parts are connected, one of them is further suppressed from being flipped up due to negative pressure.

Alternatively, it is desirable that the above-described one-end connecting portions 56, 256, 356, 456 have fitting grooves 72, 272, 372, 472 in addition to the engagement grooves 70, 270, 370, 470. The fitting grooves 72, 272, 372, 472 are engaged with the back sides of the force receiving side surfaces 112, 312, 412, 512 when viewed from the position of the bottom surfaces 110, 310, 410, 510 of the engagement grooves 70, 270, 370, 470. It is arranged in line with the matching grooves 70, 270, 370, and 470. In this case, it is desirable that the other end connecting portion 58, 258, 358, 458 further includes a refractory body 134, 334, 434, 534. The refractory body 134, 334, 434, 534 goes from one end connecting portion 56, 256, 356, 456 to the other end connecting portion 58, 258, 358, 458 when viewed from the position of the fitting groove 72, 272, 372, 472. It is arranged so as to face the fitting grooves 72, 272, 372, 472 in the direction. The refractory bodies 134, 334, 434, 534 protrude along a direction from one end connecting portion 56, 256, 356, 456 to the other end connecting portion 58, 258, 358, 458. The width of the refractory body 134, 334, 434, 534 in the direction perpendicular to the direction from the one end connecting portion 56, 256, 356, 456 to the other end connecting portion 58, 258, 358, 458 is the width of the one end connecting portion 56, 256 , 356, 456 toward the other end connecting portion 58, 258, 358, 458.

When one end connecting portion 56, 256, 356, 456 of the pair of exterior wall panels 30, 32, 34, 36 according to the present invention and the other end connecting portion 58, 258, 358, 458 are connected, the former The latter refractory body 134, 334, 434, 534 enters into the fitting groove 72, 272, 372, 472 of the latter. This ensures fire resistance.

Alternatively, it is desirable that the engagement groove 270 described above has a groove main body portion 290 and a fitting groove side protrusion 292. Groove body portion 290 forms a bottom surface 310 and a pair of side surfaces 312,314. The fitting groove side protrusion 292 protrudes from the force receiving side surface 312 toward the back side of the force receiving side surface 312 when viewed from the position of the bottom surface 310 of the groove main body portion 290 . In this case, it is desirable that the force-receiving side surface 312 described above protrudes from the bottom surface 310 in a cantilever shape.

A force receiving side surface 312 projects from the bottom surface 310 in a cantilever shape. The fitting groove side protrusion 292 protrudes from the force receiving side surface 312 toward the back side of the force receiving side surface 312 when viewed from the position of the bottom surface 310 of the groove main body portion 290 . As a result, in the case described below, the force-receiving side surface 312 of the groove main body 290 may receive a reaction force from the refractory body 134 and be pushed toward the other side of the pair of side surfaces 312 and 314 of the groove main body 290 . In this case, the connection between one end connecting portion 256 and the other end connecting portion 258 of the pair of outer wall panels 32 according to the present invention tends to be disconnected due to the above-mentioned negative pressure. When the force-receiving side surface 312 of the groove main body portion 290 receives a reaction force, the force-receiving side surface 312 is pushed up. As a result, even if the cantilever section 322 of another outer wall panel 32 enters the groove main body 290, the groove main body 290 becomes difficult to bend. Since it is difficult to bend, the groove main body portion 290 is likely to receive a large reaction force from the cantilever portion 322 of the other outer wall panel 32. As a result, the above-mentioned curling up is further suppressed.

Alternatively, it is desirable that the force-receiving side surface 412 described above protrudes from the bottom surface 410 in a cantilever shape. In this case, it is desirable that a step 430 is formed on the force-receiving side surface 412 on the fitting groove 372 side, with the edge 450 side of the force-receiving side surface 412 being higher and the root 452 side being lower.

It is assumed that the connection between one end connecting portion 356 and the other end connecting portion 358 of the pair of outer wall panels 34 according to the present invention is about to be disconnected due to the above-mentioned negative pressure. In this case, the force-receiving side surface 412 of the engagement groove 370 may receive force from the fireproof body 334 and be pushed. At this time, if the above-described step 430 is provided on the force-receiving side surface 412, the refractory body 334 will easily engage with the step 430. When the refractory body 334 easily engages with the step 430, the engagement groove 370 becomes difficult to bend even if the cantilever portion 422 of another outer wall panel 34 enters the engagement groove 370. Since it is difficult to bend, the engagement groove 370 is likely to receive a large reaction force from the cantilever section 422 of the other outer wall panel 34. As a result, the above-mentioned curling up is further suppressed.

Alternatively, it is desirable that the other end connecting portion 58, 258, 358, 458 described above further includes a plurality of fireproof joint materials 138, 140, 338, 340, 438, 440, 538, 540. The plurality of refractory joint materials 138, 140, 338, 340, 438, 440, 538, 540 are arranged so as to close both sides of the refractory bodies 134, 334, 434, 534.

Both sides of the refractory body 134, 334, 434, 534 are covered by a plurality of refractory joint materials 138, 140, 338, 340, 438, 440, 538, 540. This suppresses a rise in temperature inside the outer wall panels 30, 32, 34, 36 due to heat generated by a fire or the like. Since the temperature rise is suppressed, the fire resistance performance of the outer wall panels 30, 32, 34, and 36 is improved.

Alternatively, the compressive strength of the above-mentioned refractory joint material 138, 140, 338, 340, 438, 440, 538, 540 is the same as that of the one end connecting portion 56, 256, 356, 456 and the other end connecting portion 58, 258, 358, 458. It is desirable that the compressive strength is greater than the compressive strength of the section sandwiched between.

When the exterior wall panels 30, 32, 34, 36 are fixed to the building 20, etc., the screws for fixing them are connected to the pairs of fireproof joint materials 138, 140, 338, 340, 438, 440, 538, 540. Suppose that it penetrates through the bodies 134, 334, 434, and 534. In that case, the surface of the outer wall panels 30, 32, 34, 36 may sink due to the penetration of the screws, etc., from the connecting portion 56, 256, 356, 456 at one end to the connecting portion 58, 258, 358, 458 at the other end. This can be suppressed compared to the case of penetrating the sandwiched section. This is because the compressive strength of the refractory joint materials 138, 140, 338, 340, 438, 440, 538, and 540 is large. As a result, the possibility that the appearance will be impaired by fixing to the building 20 or the like is reduced.

Alternatively, it is desirable that the other end connecting portion 58, 258, 358, 458 described above further includes a metal refractory support portion 136, 336, 436, 536. The refractory support portion 136, 336, 436, 536 is attached to the refractory body 134, 334, 434 on the back side when viewed from the position of the protruding portion 130, 320, 420, 520 of the refractory body 134, 334, 434, 534. ,534.

When the refractory support portion 136, 336, 436, 536 contacts the refractory 134, 334, 434, 534, when a bending moment is applied to the refractory 134, 334, 434, 534, the refractory 134, 334, 434, 534 The effect of the bending moment on the bending moment can be suppressed. If the influence of the bending moment is suppressed, the possibility that the refractory bodies 134, 334, 434, 534 will be destroyed by the influence of the bending moment becomes smaller.

Alternatively, it is desirable that the above-described protrusions 130, 320, 420, and 520 are made of metal. In this case, it is desirable that the cantilever portions 132, 322, 422, and 522 are made of metal.

The connection between one end connecting portion 56, 256, 356, 456 and the other end connecting portion 58, 258, 358, 458 of the pair of external wall panels 30, 32, 34, 36 according to the present invention Suppose that it is about to come off due to pressure. In that case, if the protruding parts 130, 320, 420, 520 and the cantilever parts 132, 322, 422, 522 are made of metal, even after plastic deformation, the engagement grooves 70, 270, 370, 470 of the former hold back.

According to the present invention, the structure of the parts related to connection is simplified.

FIG. 2 is a conceptual diagram showing the role of the outer wall panel according to the first embodiment of the present invention. FIG. 1 is a sectional view of an exterior wall panel according to a first embodiment of the present invention. 3 is an enlarged view of part A in FIG. 2. FIG. 3 is an enlarged view of part B in FIG. 2. FIG. FIG. 3 is a diagram showing a situation in which external wall panels according to the first embodiment of the present invention are connected to each other. It is a sectional view of the exterior wall panel concerning a 2nd embodiment of the present invention. 7 is an enlarged view of part A in FIG. 6. FIG. 7 is an enlarged view of part B in FIG. 6. FIG. It is a figure which shows the situation where the external wall panels concerning 2nd Embodiment of this invention are connected. It is a sectional view of the exterior wall panel concerning a 3rd embodiment of the present invention. 11 is an enlarged view of part A in FIG. 10. FIG. 11 is an enlarged view of part B in FIG. 10. FIG. It is a figure which shows the situation where the external wall panels concerning 3rd Embodiment of this invention are connected. It is a sectional view of the exterior wall panel concerning a 4th embodiment of the present invention. 15 is an enlarged view of part A in FIG. 14. FIG. 15 is an enlarged view of part B in FIG. 14. FIG. It is a figure which shows the situation where the external wall panels concerning 4th Embodiment of this invention are connected.

Embodiments of the present invention will be described below based on the drawings. In the following description, the same parts are given the same reference numerals. Their names and functions are the same. Therefore, detailed description thereof will not be repeated.

<First embodiment>
FIG. 1 is a conceptual diagram showing the role of the outer wall panel 30 according to this embodiment. Based on FIG. 1, the role of the outer wall panel 30 according to this embodiment will be explained.

The exterior wall panel 30 according to this embodiment is arranged on the exterior wall of the building 20. The outer wall panels 30 are arranged in rows and columns. Therefore, another exterior wall panel 30 is arranged on top of one exterior wall panel 30. Another exterior wall panel 30 is arranged below the former exterior wall panel 30.

FIG. 2 is a sectional view of the outer wall panel 30 according to this embodiment. The configuration of the outer wall panel 30 according to this embodiment will be explained based on FIG. 2.

As shown in FIG. 2, the outer wall panel 30 according to the present embodiment includes an outer skin part 50, an inner skin part 52, an inter-skin part 54, one end connecting part 56, the other end connecting part 58, and a waterproof material 60. Equipped with.

The outer skin part 50 is arranged at a position that becomes the outer wall of the building 20. The outer skin portion 50 is formed by bending a metal plate. In the case of this embodiment, the metal plate is a steel plate.

The inner skin part 52 faces the outer skin part 50. As a result, the inner skin part 52 is arranged at a position inside the building 20 when viewed from the outer skin part 50. The inner skin portion 52 is also formed by bending a metal plate. In the case of this embodiment, the metal plate for forming the inner skin portion 52 is also a steel plate.

The intercutaneous portion 54 is arranged between the outer skin portion 50 and the inner skin portion 52. The intercutaneous part 54 becomes the base of the outer skin part 50 and the inner skin part 52. In the case of this embodiment, the outer skin part 50 and the inner skin part 52 are adhered to the intercutaneous part 54. In the case of this embodiment, the intercutaneous part 54 is made of a well-known material having fire resistance (heat resistance, flame retardance, non-combustibility).

The one end connecting portion 56 is arranged at one end of the outer wall panel 30. In the case of this embodiment, the one end connecting portion 56 is used so as to be disposed at the lower end of the outer wall panel 30. The one end connecting portion 56 according to the present embodiment is made up of a part of the steel plate forming the outer skin part 50, a part of the steel plate forming the inner skin part 52, and a part of the member forming the interskin part 54. The specific configuration of the one end connecting portion 56 in this embodiment will be described later.

The other end connecting portion 58 is arranged at the other end of the outer wall panel 30. In the case of this embodiment, the other end connecting portion 58 is used so as to be disposed at the upper end of the outer wall panel 30. The other end connecting portion 58 according to the present embodiment is made of a part of the steel plate forming the outer skin part 50, a part of the steel plate forming the inner skin part 52, and a well-known fireproof material. The specific configuration of the other end connecting portion 58 in this embodiment will also be described later.

In the case of this embodiment, the waterproof material 60 is disposed inside a groove main body portion 90, which will be described later, and in a space formed by an engagement groove 70, which will be described later. In the case of this embodiment, the waterproof material 60 protrudes along the direction from the other end connecting portion 58 to the one end connecting portion 56. The material of the waterproof material 60 in this embodiment is the same as a well-known material. Therefore, the detailed description thereof will not be repeated.

FIG. 3 is an enlarged view of section A in FIG. 2. The specific configuration of the one-end connecting portion 56 according to this embodiment will be explained based on FIGS. 2 and 3.

In the case of this embodiment, the one end connecting portion 56 has an engagement groove 70 and a fitting groove 72. The engagement groove 70 is a groove into which a certain part of the other end connecting portion 58 of the other outer wall panel 30 enters. In the case of this embodiment, the engagement groove 70 extends along the outer wall surface of the building 20 when installed in the building 20. The fitting groove 72 is arranged in line with the engagement groove 70 at a location that is on the indoor side when viewed from the engagement groove 70 when the outer wall panel 30 is installed on the building 20. The fitting groove 72 is a groove into which the other part of the other end connecting portion 58 enters. In the case of this embodiment, the fitting groove 72 is formed of a part of the intercutaneous portion 54 described above.

In the case of this embodiment, the engagement groove 70 has a groove main body part 90 and a side reinforcement part 92.

The groove main body portion 90 forms a bottom surface 110, a force-receiving side surface 112, and an opposing side surface 114. The force receiving side surface 112 and the opposing side surface 114 are a pair of side surfaces formed by the groove main body portion 90. The force receiving side surface 112 is arranged on the fitting groove 72 side when viewed from the position of the bottom surface 110. As described above, the fitting groove 72 is arranged at a location on the indoor side when viewed from the engaging groove 70 when the outer wall panel 30 is installed on the building 20. For this reason, when the force receiving side surface 112 is installed in the building 20, it will be placed at a location on the indoor side when viewed from the bottom surface 110. In the case of this embodiment, the force-receiving side surface 112 is arranged closer to the fitting groove 72 than the cantilever section 132, which will be described later, when looking at the one end connecting section 56 from the other end connecting section 58. Opposing side surface 114 faces force-receiving side surface 112 .

The side reinforcement portion 92 is arranged on the back side of the force receiving side surface 112 when viewed from the position of the bottom surface 110 of the groove main body portion 90. The side reinforcement portion 92 is in contact with the force receiving side surface 112 . In the case of this embodiment, the side reinforcement portion 92 consists of a part of the intercutaneous portion 54 described above. The side reinforcement portion 92 reinforces the force receiving side surface 112.

FIG. 4 is an enlarged view of part B in FIG. 2. The specific configuration of the other end connecting portion 58 according to this embodiment will be explained based on FIGS. 2 and 4.

In the case of this embodiment, the other end connecting portion 58 includes the protruding portion 130, the cantilever portion 132, the refractory body 134, the refractory body support portion 136, the first refractory joint material 138, and the second refractory joint material. 140.

The protruding portion 130 is arranged in a direction from the one end connecting portion 56 to the other end connecting portion 58 when viewed from the position of the engagement groove 70 . The protrusion 130 is arranged to face the engagement groove 70 in that direction. The protruding portion 130 protrudes in a direction from the one end connecting portion 56 to the other end connecting portion 58.

The cantilever portion 132 is arranged to face the engagement groove 70 in the direction from the one end connection portion 56 to the other end connection portion 58 when viewed from the position of the engagement groove 70 . The cantilever portion 132 continues to the tip of the protrusion 130 . The tip of the cantilever portion 132 faces in a predetermined direction, which will be described later.

In the case of this embodiment, the protruding portion 130 and the cantilever portion 132 are made of a part of the steel plate that constitutes the outer skin portion 50. Therefore, the protruding part 130 and the cantilever part 132 according to this embodiment are made of metal.

As described above, in the case of this embodiment, the engagement groove 70 extends along the outer wall surface of the building 20 when installed in the building 20. In the case of the present embodiment, the protruding portion 130 and the cantilever portion 132 extend along the engagement groove 70 thereof. Therefore, when the protruding part 130 and the cantilever part 132 are installed in the building 20, they also extend in the direction along the outer wall surface of the building 20. In the case of this embodiment, an open space 160 is formed between the protrusion 130 and the cantilever section 132. In the case of this embodiment, the open space 160 is open on the side opposite to the protrusion 130 when viewed from between the protrusion 130 and the cantilever section 132.

The refractory body 134 is arranged in the direction from the one end connecting portion 56 to the other end connecting portion 58 when viewed from the position of the fitting groove 72 . The refractory body 134 is arranged so as to face the fitting groove 72 in that direction. The refractory body 134 protrudes in the direction from the one end connecting portion 56 to the other end connecting portion 58. In the case of this embodiment, the width of the refractory body 134 in the direction perpendicular to the direction from the one end connecting portion 56 to the other end connecting portion 58 is less than the width of the fitting groove 72 in that direction. The refractory body 134 is made of a well-known refractory material.

The refractory support portion 136 contacts the refractory body 134 on the back side of the refractory body 134 when viewed from the position of the protruding portion 320 . In the case of this embodiment, the refractory body support part 136 is made of a part of the steel plate that constitutes the inner skin part 52. Therefore, the refractory support portion 136 according to this embodiment is made of metal.

The first refractory joint filler 138 is arranged on the outer skin portion 50 side when viewed from the position of the refractory body 134. The second refractory joint material 140 is arranged on the inner skin portion 52 side when viewed from the position of the refractory body 134. Thereby, the pair of refractory joint materials consisting of the first refractory joint material 138 and the second refractory joint material 140 are arranged so as to close both sides of the refractory body 134. The first refractory joint material 138 and the second refractory joint material 140 are both made of a well-known refractory material. In the case of this embodiment, the compressive strength of the first refractory joint material 138 and the second refractory joint material 140 is greater than the compressive strength of the interskin portion 54. As a result, the compressive strength of the first refractory joint material 138 and the second refractory joint material 140 is greater than the compressive strength of the section sandwiched between the one end connecting portion 56 and the other end connecting portion 58.

[Explanation of construction procedure]
Hereinafter, the construction procedure of the outer wall panel 30 according to this embodiment will be explained. First, an exterior wall panel 30 according to this embodiment is attached to the building 20 at the lowest part of the building 20 by a well-known procedure. When the exterior wall panel 30 according to this embodiment is attached to the building 20, another exterior wall panel 30 according to this embodiment is placed on top of the exterior wall panel 30. Specific procedures for this purpose are well known. Therefore, the detailed description thereof will not be repeated here.

When another exterior wall panel 30 is placed on top of the exterior wall panel 30 attached to the building 20 at the lowest part of the building 20, the other end connecting portion 58 of the former exterior wall panel 30 is connected to one end of the latter exterior wall panel 30. Enter section 56.

As the other end connecting portion 58 of the former outer wall panel 30 enters the one end connecting portion 56 of the latter outer wall panel 30, the protruding portion 130 and the cantilever portion 132 of the other end connecting portion 58 are connected to the one end connecting portion 56. into the engagement groove 70 of. The refractory body 134 and the refractory support portion 136 of the other end connecting portion 58 enter into the fitting groove 72 of the one end connecting portion 56 .

When the protruding portion 130 and the cantilever portion 132 enter the engaging groove 70, the protruding portion 130 and the cantilever portion 132 contact the waterproof material 60 within the engaging groove 70. As a result, the protruding portion 130 and the cantilever portion 132 are pressed against the waterproof material 60. FIG. 5 is a diagram showing a situation in which the outer wall panels 30 are connected to each other. Although not shown in FIG. 5, the former, that is, the outer wall panel 30 installed on the lower side in FIG. It is fixed to the frame of the building 20 by penetrating the screws.

As shown in FIG. 5, the cantilever portion 132 of the other end connecting portion 58 of the former outer wall panel 30 is fitted into the engagement groove 70 of the one end connecting portion 56 of the latter outer wall panel 30. Further, one end connecting portion 56 of the latter outer wall panel 30 is in contact with the other end connecting portion 58 of the former outer wall panel 30. In this case, the tip of the cantilever section 132 of the former outer wall panel 30 faces the direction in which the base of the force receiving side surface 112 of the engagement groove 70 of the latter outer wall panel 30 is located. Based on this, the following is assumed for one exterior wall panel 30. That is, the cantilever portion 132 of the other end connecting portion 58 is fitted into the engagement groove 70 of the one end connecting portion 56, and the one end connecting portion 56 and the other end connecting portion 58 are in contact with each other. Under this assumption, the tip of the cantilever portion 132 faces in the direction in which the base of the force-receiving side surface 112 of the engagement groove 70 of the end connecting portion 56 is located. The direction in which the base of the force-receiving side surface 112 is located is the side of the force-receiving side surface 112 of the engagement groove 70 when viewed from the position of the tip of the protruding portion 130, and is closer to the force-receiving side surface 112 than the tip of the force-receiving side surface 112. 112 means the direction closer to the base. In the outer wall panel 30 according to this embodiment, the tip of the cantilever portion 132 faces in this direction.

Further, as shown in FIG. 5, the cantilever portion 132 of the other end connecting portion 58 of the former outer wall panel 30 is fitted into the engagement groove 70 of the one end connecting portion 56 of the latter outer wall panel 30. . As described above, the one end connecting portion 56 of the latter outer wall panel 30 is in contact with the other end connecting portion 58 of the former outer wall panel 30. In this case, the force-receiving side surface 112 of the engagement groove 70 of the latter outer wall panel 30 faces the open space 160 of the former outer wall panel 30. Based on this, the same assumption as described above is made for one exterior wall panel 30. Under this assumption, if the cantilever part 132 of the other end connecting part 58 is fitted into the engagement groove 70 of the one end connecting part 56 and the one end connecting part 56 and the other end connecting part 58 are in contact with each other, A force-receiving side surface 112 of the engagement groove 70 faces the open space 160. In the outer wall panel 30 according to this embodiment, the force-receiving side surface 112 of the engagement groove 70 is arranged in this manner.

When the outer wall panels 30 are connected to each other, the latter outer wall panel 30 is fixed to a frame (not shown) of the building 20. For this purpose, well-known screws (not shown) pass through the refractory body 134, the first refractory joint material 138, and the second refractory joint material 140 in the latter outer wall panel 30. Since the specific procedure for the penetration is well known, detailed explanation thereof will not be repeated here. Thereafter, the outer wall of the building 20 is formed by repeating the same steps.

[Description of effects of this embodiment]
When wind blows around the building 20 whose exterior walls are formed by the exterior wall panels 30 according to this embodiment, negative pressure may be applied to those exterior wall panels 30 that are placed on top of other exterior wall panels 30. Suppose it took. In that case, one of the outer wall panels 30 will be placed on top of another outer wall panel 30. In that case, the fireproof body 134 of the latter outer wall panel 30 is fitted into the fitting groove 72 of the former outer wall panel 30. For this reason, the fitting groove 72 of the former outer wall panel 30 initially receives a reaction force from the fireproof body 134 of the latter outer wall panel 30. This maintains the connection between the outer wall panels 30.

Next, it is assumed that the latter outer wall panel 30 also tries to come off from the building 20 due to the negative pressure. In addition, it is assumed that the fitting groove 72 of the former outer wall panel 30 cannot withstand the reaction force received from the latter refractory body 134 and is destroyed. As a result, the connection between the outer wall panels 30 cannot be maintained. When the latter refractory body 134 comes off from the former fitting groove 72 due to the destruction, the force-receiving side surface 112 of the former engaging groove 70 approaches the latter cantilever portion 132. At this time, the tip of the latter cantilever portion 132 faces toward the base of the force-receiving side surface 112 of the former engagement groove 70. In this state, the tip of the latter cantilever portion 132 fits into its base. If negative pressure continues to be applied to the former outer wall panel 30 in this state, the former engagement groove 70 will try to flip up the latter cantilever section 132. The latter cantilever section 132 applies a reaction force to the former engagement groove 70 as the latter is about to be turned up. Since a reaction force is applied, the former engagement groove 70 is held down by the latter cantilever portion 132. Since the engagement groove 70 of the former is held down, the former is prevented from being turned up by the above-mentioned negative pressure. Since the cantilever section 132 prevents the outer wall panel 30 from being turned up, the structure for suppressing the turning up of the outer wall panel 30 is simplified. As a result, an outer wall panel 30 is provided in which the structure of the connection-related portion is simplified.

Moreover, when the pair of exterior wall panels 30 according to this embodiment are connected to each other, the force receiving side surface 112 of the engagement groove 70 of one of them faces the open space 160 formed in the other of them. In the outer wall panel 30 according to this embodiment, the open space 160 is sandwiched between the force-receiving side surface 112 of the engagement groove 70 in the former case and the protrusion part 130 and the cantilever part 132 in the latter case. When the open space 160 is pinched, when the former outer wall panel 30 is about to be turned up by the above-mentioned negative pressure, the former force-receiving side surface 112 will enter the latter open space 160. As a result of such intrusion, when the former outer wall panel 30 is about to be turned up due to the above-mentioned negative pressure, when the former force-receiving side surface 112 comes into contact with the latter protrusion 130, the latter open space 160 is opened. Blocked. This improves the fire resistance at this location. The force-receiving side surface 112 of the former enters the open space 160 of the latter not only when the outer wall panel 30 of the former is about to be turned up by the above-mentioned negative pressure. Even when the pair of exterior wall panels 30 according to this embodiment are exposed to high temperatures, the force-receiving side surface 112 of the former can enter the open space 160 of the latter. An example of a case where the pair of exterior wall panels 30 according to this embodiment is exposed to high temperatures is a fire. In this way, when the former force-receiving side surface 112 enters the latter open space 160, the latter open space 160 is also closed. In this case as well, the fire resistance performance at this location is improved.

Further, it is assumed that the connection between one end connecting portion 56 and the other end connecting portion 58 of one pair of the outer wall panels 30 according to the present embodiment is about to come off due to negative pressure applied to the former. In that case, the former engagement groove 70 is held down by the latter cantilever section 132. At that time, the force-receiving side surface 112 of the former engagement groove 70 is difficult to bend. This is because the former force-receiving side surface 112 is reinforced by the side surface reinforcing portion 92 in contact therewith. Since the force-receiving side surface 112 of the former is difficult to bend, there is less risk that the engagement groove 70 of the former will come off from the cantilever section 132 of the latter due to the force-receiving side 112 bending. As a result, when objects having a common structure in connection-related parts are connected, one of them is further suppressed from being flipped up due to negative pressure.

When the pair of exterior wall panels 30 according to this embodiment are connected to each other, the refractory body 134 of the other enters into the fitting groove 72 of one. Thereby, the fire resistance performance of the pair of outer wall panels 30 is ensured. As a result, when the pairs of exterior wall panels 30 according to this embodiment are connected to each other, they exhibit high fire resistance.

In the other end connecting portion 58 of the outer wall panel 30 according to this embodiment, both sides of the fireproof body 134 are closed by a first fireproof joint material 138 and a second fireproof joint material 140. This suppresses a rise in temperature inside the outer wall panel 30 due to heat generated by a fire or the like. Since the temperature rise is suppressed, the fire resistance performance of the outer wall panel 30 is improved.

When the exterior wall panel 30 according to this embodiment is fixed to the building 20 or the like, screws pass through the first refractory joint material 138, the second refractory joint material 140, and the fireproof body 134. In that case, depression of the surface of the outer wall panel 30 due to the penetration is suppressed compared to the case described below. In this case, the screw or the like passes through the section described below. This section is a section sandwiched between one end and the other end of the outer wall panel 30. The section sandwiched between one end and the other end of the outer wall panel 30 herein refers to the section where the interskin part 54 is arranged between the outer skin part 50 and the inner skin part 52. The reason why the surface of the outer wall panel 30 is prevented from collapsing due to the penetration of the screws is because the compressive strength of the first refractory joint material 138 and the second refractory joint material 140 is high. As a result, the possibility that the appearance will be impaired by fixing to the building 20 or the like is reduced.

In the outer wall panel 30 according to the present embodiment, when the refractory support portion 136 contacts the refractory 134, when a bending moment is applied to the refractory 134, the influence of the bending moment on the refractory 134 can be suppressed. When the influence of the bending moment is suppressed, the possibility that the refractory body 134 is destroyed due to the influence of the bending moment becomes smaller.

In the outer wall panel 30 according to this embodiment, the protruding portion 130 and the cantilever portion 132 are made of steel plate. Thereby, these are held in the engagement groove 70 even after plastic deformation.

<Second embodiment>
FIG. 6 is a sectional view of the outer wall panel 32 according to this embodiment. The configuration of the outer wall panel 32 according to this embodiment will be explained based on FIG. 6.

As shown in FIG. 6, the outer wall panel 32 according to the present embodiment includes an outer skin part 50, an inner skin part 52, an inter-skin part 54, one end connecting part 256, the other end connecting part 258, and a waterproof material 60. Equipped with.

One end connecting portion 256 is arranged at one end of outer wall panel 32 . In this embodiment, the one end connecting portion 256 is disposed at the lower end of the outer wall panel 32. The specific configuration of the one end connecting portion 256 in this embodiment will be described later.

The other end connecting portion 258 is arranged at the other end of the outer wall panel 32. In the case of this embodiment, the other end connecting portion 258 is used so as to be disposed at the upper end of the outer wall panel 32. The specific configuration of the other end connecting portion 258 in this embodiment will also be described later.

FIG. 7 is an enlarged view of section A in FIG. 6. The specific configuration of the one-end connecting portion 256 according to this embodiment will be explained based on FIGS. 6 and 7.

In the case of this embodiment, the one end connecting portion 256 has an engagement groove 270 and a fitting groove 272. The engagement groove 270 is a groove into which a certain part of the other end connecting portion 258 of the other outer wall panel 32 enters. The fitting groove 272 is arranged in line with the engagement groove 270. In the case of this embodiment, the engagement groove 270 extends along the direction along the outer wall surface of the outer wall panel 32 when it is installed on the building 20. The fitting groove 272 is arranged in line with the engagement groove 270 at a location that is on the indoor side when viewed from the engagement groove 270 when the outer wall panel 32 is installed on the building 20 . The fitting groove 272 is a groove into which the other part of the other end connecting portion 258 enters.

In the case of this embodiment, the engagement groove 270 has a groove main body portion 290 and a fitting groove side protrusion 292 .

The groove main body portion 290 forms a bottom surface 310, a force-receiving side surface 312, and an opposing side surface 314. The force-receiving side surface 312 and the opposing side surface 314 are a pair of side surfaces formed by the groove main body portion 290. The force receiving side surface 312 is arranged on the fitting groove 272 side when viewed from the position of the bottom surface 310. As described above, the fitting groove 272 is arranged at a location on the indoor side when viewed from the engaging groove 270 when the outer wall panel 32 is installed on the building 20. Therefore, the force-receiving side surface 312 is also arranged at a location on the indoor side when viewed from the bottom surface 310 when the outer wall panel 32 is installed in the building 20. In the case of this embodiment, the force receiving side surface 312 protrudes from the bottom surface 310 in a cantilever shape. The force-receiving side surface 312 receives a reaction force from the other end connecting portion 258 of the other outer wall panel 32 . The force-receiving side surface 312 according to this embodiment can be bent by receiving the reaction force. In the case of this embodiment, the force-receiving side surface 312 is arranged closer to the fitting groove 272 than the cantilever section 322, which will be described later, when looking at the one end connecting section 256 from the other end connecting section 258. Opposing side surface 314 faces force-receiving side surface 312 .

The fitting groove side protrusion 292 protrudes from the force receiving side surface 312 toward the back side of the force receiving side surface 312 when viewed from the position of the bottom surface 310 of the groove main body portion 290 . As shown in FIG. 7, in this embodiment, the base of the fitting groove side protrusion 292 extends in the direction from the engagement groove 270 to the fitting groove 272. As shown in FIG. The tip of the fitting groove side protrusion 292 extends along the direction from the one end connecting portion 256 to the other end connecting portion 258. Accordingly, as shown in FIG. 7, the base of the fitting groove side protrusion 292 is bent. In addition, in the case of this embodiment, the tip of the fitting groove side protrusion 292 is arranged on the side opposite to the force-receiving side surface 312 when viewed from the position of the edge 332 on the engagement groove 270 side of the fitting groove 272. There is.

In the case of this embodiment, the above-mentioned waterproof material 60 is arranged inside the groove main body portion 290 and further within the space formed by the engagement groove 270. In the case of this embodiment, the waterproof material 60 protrudes along the direction from the other end connecting portion 258 to the one end connecting portion 256.

FIG. 8 is an enlarged view of part B in FIG. 6. The specific configuration of the other end connecting portion 258 according to this embodiment will be explained based on FIGS. 6 and 8.

In the case of this embodiment, the other end connecting portion 258 includes the protruding portion 320, the cantilever portion 322, the refractory body 334, the refractory body support portion 336, the first refractory joint material 338, and the second refractory joint material. 340.

The protrusion 320 is arranged to face the engagement groove 270 in the direction from the one end connection part 256 to the other end connection part 258 when viewed from the position of the engagement groove 270. The protruding portion 320 protrudes in a direction from the one end connecting portion 256 to the other end connecting portion 258.

The cantilever portion 322 is arranged to face the engagement groove 270 in the direction from the one end connection portion 256 to the other end connection portion 258 when viewed from the position of the engagement groove 270. The cantilever portion 322 continues to the tip of the protrusion 320 . The tip of the cantilever portion 132 faces in a predetermined direction, which will be described later.

In the case of this embodiment, the protruding portion 320 and the cantilever portion 322 are made of a part of the steel plate that constitutes the outer skin portion 50. Therefore, the protruding part 320 and the cantilever part 322 according to this embodiment are made of metal.

As described above, in the case of this embodiment, the engagement groove 270 extends along the direction along the outer wall surface of the outer wall panel 32 when it is installed on the building 20. In the case of the present embodiment, the protruding portion 320 and the cantilever portion 322 extend along the engagement groove 270 thereof. As a result, the protruding portion 320 and the cantilever portion 322 also extend in the direction along the outer wall surface of the outer wall panel 32 when it is installed on the building 20. In the case of this embodiment, an open space 360 is formed between the protruding portion 320 and the cantilever portion 322. In the case of this embodiment, the open space 360 is open on the side opposite to the protrusion 320 when viewed from between the protrusion 320 and the cantilever section 322.

The refractory body 334 is arranged in the direction from the one end connecting portion 256 to the other end connecting portion 258 when viewed from the position of the fitting groove 272 . The refractory body 334 is arranged so as to face the fitting groove 272 in that direction. The refractory body 334 protrudes along the direction from the one end connecting portion 256 to the other end connecting portion 258. In the case of this embodiment, the width of the refractory body 334 in the direction perpendicular to the direction from the one end connecting portion 256 to the other end connecting portion 258 is less than the width of the fitting groove 272 in that direction. The refractory body 334 is made of a well-known refractory material.

The refractory body support portion 336 contacts the refractory body 334 on the back side of the refractory body 334 when viewed from the position of the protruding portion 320 . In the case of this embodiment, the refractory body support part 136 is made of a part of the steel plate that constitutes the inner skin part 52. Therefore, the refractory support portion 136 according to this embodiment is made of metal.

The first refractory joint material 338 is arranged on the outer skin portion 50 side when viewed from the position of the refractory body 334. The second refractory joint material 340 is arranged on the inner skin portion 52 side when viewed from the position of the refractory body 334. Thereby, the pair of refractory joint materials consisting of the first refractory joint material 338 and the second refractory joint material 340 are arranged so as to close both sides of the refractory body 334. The first refractory joint material 338 and the second refractory joint material 340 are both made of a well-known refractory material. In the case of this embodiment, the compressive strength of the first refractory joint material 338 and the second refractory joint material 340 is greater than the compressive strength of the skin space 54. As a result, the compressive strength of the first refractory joint material 338 and the second refractory joint material 340 is greater than the compressive strength of the section sandwiched between the one end connecting portion 256 and the other end connecting portion 258.

Other points are similar to the outer wall panel 30 according to the first embodiment. Therefore, the detailed description thereof will not be repeated here.

[Explanation of construction procedure]
The construction procedure for the outer wall panel 32 according to this embodiment is similar to that of the outer wall panel 30 according to the first embodiment. Therefore, the detailed description thereof will not be repeated here. FIG. 9 is a diagram showing a situation in which the outer wall panels 32 according to this embodiment are connected to each other.

As is clear from FIG. 9, also in this embodiment, the tip of the cantilever portion 322 faces in the direction described below. That is, it is first assumed that the cantilever portion 322 of the other end connecting portion 258 is fitted into the engagement groove 270 of the one end connecting portion 256 and that the one end connecting portion 256 and the other end connecting portion 258 are in contact with each other. Under this assumption, the tip of the cantilever portion 322 according to the present embodiment faces in the direction in which the base of the force receiving side surface 312 of the engagement groove 270 of the one end connecting portion 256 is located. The direction in which the base of the force-receiving side surface 312 is located is the side of the force-receiving side surface 312 of the engagement groove 270 when viewed from the position of the tip of the protrusion 320, and is closer to the force-receiving side surface 312 than the tip of the force-receiving side surface 312. 312 means the direction closer to the base. In the outer wall panel 30 according to this embodiment, the tip of the cantilever portion 322 faces in this direction.

[Description of effects of this embodiment]
Similar to the exterior wall panel 30 according to the first embodiment, the exterior wall panel 32 according to the present embodiment also has a simplified structure of the parts related to connection, improved fire resistance performance, and no damage to the external appearance due to fixation to the building 20 etc. The possibility of this happening is reduced. Furthermore, the possibility that the refractory body 334 will be destroyed is reduced.

Further, in the case of the outer wall panel 32 according to the present embodiment, the force receiving side surface 312 of the groove main body portion 290 may receive a reaction force from the fireproof body 334 of another outer wall panel 32 and be pushed toward the opposing side surface 314 side. When the force-receiving side surface 312 of the groove main body portion 290 receives such a reaction force, the force-receiving side surface 312 is pushed up. As a result, even if the cantilever section 322 of another outer wall panel 32 enters the groove main body 290, the groove main body 290 becomes difficult to bend. Since it is difficult to bend, the groove main body portion 290 is likely to receive a large reaction force from the cantilever portion 322 of the other outer wall panel 32. As a result, the outer wall panel 32 is prevented from turning up.

<Third embodiment>
FIG. 10 is a sectional view of the outer wall panel 34 according to this embodiment. The configuration of the outer wall panel 34 according to this embodiment will be explained based on FIG. 10.

As shown in FIG. 10, the outer wall panel 34 according to the present embodiment includes an outer skin part 50, an inner skin part 52, an interskin part 54, one end connecting part 356, the other end connecting part 358, and a waterproof material 60. Equipped with

One end connecting portion 356 is disposed at one end of outer wall panel 34 . In this embodiment, the one end connecting portion 356 is disposed at the lower end of the outer wall panel 34 . The specific configuration of the one end connecting portion 356 in this embodiment will be described later.

The other end connecting portion 358 is arranged at the other end of the outer wall panel 34 . In the case of this embodiment, the other end connecting portion 358 is used so as to be disposed at the upper end of the outer wall panel 34. The specific configuration of the other end connecting portion 358 in this embodiment will also be described later.

FIG. 11 is an enlarged view of part A in FIG. 10. The specific configuration of the one-end connecting portion 356 according to this embodiment will be explained based on FIGS. 10 and 11.

In the case of this embodiment, the one end connecting portion 356 has an engagement groove 370 and a fitting groove 372. The engagement groove 370 is a groove into which a certain part of the other end connecting portion 358 of the other outer wall panel 34 enters. In the case of this embodiment, the engagement groove 370 extends along the direction along the outer wall surface of the outer wall panel 34 when it is installed on the building 20. The fitting groove 372 is arranged in line with the engagement groove 370 at a location that is on the indoor side when viewed from the engagement groove 370 when the outer wall panel 34 is installed on the building 20. The fitting groove 372 is a groove into which the other part of the other end connecting portion 358 enters.

In the case of this embodiment, the engagement groove 370 has a bottom surface 410, a force-receiving side surface 412, and an opposing side surface 414. The force receiving side surface 412 is arranged on the fitting groove 372 side when viewed from the position of the bottom surface 410. As described above, the fitting groove 372 is arranged at a location on the indoor side when viewed from the engaging groove 370 when the outer wall panel 34 is installed on the building 20. Therefore, the force-receiving side surface 412 is also arranged at a location on the indoor side when viewed from the bottom surface 410 when the outer wall panel 34 is installed in the building 20. In the case of this embodiment, the force-receiving side surface 412 protrudes from the bottom surface 410 in a cantilever shape. The force-receiving side surface 412 receives a reaction force from the other end connecting portion 358 of the other outer wall panel 34 . The force-receiving side surface 412 according to this embodiment can be bent by receiving the reaction force. In the case of this embodiment, the force-receiving side surface 412 is arranged closer to the fitting groove 372 than the cantilever section 422, which will be described later, when looking at the one end connecting section 356 from the other end connecting section 358. Opposing side surface 414 faces force-receiving side surface 412 .

As shown in FIG. 11, in this embodiment, a step 430 is formed on the fitting groove 372 side of the force receiving side surface 412. As shown in FIG. 11, this step 430 is higher on the edge 450 side of the force receiving side surface 412 and lower on the root 452 side. In the case of this embodiment, the step 430 is formed by bending the tip of a steel plate that constitutes the engagement groove 370.

In the case of this embodiment, the edge 450 of the force-receiving side surface 412 of the engagement groove 370 is arranged closer to the engagement groove 372 than the cantilever portion 422, which will be described later. In the case of the present embodiment, the root 452 of the force receiving side surface 412 is located in the direction from the other end connecting portion 358 to the one end connecting portion 356 when viewed from the position of the edge 432 on the engaging groove 370 side of the fitting groove 372. It is arranged on the fireproof body 334 side.

FIG. 12 is an enlarged view of part B in FIG. 10. The specific configuration of the other end connecting portion 358 according to this embodiment will be explained based on FIGS. 10 and 12.

In the case of this embodiment, the other end connecting portion 358 includes the protruding portion 420, the cantilever portion 422, the refractory body 434, the refractory body support portion 436, the first refractory joint material 438, and the second refractory joint material. 440 and a third refractory joint material 442.

The protruding portion 420 is arranged to face the engaging groove 370 in the direction from the one end connecting portion 356 to the other end connecting portion 358 when viewed from the position of the engaging groove 370. The protruding portion 420 protrudes in a direction from the one end connecting portion 356 to the other end connecting portion 358.

The cantilever portion 422 is arranged to face the engagement groove 370 in the direction from the one end connection portion 356 to the other end connection portion 358 when viewed from the position of the engagement groove 370. The cantilever portion 422 continues to the tip of the protrusion 420 . The tip of the cantilever portion 422 faces in a predetermined direction, which will be described later.

In the case of this embodiment, the protruding portion 420 and the cantilever portion 422 are made of a part of the steel plate that constitutes the outer skin portion 50. Therefore, the protruding portion 420 and the cantilever portion 422 according to this embodiment are made of metal.

The refractory body 434 is arranged in a direction from one end connecting portion 356 to the other end connecting portion 358 when viewed from the position of the fitting groove 372. The refractory body 434 is arranged so as to face the fitting groove 372 in that direction. The refractory body 434 protrudes in a direction from one end connecting portion 356 to the other end connecting portion 358. In the case of this embodiment, the width of the refractory body 434 in the direction perpendicular to the direction from the one end connecting portion 356 to the other end connecting portion 358 is less than the width of the fitting groove 372 in that direction.

The first refractory joint material 438 is arranged on the outer skin portion 50 side when viewed from the position of the refractory body 434. The second refractory joint material 440 is arranged on the inner skin portion 52 side when viewed from the position of the refractory body 434. The third refractory joint material 442 is arranged on the outer skin portion 50 side when viewed from the position of the first refractory joint material 438. As a result, a plurality of refractory joint materials including the first refractory joint material 438, the second refractory joint material 440, and the third refractory joint material 442 are arranged so as to close both sides of the refractory body 434.

Moreover, in the case of this embodiment, the third refractory joint material 442 is also placed between the protrusion 420 and the cantilever beam 422 . Of the third refractory joint material 442, the side opposite to the protrusion 420 when viewed from between the protrusion 420 and the cantilever 422 faces the refractory body 434 with a space open therebetween.

Note that the first refractory joint material 438, the second refractory joint material 440, and the third refractory joint material 442 are all made of a well-known refractory material. In the case of this embodiment, the compressive strength of the first refractory joint material 438, the second refractory joint material 440, and the third refractory joint material 442 is greater than the compressive strength of the interskin portion 54. As a result, the compressive strength of the first refractory joint material 438, the second refractory joint material 440, and the third refractory joint material 442 is greater than the compressive strength of the section sandwiched between the one end connecting portion 356 and the other end connecting portion 358. becomes.

Other points are similar to the outer wall panel 30 according to the first embodiment. Therefore, the detailed description thereof will not be repeated here.

[Explanation of construction procedure]
The construction procedure for the exterior wall panel 34 according to this embodiment is similar to that of the exterior wall panel 30 according to the first embodiment. Therefore, the detailed description thereof will not be repeated here. FIG. 13 is a diagram showing a situation in which the outer wall panels 34 according to this embodiment are connected to each other.

Note that, as is clear from FIG. 13, also in this embodiment, the tip of the cantilever portion 422 faces in the direction described below. That is, it is first assumed that the cantilever part 422 of the other end connecting part 358 is fitted into the engagement groove 370 of the one end connecting part 356 and that the one end connecting part 356 and the other end connecting part 358 are in contact with each other. Under this assumption, the tip of the cantilever portion 422 according to the present embodiment faces in the direction in which the base of the force receiving side surface 412 of the engagement groove 370 of the end connecting portion 356 is located. The direction in which the base of the force-receiving side surface 412 is located is the side of the force-receiving side surface 412 of the engagement groove 370 when viewed from the position of the tip of the protrusion 420, and is closer to the force-receiving side surface 412 than the tip of the force-receiving side surface 412. 412 means the direction closer to the base. In the outer wall panel 34 according to this embodiment, the tip of the cantilever portion 422 faces in this direction.

[Description of effects of this embodiment]
Similar to the exterior wall panel 30 according to the first embodiment, the exterior wall panel 34 according to the present embodiment also has a simplified structure of the parts related to connection, improved fire resistance, and no damage to the external appearance due to fixation to the building 20 or the like. The possibility of this happening is reduced. Furthermore, the possibility that the refractory body 434 will be destroyed is reduced.

Furthermore, in the case of the outer wall panel 34 according to the present embodiment, when the refractory body 434 engages with the step 430 of the force-receiving side surface 412, even if the cantilever portion 422 of another outer wall panel 34 enters the engagement groove 370, The engagement groove 370 becomes difficult to bend. Since it is difficult to bend, the engagement groove 370 is likely to receive a large reaction force from the cantilever section 422 of the other outer wall panel 34. As a result, the above-mentioned curling up is further suppressed.

<Fourth embodiment>
FIG. 14 is a sectional view of the outer wall panel 36 according to this embodiment. The configuration of the outer wall panel 36 according to this embodiment will be explained based on FIG. 14.

As shown in FIG. 14, the outer wall panel 36 according to the present embodiment includes an outer skin part 50, an inner skin part 52, an interskin part 54, one end connecting part 456, the other end connecting part 458, and a waterproof material 460. Equipped with.

One end connecting portion 456 is disposed at one end of outer wall panel 36 . In this embodiment, the one end connecting portion 456 is disposed at the lower end of the outer wall panel 36 . The specific configuration of the one end connecting portion 456 in this embodiment will be described later.

The other end connecting portion 458 is arranged at the other end of the outer wall panel 36. In the case of this embodiment, the other end connecting portion 458 is used so as to be disposed at the upper end of the outer wall panel 36. The specific configuration of the other end connecting portion 458 in this embodiment will also be described later.

FIG. 15 is an enlarged view of part A in FIG. 14. A specific configuration of the one-end connecting portion 456 according to this embodiment will be explained based on FIGS. 14 and 15.

In the case of this embodiment, the one end connecting portion 456 has an engagement groove 470 and a fitting groove 472. The engagement groove 470 is a groove into which a certain part of the other end connecting portion 458 of the other outer wall panel 36 enters. In the case of this embodiment, the engagement groove 470 extends along the direction along the outer wall surface of the outer wall panel 36 when it is installed on the building 20. The fitting groove 472 is arranged in line with the engagement groove 470 at a location that is on the indoor side when viewed from the engagement groove 470 when the outer wall panel 36 is installed on the building 20. The fitting groove 472 is a groove into which the other part of the other end connecting portion 458 enters.

In the case of this embodiment, the engagement groove 470 has a bottom surface 510, a force-receiving side surface 512, and an opposing side surface 514. The force receiving side surface 512 is arranged on the fitting groove 472 side when viewed from the position of the bottom surface 510. As described above, the fitting groove 472 is arranged at a location on the indoor side when viewed from the engaging groove 470 when the outer wall panel 36 is installed on the building 20. Therefore, the force-receiving side surface 512 is also arranged at a location that is on the indoor side when viewed from the bottom surface 510 when the outer wall panel 36 is installed in the building 20. In the case of this embodiment, the force receiving side surface 512 protrudes from the bottom surface 510 in a cantilever shape. In the case of this embodiment, the force-receiving side surface 512 is arranged closer to the fitting groove 472 than the cantilever section 522, which will be described later, when looking at the one end connecting section 456 from the other end connecting section 458. Opposing side surface 514 faces force-receiving side surface 512 .

In the case of this embodiment, the waterproof material 460 described above is arranged inside the engagement groove 470. In the case of this embodiment, the waterproof material 460 is sandwiched between the bottom surface 510 of the engagement groove 470 and the force-receiving side surface 512.

FIG. 16 is an enlarged view of part B in FIG. 14. The specific configuration of the other end connecting portion 458 according to this embodiment will be explained based on FIGS. 14 and 16.

In the case of this embodiment, the other end connecting portion 458 includes the protruding portion 520, the cantilever portion 522, the refractory body 534, the refractory body support portion 536, the first refractory joint material 538, and the second refractory joint material. 540.

The protrusion 520 is arranged to face the engagement groove 470 in the direction from the one end connection part 456 to the other end connection part 458 when viewed from the position of the engagement groove 470. The protruding portion 520 protrudes in a direction from the one end connecting portion 456 to the other end connecting portion 458.

The cantilever portion 522 is arranged to face the engagement groove 470 in the direction from the one end connection portion 456 to the other end connection portion 458 when viewed from the position of the engagement groove 470 . The cantilever portion 522 continues to the tip of the protrusion 520 . The tip of the cantilever portion 522 faces in a predetermined direction, which will be described later.

In the case of this embodiment, the engagement groove 470 extends along the direction along the outer wall surface of the outer wall panel 36 when it is installed on the building 20. In the case of this embodiment, the protruding portion 520 and the cantilever portion 522 extend along the engagement groove 470 thereof. Therefore, the protruding portion 520 and the cantilever portion 522 also extend in the direction along the outer wall surface of the outer wall panel 36 when it is installed on the building 20. In the case of this embodiment, an open space 560 is formed between the protruding portion 520 and the cantilever portion 522. In the case of this embodiment, the open space 560 is open on the side opposite to the protrusion 520 when viewed from between the protrusion 520 and the cantilever section 522.

In the case of this embodiment, the protruding portion 520 and the cantilever portion 522 are made of a part of the steel plate that constitutes the outer skin portion 50. Therefore, the protruding portion 520 and the cantilever portion 522 according to this embodiment are made of metal.

The refractory body 534 is arranged in a direction from one end connecting portion 456 to the other end connecting portion 458 when viewed from the position of the fitting groove 472 . The refractory body 534 is arranged so as to face the fitting groove 472 in that direction. The refractory body 534 protrudes along the direction from the one end connecting portion 456 to the other end connecting portion 458. In the case of this embodiment, the width of the refractory body 534 in the direction perpendicular to the direction from the one end connecting portion 456 to the other end connecting portion 458 is less than the width of the fitting groove 472 in that direction. The refractory body 534 is made of a well-known refractory material.

The refractory support portion 536 contacts the refractory body 534 on the back side of the refractory body 534 when viewed from the position of the protruding portion 520 . In the case of this embodiment, the refractory support portion 536 is made of a part of the steel plate that constitutes the inner skin portion 52. Therefore, the refractory support portion 536 according to this embodiment is made of metal.

The first refractory joint material 538 is arranged on the outer skin portion 50 side when viewed from the position of the refractory body 534. The second refractory joint material 540 is arranged on the inner skin portion 52 side when viewed from the position of the refractory body 534. As a result, a plurality of refractory joint materials including the first refractory joint material 538 and the second refractory joint material 540 are arranged so as to close both sides of the refractory body 534. The first refractory joint material 538 and the second refractory joint material 540 are both made of a well-known refractory material. In the case of this embodiment, the compressive strength of the first refractory joint material 538 and the second refractory joint material 540 is greater than the compressive strength of the skin space 54. As a result, the compressive strength of the first refractory joint material 538 and the second refractory joint material 540 is greater than the compressive strength of the section sandwiched between the one end connecting portion 456 and the other end connecting portion 458.

Other points are similar to the outer wall panel 30 according to the first embodiment. Therefore, the detailed description thereof will not be repeated here.

[Explanation of construction procedure]
The construction procedure for the outer wall panel 36 according to this embodiment is similar to that of the outer wall panel 30 according to the first embodiment. Therefore, the detailed description thereof will not be repeated here. FIG. 17 is a diagram showing a situation in which the outer wall panels 36 according to this embodiment are connected to each other.

As is clear from FIG. 17, also in this embodiment, the tip of the cantilever portion 522 faces in the direction described below. That is, it is first assumed that the cantilever portion 522 of the other end connecting portion 458 is fitted into the engagement groove 470 of the one end connecting portion 456 and the one end connecting portion 456 and the other end connecting portion 458 are in contact with each other. Under this assumption, the tip of the cantilever portion 522 according to the present embodiment faces in the direction in which the base of the force-receiving side surface 512 of the engagement groove 470 of the one-end connecting portion 456 is located. The direction in which the base of the force-receiving side surface 512 is located is the side of the force-receiving side surface 512 of the engagement groove 470 when viewed from the position of the tip of the protrusion 520, and is closer to the force-receiving side surface 512 than the tip of the force-receiving side surface 512. 512 means the direction closer to the base. In the outer wall panel 36 according to this embodiment, the tip of the cantilever portion 522 faces in this direction.

[Description of effects of this embodiment]
Similar to the exterior wall panel 30 according to the first embodiment, the exterior wall panel 36 according to the present embodiment also has a simplified structure of the parts related to connection, improved fire resistance performance, and no damage to the external appearance due to fixation to the building 20 etc. The possibility of this happening is reduced. Furthermore, the possibility that the refractory body 534 will be destroyed is reduced.

[Description of modification]
The embodiment disclosed herein is an example in all respects. The scope of the present invention is not limited based on the embodiments described above. Of course, various design changes may be made without departing from the spirit of the invention.

For example, the specific material of the exterior wall panel according to the present invention is not particularly limited.

20...Buildings 30, 32, 34, 36...Outer wall panel 50...Outer skin part 52...Inner skin part 54...Interskin part 56, 256, 356, 456...One end connection part 58, 258, 358, 458...Other end connection part 60,460...Waterproofing material 70,270,370,470...Engaging groove 72,272,372,472...Fitting groove 90,290...Groove body portion 92...Side reinforcement portion 110,310,410,510...Bottom surface 112 , 312, 412, 512... Force receiving side surface 114, 314, 414, 514... Opposing side surface 130, 320, 420, 520... Projection portion 132, 322, 422, 522... Cantilever portion 134, 334, 434, 534... Refractory body 136, 336, 436, 536...Refractory body support part 138, 338, 438, 538...First refractory joint material 140, 340, 440, 540...Second refractory joint material 160, 360, 560...Open space 292... Fitting groove side protrusion 332, 432, 450...edge 430...step 442...third refractory joint material 452...root

Claims (10)

Comprising one end connecting part arranged at one end and another end connecting part arranged at the other end,
the one end connecting portion has an engagement groove;
An exterior wall panel in which the engagement groove has a pair of bottom and side surfaces,
The other end connecting portion is
When viewed from the position of the engagement groove, it is arranged to face the engagement groove in a direction from the one end coupling part to the other end coupling part, and from the one end coupling part to the other end coupling part. a protrusion that protrudes along the direction;
a cantilever section that is arranged to face the engagement groove in a direction from the one end coupling section to the other end coupling section when viewed from the position of the engagement groove, and that is continuous with the tip of the protruding section. death,
When the tip of the cantilever portion is fitted into the engagement groove of the one end connecting portion and the cantilever beam portion of the other end connecting portion is in contact with the one end connecting portion and the other end connecting portion. In this case, the outer wall panel is characterized in that the base of the force-receiving side surface, which is one of the pair of side surfaces of the engagement groove of the one-end connecting portion, faces in the direction in which it is located. The protruding portion and the cantilever portion extend along the engagement groove,
An open space is formed between the protrusion part and the cantilever part, and the open space is open on the opposite side of the protrusion part when viewed from between the protrusion part and the cantilever part,
The force-receiving side surface of the engagement groove is such that the cantilever portion of the other end connection portion is fitted into the engagement groove of the one end connection portion, and the one end connection portion and the other end connection portion are in contact with each other. The exterior wall panel according to claim 1, wherein the exterior wall panel faces the open space when the exterior wall panel is assumed to be located in the open space. The engagement groove is
a groove body forming a pair of the bottom surface and the side surface;
3. The groove main body according to claim 2, further comprising a side reinforcement portion arranged on the back side of the force-receiving side surface and reinforcing the force-receiving side surface when viewed from the position of the bottom surface of the groove main body. Exterior wall panel. The one end connecting portion has, in addition to the engagement groove, a fitting groove arranged on the back side of the force-receiving side surface in line with the engagement groove when viewed from the position of the bottom surface of the engagement groove,
The other end connecting portion is arranged to face the fitting groove in a direction from the one end connecting portion to the other end connecting portion when viewed from the position of the fitting groove, and further comprising a fireproof body protruding along the direction toward the other end connecting portion,
The width of the refractory body in the direction perpendicular to the direction from the one end connecting part to the other end connecting part is the width of the fitting groove in the direction perpendicular to the direction from the one end connecting part to the other end connecting part. An exterior wall panel according to claim 1, characterized in that it is less than the width of the exterior wall panel. The engagement groove is
a groove body forming a pair of the bottom surface and the side surface;
a fitting groove side protrusion that protrudes from the force-receiving side surface toward the back side of the force-receiving side surface when viewed from the position of the bottom surface of the groove main body,
5. The exterior wall panel according to claim 4, wherein the force-receiving side surface projects from the bottom surface in a cantilever shape. the force-receiving side surface protrudes from the bottom surface in a cantilever shape;
5. The outer wall panel according to claim 4, wherein a step is formed on the fitting groove side of the force-receiving side surface, the edge side of the force-receiving side surface being higher and the root side being lower. The outer wall panel according to claim 4, wherein the other end connecting portion further includes a plurality of fireproof joint materials arranged so as to close both sides of the fireproof body. The external wall panel according to claim 7, wherein the compressive strength of the fireproof joint material is greater than the compressive strength of a section sandwiched between the one end connecting portion and the other end connecting portion of the external wall panel. Claim characterized in that the other end connecting part further includes a metal refractory support part that contacts the refractory body on the back side of the refractory body when viewed from the position of the protruding part. The exterior wall panel described in 4. the protrusion is made of metal;
The exterior wall panel according to claim 1, wherein the cantilever portion is made of metal.

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