JP6842238B2 - Joint structure - Google Patents

Description

The present invention relates to the structure of a joint portion of a wall body used for an outer wall or the like.

Various types of walls are distributed as the outer walls of buildings. Among them, the outer wall panel is widely used because it is lightweight and easy to handle.
In general, a plurality of such outer wall panels are arranged in parallel in each of the vertical and horizontal directions to form one outer wall.
That is, it is common that a plurality of outer wall panels are arranged in parallel with respect to the furring strip to form one wall body.
At this time, for example, if a plurality of outer wall panels are arranged in parallel in the horizontal direction, vertical joints, which are gaps running in the vertical direction, are formed at the boundary portion of the adjacent outer wall panels.
Since such a vertical joint portion is a gap, rainwater, wind, etc. may invade from the outside to the inside, and therefore, waterproof measures or the like at the relevant portion are required. At the same time, it is also necessary to take fireproof measures for this vertical joint.
Various techniques have been proposed as measures for such waterproofing and fire resistance (see, for example, Patent Document 1 and Patent Document 2).

For example, as a technique for enhancing fire resistance performance, according to the technique of Patent Document 1, a technique for arranging a thermal expansion refractory material at a vertical joint between fireproof boards is disclosed.
In this technique, joint jointers are arranged along the joints in the vertical joints so as to cover them from the surface direction. This joint joiner is configured so that the end face of the refractory board is in surface contact with the end surface and the hat portion provided in the central portion in the horizontal direction is inserted into the vertical joint.
A thermal expansion refractory material is arranged on the inner surface of the vertical joint of the hat portion. In the event of a fire, this thermal expansion refractory material expands to block the vertical joints and block the flame and heat path.
Further, on the outdoor side, a waterproof sealing material for maintaining the watertightness of the vertical joints is arranged to ensure waterproofness.
Further, according to the technique of Patent Document 2, the vertical joint portion formed between the panels is covered with a metal joint plate from the outdoor side, and the joint plate portion is further covered with a metal decorative cover from the outdoor side. It is configured to be covered with. Then, the gap between the joint plate and the decorative cover is closed by the sealing material, and a surface waterproof structure is constructed.
Further, a joiner having a hat-shaped cross section is used, and the rising portion formed in the central portion in the horizontal direction of the joiner is configured to be arranged in the vertical joint.
A thermal expansion refractory material is arranged on the inner surface of the vertical joint of the rising portion. In the event of a fire, this thermal expansion refractory material expands to block the vertical joints and block the flame and heat path.
As described above, the techniques of Patent Document 1 and Patent Document 2 are configured to ensure both waterproofness and fire resistance.

JP-A-2015-061971 Japanese Unexamined Patent Publication No. 07-113306

However, in the techniques of Patent Document 1 and Patent Document 2, it is necessary to separately implement waterproof measures and fire prevention measures for vertical joints.
However, both waterproof and fireproof measures should be taken for the vertical joints, and by arranging both in relation to each other, the number of parts can be reduced and the construction can be facilitated. The development of such technology is required.
In addition, there is a demand for higher performance waterproofness and fire resistance.

An object of the present invention is to solve each of the above problems, and to provide a joint structure capable of realizing simple construction and having both high waterproofness and fire resistance.

The subject is a structure of vertical joints formed on an outer wall, the outer wall is formed by a plurality of panels, and the vertical joints are formed between the panels adjacent to each other in the horizontal direction. It is provided with a joiner attached to a structure extending in the vertical direction located on the indoor side of the vertical joint, and a joint cap for waterproofing arranged so as to cover the outdoor side of the vertical joint portion from the outdoor side. The joint cap connects the cap extension portion extending along the outdoor side surface of the panel extending on both sides of the vertical joint and the cap extension portion to the inside of the vertical joint. It is configured to include a cap joint insertion portion protruding in the indoor direction, a heat expansion fireproof material is arranged on the jointer, and the joint cap is directed from the cap joint insertion portion toward the joiner. The fastening member is fastened together with the heat-expanding fire-resistant material, and the gap formed between the cap extending portion and the panel is a cap-side sealing material for blocking the path to the outside. Is attached, and a second cap side sealing material is attached so as to cover the fastening member in the internal space formed on the outdoor side at the joint joint insertion portion, and the outer surface of the joint cap on the outdoor side is substantially flat. The second cap side sealing material is arranged so as not to protrude from the joint cap to the outdoor side, and the extending end portion of the cap extending portion is curved to the indoor side and said. A cap folded portion that is folded back toward the cap joint insertion portion side is formed, and the cap folded portion is pressed against the outdoor side surface of the panel and is arranged at a position different from the cap side sealing material in the horizontal direction. It can be solved by being done.

According to the joint structure according to the present invention, the outdoor side is waterproofed by a joint cap, and the indoor side is configured so that a heat-expanding refractory material having a fire-resistant function is supported by a joiner to provide waterproofness and fire resistance. Prepare together.
The joint cap is configured to be fastened together with the thermal expansion refractory material by the fastening member.
As described above, the joint structure according to the present invention not only has both waterproofness and fire resistance, but also the fastening is executed by arranging both of them in relation to each other, so that the number of parts can be reduced. It can be done and the construction becomes easy.
As described above, according to the joint structure according to the present invention, it is possible to realize simple construction and high waterproofness and fire resistance.

It is a schematic explanatory drawing of the refractory wall which concerns on one Embodiment of this invention. FIG. 5 is a cross-sectional view taken along line XX of FIG. It is an enlarged view of the Y part of FIG. It is an end view which shows the joint cap and the joiner which concerns on one Embodiment of this invention. It is explanatory drawing which shows the size relation of each part which concerns on one Embodiment of this invention.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
The configuration described below does not limit the present invention, and can be variously modified within the scope of the gist of the present invention.
Further, in the present embodiment, the refractory wall will be described as an example, but its shape and the like can be appropriately changed depending on the place where the refractory wall is applied, the connection with the skeleton, and the like. Further, the shape and number of vertical joints are not limited to the examples, and it goes without saying that they can be changed as appropriate.

1 to 5 show an embodiment of the present invention, FIG. 1 is a schematic explanatory view of a refractory wall, FIG. 2 is a sectional view taken along line XX of FIG. 1, and FIG. 3 is Y of FIG. An enlarged view of a part, FIG. 4 is an end view showing a joint cap and a joiner, and FIG. 5 is an explanatory view showing a size relationship of each component.
Note that FIG. 1 is shown so that a part of the inside is exposed.

<About the composition of the refractory wall>
The refractory wall 1 according to the present embodiment will be described with reference to FIG.
In the present embodiment, an example of a wall body constituting the outer wall will be described as the refractory wall 1.
The structure of the vertical joint M2 according to the present embodiment can be effectively applied to a lightweight steel-framed building.
The lightweight steel structure refers to a steel structure having three or less layers and a steel frame having a thickness of 6 mm or less.
That is, the structure according to the present embodiment is suitably applied to a building in which a frame is formed of such a thin steel material.

The refractory wall 1 according to the present embodiment includes an outer wall panel 11, an underlaying member 12, and a frame 13.
The outer wall panel 11 is a so-called metal sandwich panel, and includes a core material 11A, a front surface material 11B, and a back surface material 11C.
The core material 11A is made of a refractory member formed in a rectangular board shape, and a metal surface material 11B is attached to the front surface thereof and a metal back surface material 11C is attached to the back surface thereof. Has been done.
Any refractory member constituting the core material 11A may be used as long as the gist of the present invention is not deviated, but in the present embodiment, a rock wool heat insulating plate is used.
Further, the front surface material 11B and the back surface material 11C may be any thin plate as long as the gist of the present invention is not deviated, but in the present embodiment, an aluminum steel plate is used.

In this embodiment, as shown in FIG. 1, the outdoor side is the front surface side of the refractory wall 1, and the indoor side is the back surface side of the refractory wall 1.
Further, in the present embodiment, the outer wall panel 11 has an example of adopting a structure of a metal sandwich panel in which metal plates are arranged on the front and back surfaces, but the present invention is not limited to this, and at least the back surface material 11C is arranged. Just do it.
That is, the surface material 11B is not an essential configuration, and a rectangular plate-like body other than a metal plate may be attached, or a sheet material may be attached.

Further, in the present embodiment, the refractory wall 1 is configured by arranging a plurality of outer wall panels 11 as its exterior.
Therefore, a horizontal joint M1 is formed between the outer wall panels 11 and 11 arranged in parallel in the height direction, and a vertical joint M2 is formed between the outer wall panels 11 and 11 arranged in parallel in the horizontal direction. The Rukoto.
However, the present invention is not limited to this, and the number and shape of the outer wall panels 11 for forming one unit of the refractory wall 1 (if the structure is such that vertical joints are formed) do not deviate from the gist of the present invention. , And how to stretch it can be changed as appropriate.

The underlaying member 12 according to the present embodiment is a plate material for rectangular underlaying, and is attached to the back surface side of the back surface material 11C (the surface on the indoor side opposite to the side in contact with the core material 11A). It is set up.
The frame 13 according to the present embodiment is a frame body assembled in a rectangular shape, and is an upper frame 13A (not shown), a lower frame 13B, and two vertical frames 13C (not shown) on the left and right (direction in FIG. 2). It is configured to have three furring strips 13D.
The configuration is an example, and the number, arrangement, and the like of the furring strip 13D can be changed as appropriate.
The upper frame 13A and the lower frame 13B are long members made of a lightweight steel frame having the same length and the same shape, and the vertical frame 13C is a long member made of a lightweight steel frame having a substantially U-shaped cross section.

A rectangular frame is formed by passing the vertical frames 13C and 13C between both ends of the upper frame 13A and both ends of the lower frame 13B, and between the left and right vertical frames 13C and 13C. A furring strip 13D having the same length and shape as the vertical frame 13C is arranged therein.
The furring strip 13D is passed between the upper frame 13A and the lower frame 13B so as to be parallel to the vertical frames 13C and 13C. In the present embodiment, one furring strip 13D is arranged near the central portion in the left-right direction, and one furring strip 13D, 13D is arranged close to the left and right vertical frames 13C, 13C. Further, in the present embodiment, the furring strip 13D is formed in a grooved steel shape with a lip.
In the present embodiment, the furring strip 13D arranged near the central portion in the left-right direction is configured to be close to the vertical joint M2 (that is, the vertical joint M2 is also formed near the central portion in the left-right direction). It will be).

The furring strip 13D configured in this way is attached to the back surface side of the outer wall panel 11.
Specifically, it will be attached to the indoor side surface of the underlaying member 12 attached to the indoor side surface of the back surface material 11C.
Then, the furring strip 13D constituting the frame 13 is attached to the pillar H1 which is a load supporting member of the building.
In this embodiment, the pillar H1 and the furring strip 13D are connected to each other on the indoor side of the portion where the vertical joint M2 is formed.

The refractory wall 1 according to the present embodiment is composed of the parts configured as described above.
Briefly, the refractory wall 1 according to the present embodiment is underlaid on the indoor side surface of the back surface material 11C with respect to the outer wall panel to which the metal front surface material 11B and the back surface material 11C are attached to the front and back surfaces of the core material 11A. The member 12 is attached, and the frame 13 is installed on the indoor side surface of the underlaying member 12.

<About the structure of vertical joints>
Next, the waterproof structure and the fireproof structure around the vertical joint M2 according to the present embodiment will be described with reference to FIGS. 2 to 5.
First, a fireproof structure arranged on the indoor side of the vertical joint M2 will be described.
As shown in FIGS. 2 and 3, the joiner 2 is arranged on the indoor side surface of the vertical joint M2 portion, and the joint cap 3 is arranged on the outdoor side surface.
The joiner 2 is an elongated member, and is attached to an indoor elongated member extending in the vertical direction facing the vertical joint M2.
The joiner 2 is for suggesting the mounting position while appropriately securing the vertical joint M2 width when mounting the outer wall panel 11. In other words, the size of the boundary portion (vertical joint M2 portion) of the outer wall panels 11 and 11 parallel in the horizontal direction is secured, and the correct position is suggested.

FIG. 4A shows an end view of Joiner 2. The joiner 2 is a long member, and extends from both the indoor side ends of the joiner joint insertion portion 21 having a bottom surface in the outdoor direction and opening in the indoor direction and having a U-shaped cross section. It is composed of a joiner mounting portion 22 of a substantially rectangular plate body to be put out.
The joiner mounting portions 22 and 22 extend parallel to the bottom surface of the joiner joint insertion portion 21 (that is, parallel to the horizontal plane).
That is, the joiner 2 is a long member formed so that the joiner mounting portions 22 and 22 extend from both indoor side ends of the joiner joint insertion portion 21 and the end face shape is a hat shape.
The bottom surface of the joiner joint insertion portion 21 is referred to as "joiner bottom surface 21a".

In the present embodiment, as shown in FIGS. 2 and 3, the joiner 2 is attached to the surface of the pillar H1 facing the outdoor side.
More specifically, the joiner 2 is directed in the direction in which the joiner joint insertion portion 21 projects toward the outdoor side. Then, the joiner mounting portions 22 and 22 are brought into contact with the outdoor side surface of the pillar H1, and in this state, the joiner mounting portions 22 and 22 are fastened to the pillar H1 by the fastening member V1.
At this time, the joiner joint insertion portion 21 is arranged in the vertical joint M2.
In the construction procedure, the outer wall panels 11 and 11 are arranged side by side on both sides of the jointer joint insertion portion 21 in the horizontal direction, using the joiner joint insertion portion 21 of the joiner 2 attached to the pillar H1 as a mark of the vertical joint M2 position. The Rukoto.

The joiner joint insertion portion 21 constituting the joiner 2 arranged in this way is arranged in the vertical joint M2 as shown in FIGS. 2 and 3.
Then, in the present embodiment, the thermal expansion refractory material 5 is attached to the outer surface (the surface facing the outdoor side) of the joiner joint insertion portion 21.
The thermal expansion refractory material 5 is arranged not only on the bottom surface portion of the joiner joint insertion portion 21 but also on the side surface portion. That is, it is arranged so as to cover the protruding portion of the joiner joint insertion portion 21 from the outdoor side.

Since it is arranged in this way, when it expands as shown by the alternate long and short dash line in FIG. 3, the thermal expansion refractory material 5 expands not only in the thickness direction but also in the horizontal direction, and efficiently closes the vertical joint M2 portion. You will be able to do it.
It is preferable that the outer surface of the thermal expansion refractory material 5 is covered with a metal foil.
With this configuration, it can be expected that heat transfer to the pillar H1 will be reduced.

As the thermal expansion refractory material 5, any material such as epoxy resin type and butyl rubber type may be used, but in the present embodiment, the butyl rubber type thermal expansion refractory material 5 is used. ..
When a butyl rubber-based material is selected in this way, due to its waterproofness, the thermal expansion refractory material 5 normally functions as a waterproof sealing, and in the event of a fire or the like, it expands and functions as a refractory material. Can be done.
As described above, the thermal expansion refractory material 5 according to the present embodiment can have two functions at the same time.

Further, in the present embodiment, the sealing material 4 is arranged in the gap between the predetermined parts to ensure waterproofness. In the present embodiment, the first sealing materials 41 and 41 are arranged between the outdoor side surfaces of the joiner mounting portions 22 and 22 and the underlaying member 12. In the present embodiment, the first sealing material 41 is made of a sealing material. In this way, waterproofness is also ensured around Joiner 2.
As described above, in the present embodiment, measures for fire resistance are taken by the thermal expansion refractory material 5.

Next, the waterproof structure arranged on the outdoor side will be described.
As shown in FIGS. 2 and 3, a joint cap 3 is arranged on the outdoor side surface of the vertical joint M2 portion.
The joint cap 3 is a long member, and is installed so as to extend in the vertical direction while covering the vertical joint M2 from the outdoor side.
As described above, the joint cap 3 covers the outdoor side of the vertical joint M2 and also serves as a decorative member for ensuring the design of the portion.

FIG. 4B shows an end view of the joint cap 3.
The joint cap 3 is a long member, and has a U-shaped cross-section cap joint insertion portion 31 having a bottom surface in the indoor direction and opening in the outdoor direction, and the cap joint insertion portion 31 from both outdoor side ends, respectively. It is composed of a cap extending portion 32 of a substantially rectangular plate body that extends.
The cap extending portions 32, 32 extend parallel to the bottom surface of the cap joint insertion portion 31 (that is, parallel to the horizontal plane).
That is, the joint cap 3 is a long member in which the cap extending portions 32, 32 extend from both outdoor side ends of the cap joint inserting portion 31, and the end face shape is a hat shape. is there.
The bottom surface of the cap joint insertion portion 31 is referred to as "cap bottom surface 31a".

Further, in the present embodiment, one end of the cap extending portion 32 is folded back so that the end face shape is substantially J-shaped.
Specifically, one end of the cap extending portion 32 is gently curved and folded back toward the indoor side and the horizontal central portion side of the joint cap 3.
The folded portion is referred to as "cap folded portion 32a".

In the joint cap 3, the cap joint insertion portion 31 is arranged in the vertical joint M2, and both cap extending portions 32, 32 are arranged on the outdoor side surfaces of the surface materials 11B, 11B parallel to each other with the vertical joint M2 in between. To.
At this time, the cap folded portions 32a and 32a are in pressure contact with the outdoor side surfaces of the surface materials 11B and 11B.
As will be described later, the joint cap 3 is fastened to the joiner 2 by the second fastening member V2 (fastened toward the indoor direction), but when the joint cap 3 is attached in this way, the cap folding portions 32a and 32a are attached. Due to its elasticity, the surface materials 11B and 11B are pressed against the outdoor surface.
Further, since the cap folded portions 32a and 32a are formed in this way, it is possible to prevent the operator from directly contacting the edge (cut portion). Therefore, the handleability is good and the workability is improved.

Hereinafter, the waterproof structure of the vertical joint M2 will be described in detail.
In the present embodiment, both ends of the surface material 11B extending in the vertical direction are of the type with box folding on one end side and the type without box folding on the other end side.
Therefore, at the vertical joint M2, the end portion without the box fold and the end portion with the box fold face each other in the horizontal direction.
On the side without box folding, the joint side end portion of the surface material 11B is bent substantially vertically toward the indoor direction.
The portion of the substantially rectangular plate body that is bent substantially vertically and extends to the indoor side in the vertical joint M2 is referred to as "box folding non-hanging lower portion 111".
Further, on the side with the box fold, the joint side end portion of the surface material 11B is bent substantially vertically toward the indoor direction, and then further substantially vertically bent toward the inside of the vertical joint M2 on the innermost side.
The portion bent into a substantially L-shaped end face in this way is referred to as "box-folded L-shaped portion 112".

The box-folded non-hanging lower portion 111 and the box-folded L-shaped portion 112 formed as described above are arranged in the vertical joint M2, but at this time, they are surrounded by both and opened to the outdoor side. Space K1 is formed.
A second sealing material 42 is arranged in this space K1. In the present embodiment, the second sealing material is composed of a joint filling material. It is preferable that a bond breaker is arranged on the back side surface of the horizontally extending portion of the box-folded L-shaped portion 112.
Further, a packing material or the like is interposed between the box-folded non-hanging lower portion 111 and the vertical joint M2 side end surface of the core material 11A, or between the box-folded L-shaped portion 112 and the vertical joint M2 side end surface of the core material 11A. It may be configured to do so.

As described above, the second sealing material 42 is arranged in the space K1, and the joint cap 3 is arranged in the space K1 in which the second sealing material 42 is arranged.
The joint cap 3 is inserted into the space K1 with the cap joint insertion portion 31 directed in the direction of projecting toward the indoor side. That is, they are arranged so as to face the second sealing material 42 in the thickness direction.
Then, the cap folding portions 32a and 32a are arranged so as to come into contact with the outdoor side surfaces of the surface materials 11B and 11B.
At this time, the third sealing materials 43, 43 are arranged on the surfaces of the cap extending portions 32, 32 facing the indoor side. In the present embodiment, the third sealing material 43 is configured as a packing material made of resin (including synthetic rubber). The third sealing material 43 is interposed between the cap extending portions 32 and 32 and the surface materials 11B and 11B to block the path from the outside when the joint cap 3 is attached.

In this way, the second fastening member V2 is moved from the cap bottom surface 31a to the joiner bottom surface 21a in a state where the cap folding portions 32a and 32a are arranged so as to abut against the outdoor side surfaces of the surface materials 11B and 11B (second). The joint cap 3 is attached by fastening (through the sealing material 42 and the box-folded L-shaped portion).
In this way, in the state of being fastened by the second fastening member V2, a force is applied to the joint cap 3 in the indoor direction, so that the cap folding portions 32a and 32a and the third sealing materials 43 and 43 are surface materials 11B. , 11B is pressed against the outdoor side surface.
Further, since the thermal expansion refractory material 5 is arranged on the outdoor side surface of the joiner joint insertion portion 21, when the second fastening member V2 is used for fastening in this way, the thermal expansion refractory material 5 is also simultaneously present. It is tightened together.

In this way, the cap folding portions 32a and 32a and the third sealing materials 43 and 43 doubly block the path to the outside.
In the present embodiment, a screw member is used as the second fastening member V2, and a fourth sealing material 44 is arranged between the cap joint insertion portion 31 and the head of the second fastening member V2. Will be done. In the present embodiment, the fourth sealing material 44 is composed of a joint filling material.
It is desirable that a backup material is interposed between the fourth sealing material 44 and the head of the second fastening member V2.

In this way, in order to fasten the second fastening member V2, each part has a size configuration as shown in FIG.
In the present embodiment, the protrusion length t1 of the joiner joint insertion portion 21 is adjusted in order to fasten the second fastening member V2 toward the bottom surface 21a of the joiner.
In the present embodiment, the length of the second fastening member V2 is the length t2, the distance between the cap bottom surface 31a and the joiner bottom surface 21a is the distance t3, and the distance from the cap bottom surface to the joiner mounting portion 22 is the distance t4. To do.

When defined in this way, the protrusion length t1 is set so that the distance t3 <length t2.
That is, the distance t3 = the distance t4-the protruding length t1 <the length t2 may be satisfied.
Therefore, the protrusion length t1> the distance t4-the length t2 may be set.
Normally, the joiner 2 functions to indicate the position of the horizontally adjacent outer wall panels 11 and 11, and therefore, the function is exhibited with respect to the protrusion length t1 of the joiner joint insertion portion 21. If possible, you don't need to pay special attention, much less make it bigger.
However, in the present embodiment, the joiner joint insertion portion 21 serves as a base for arranging the thermal expansion refractory material 5 and also functions as a base for fastening the joint cap 3 having a waterproof function. .. The second fastening member V2 can also be fastened together with the thermal expansion refractory material 5.
Therefore, in the present embodiment, the protrusion length of the joiner joint insertion portion 21, which has not been noticed in the prior art, is adjusted to provide the above-mentioned function which cannot be achieved by the prior art.
Further, since the underlaying member 12 is used in the present embodiment, it is necessary to increase the protrusion length t1 by the thickness of the underlaying member 12 as compared with the conventional product.

As described above, according to the joint cap 3 according to the present embodiment, the vertical joint M2 can be covered over the entire length in the vertical direction, and the third sealing material 43 and the fourth sealing material 44 are arranged. , Waterproofness can be improved.
Further, by forming the cap folded portions 32a and 32a, the watertightness of both ends extending in the vertical direction of the joint cap 3 can be improved by the entrainment effect and the elastic effect.
Further, the end structures of the surface materials 11B and 11B and the second sealing material 42 arranged therein can further enhance the waterproof property even on the indoor side of the joint cap 3.

Moreover, according to the present embodiment, the joint cap 3 can be fastened to the joiner 2 provided on the indoor side, so that the work is easy. Further, the joiner 2 is provided with a thermal expansion refractory material 5.
Further, in the present embodiment, the fireproof coating material 6 is covered so as to extend from the indoor side of the pillar H1 to the indoor side surface of the underlaying member 12.
As described above, high fire resistance is ensured in the vertical joint M2 portion according to the present embodiment.
As described above, in the present embodiment, the structure of the vertical joint M1 is provided so that the fireproof structure and the waterproof structure cooperate with each other.
Therefore, it is suitable because the construction is simplified while ensuring high fire resistance and waterproof performance.

As described above, according to the joint structure according to the present invention, the outdoor side of the vertical joint M2 is waterproofed by the joint cap 3, and the indoor side is supported by the thermal expansion refractory material 5 having a fireproof function by the joiner 2. It is configured.
The joint cap 3 is configured to be fastened together with the thermal expansion refractory material 5 by the second fastening member V2 fastened from the cap joint insertion portion 31 toward the joiner joint insertion portion 21.
That is, not only is it provided with both waterproofness and fire resistance, but the fastening is executed when both are related to each other.
Therefore, a structure for fastening both separately is not required, the number of parts is reduced, and the construction is facilitated.
As described above, according to the joint structure according to the present embodiment, it is possible to reduce the number of parts, improve the workability, and provide both fire resistance and waterproofness.
This is an idea that is not found in the conventional technology for constructing both separately, and is an effect that is not found in the conventional technology.

At this time, the steel columns and joiners 2 located on the indoor side of the vertical joint M2 are covered with the fireproof coating material 5 from the indoor side.
With such a configuration, the fire resistance performance can be further enhanced, which is preferable.

As a specific configuration, in the joiner joint insertion portion 21, the protrusion length from the joiner attachment portion 22 in the outdoor direction is the distance between the most indoor side portion of the cap joint insertion portion 31 and the joiner attachment portion 21, and the above. It is configured to be larger than the difference between the length of the fastening member. With such a configuration, the fastening member V2 can be fastened from the cap joint insertion portion 31 constituting the joint cap 3 to the joiner joint insertion portion 21 constituting the joiner 2.

Further, if a metal foil is covered on the outer surface of the thermal expansion refractory material 5, heat transfer to the steel column to which the joiner 2 is attached is expected to be reduced, which is preferable.

Further, the joint structure according to the present embodiment is preferably applied to the refractory wall 1 constituting the lightweight steel-framed building. The refractory wall 1 according to the present embodiment is composed of an outer wall panel 11, and therefore can be suitably used as a refractory wall 1 of a lightweight steel-framed building.

1 Fireproof wall (outer wall)
11 Outer wall panel 11A Core material 11B Surface material 111 Box-folded non-hanging lower part 112 Box-folded L-shaped part 11C Backing material 12 Underlaying member 13 Frame 13A Upper frame 13B Lower frame 13C Vertical frame 13D Furnace 2 Joiner 21 Joiner joint insertion part 21a Joiner bottom surface 22 Joiner mounting part 3 Joint cap 31 Cap joint insertion part 31a Cap bottom surface 32 Cap extension part 32a Cap folding part 4 Sealing material 41 1st sealing material 42 2nd sealing material 43 3rd sealing material (cap side sealing material) )
44 4th sealing material (2nd cap side sealing material)
5 Thermal expansion refractory material 6 Refractory coating material M1 Horizontal joint M2 Vertical joint V1 First fastening member V2 Second fastening member (fastening member)

Claims (4)

It is a structure of vertical joints formed on the outer wall.
The outer wall is formed by a plurality of panels, and the vertical joint is formed between the panels adjacent in the horizontal direction.
A joiner attached to a structure extending in the vertical direction located on the indoor side of the vertical joint,
A waterproof joint cap, which is arranged so as to cover the outdoor side of the vertical joint portion from the outdoor side, is provided.
The joint cap connects a cap extension portion extending along the outdoor side surface of the panel extending on both sides of the vertical joint and the cap extension portion, and indoors inside the vertical joint. It is configured with a cap joint insertion part that protrudes in the direction.
A thermal expansion refractory material is arranged on the joiner.
The joint cap is fastened together with the thermal expansion refractory material by a fastening member fastened from the cap joint insertion portion toward the joiner.
A cap-side sealing material for blocking the path to the outside is attached to the gap formed between the cap extending portion and the panel.
A second cap-side sealing material is attached to the internal space formed on the outdoor side of the cap joint insertion portion so as to cover the fastening member.
The outer surface of the joint cap on the outdoor side is formed so as to be substantially flat, and the second cap side sealing material is arranged so as not to protrude from the joint cap to the outdoor side .
At the extending end of the cap extending portion, a cap folding portion that is curved and folded back toward the indoor side and the cap joint insertion portion side is formed.
The joint structure is characterized in that the cap folded portion is pressed against the outdoor side surface of the panel and is arranged at a position different from the cap side sealing material in the horizontal direction. Joint structure according to claim 1, characterized in that the outer surface of the outdoor side of the joint cap, the second cap-side sealing member outer surface a continuous plane of are formed. The joiner connects the joiner mounting portion extending along the indoor side surface of the panel extending on both sides of the vertical joint and the joiner mounting portion, and projects outward into the inside of the vertical joint. It is configured with a joint joint insertion part to be used.
The structure extending in the vertical direction located on the indoor side of the vertical joint is a steel column.
The pillar and the joiner are covered from the indoor side with a refractory coating material.
In the joint joint insertion portion, the protrusion length in the outdoor direction from the joiner mounting portion is
The distance between the most indoor part of the cap joint insertion portion and the joiner mounting portion,
The joint structure according to claim 1 or 2 , wherein the joint structure is configured to be larger than the difference between the length of the fastening member and the fastening member. A metal foil is covered on the outer surface of the thermal expansion refractory material.
The joint structure according to any one of claims 1 to 3 , wherein the joint structure is applied to the outer wall constituting the lightweight steel-framed building.

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