JPH0960244A - Seal structure for joint of extruded plates - Google Patents
Seal structure for joint of extruded platesInfo
- Publication number
- JPH0960244A JPH0960244A JP21310695A JP21310695A JPH0960244A JP H0960244 A JPH0960244 A JP H0960244A JP 21310695 A JP21310695 A JP 21310695A JP 21310695 A JP21310695 A JP 21310695A JP H0960244 A JPH0960244 A JP H0960244A
- Authority
- JP
- Japan
- Prior art keywords
- joint
- extruded
- extrusion
- plate
- end surface
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Building Environments (AREA)
- Finishing Walls (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、建物の外壁として
用いられる押出成形板の目地を水密状態に封止するシー
ル構造に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seal structure for sealing a joint of an extruded plate used as an outer wall of a building in a watertight state.
【0002】[0002]
【従来の技術】押出成形板を外壁として建築物躯体(例
えば、鉄骨梁等)へ止め金具で固定する場合、隣接する
押出成形板との間には目地が形成される。従来、この目
地にはバックアップ材が挟入され、その上にシーリング
材を充填することにより目地を水密状態に封止し、押出
成形板外部から躯体側への雨水の浸入を防止していた。
ところが、このようなシール構造は、押出成形板の平行
な端面同士の間にシーリング材を接着してあるのみであ
るため、接着力が低く、経年劣化などにより剥離などが
容易に生じ、雨水が躯体側へ浸入してしまうことがしば
しばあった。2. Description of the Related Art When an extruded plate is fixed as an outer wall to a building frame (for example, a steel beam or the like) with a fastener, a joint is formed between the extruded plate and an adjacent extruded plate. Conventionally, a backup material is sandwiched in this joint, and a sealing material is filled on the joint to seal the joint in a watertight state, and rainwater is prevented from entering from the outside of the extruded plate to the body side.
However, such a seal structure has only a sealing material adhered between the parallel end faces of the extruded plate, so that the adhesive strength is low and peeling easily occurs due to deterioration over time, and rainwater is prevented. It often intruded into the body side.
【0003】このような不具合を防止するため、所謂二
重シール構造が提案された。図4は二重シール工法によ
る従来のシール構造の水平断面図である。このシール構
造は、躯体1側にクランプ金具3を介して取り付けられ
た左右の押出成形板5a、5b間の縦目地7を、先ず、
この目地幅より大きい帯状の目地板9で塞ぎ、その外部
側にバックアップ材11を設けた後、更に、縦目地7を
シーリング材13で封止することにより、縦目地7から
の雨水の浸入を、シーリング材13、目地板9によって
二重に阻止していた。In order to prevent such problems, a so-called double seal structure has been proposed. FIG. 4 is a horizontal sectional view of a conventional seal structure by the double seal method. In this seal structure, first, the vertical joint 7 between the left and right extruded plates 5a and 5b attached to the body 1 side via the clamp metal fittings 3 is first
After the band joint plate 9 having a larger width than the joint width is closed and the backup material 11 is provided on the outer side of the joint plate 9, the vertical joint 7 is further sealed with the sealing material 13 to prevent the intrusion of rainwater from the vertical joint 7. , The sealing material 13 and the joint plate 9 were used to prevent the doubly.
【0004】[0004]
【発明が解決しようとする課題】上述したように、目地
にシーリング材のみを充填するシール構造では、押出成
形板の平行な端面同士にシーリング材を接着するのみで
あるため、接着力が確保できず、信頼性の高い水密構造
を得ることができなかった。このため、シーリング材1
3の充填と、更に、その後方でシーリング材13を通過
した雨水の浸入を阻止する目地板9を設けた二重シール
工法が開発された。しかしながら、このような二重シー
ル工法では、シーリング材13に加え、目地板9等の別
途部材が必要となるため、部品点数が増え、且つシーリ
ング材充填前に目地板9を挿入しなければならない煩雑
な作業が増え、押出成形板の施工性を低下させるととも
に、部品コスト、施工コストを増大させる問題があっ
た。本発明は上記状況に鑑みてなされたもので、二重シ
ール工法を採用することなく、シーリング材の充填のみ
により十分な止水効果を得ることができる押出成形板目
地のシール構造を提供し、施工性の向上、部品、施工コ
ストの低減を図ることを目的とする。As described above, in the seal structure in which only the sealing material is filled in the joints, the sealing material is simply bonded to the parallel end faces of the extruded plate, so that the adhesive force can be secured. As a result, a reliable watertight structure could not be obtained. Therefore, the sealing material 1
A double seal construction method was developed in which the filling of No. 3 and the joint plate 9 for preventing the intrusion of rainwater that passed through the sealing material 13 behind the filling of No. 3 were provided. However, such a double sealing method requires a separate member such as the joint plate 9 in addition to the sealing material 13, so that the number of parts increases and the joint plate 9 must be inserted before filling the sealing material. There are problems that the number of complicated operations is increased, the workability of the extrusion-molded plate is deteriorated, and the parts cost and the construction cost are increased. The present invention has been made in view of the above circumstances, and provides a seal structure of an extrusion molded plate joint that can obtain a sufficient water blocking effect only by filling a sealing material without adopting a double sealing method. The purpose is to improve workability and reduce parts and construction costs.
【0005】[0005]
【課題を解決するための手段】上記目的を達成するため
の本発明に係る押出成形板目地のシール構造の構成は、
四角形状の押出成形板と、該押出成形板の四辺の端面に
連続して形成さる溝部とを具備し、前記押出成形板を同
一平面上で上下左右に隣接させることによって形成され
た該押出成形板同士の縦目地及び横目地且つ前記溝部に
シーリング材を一体的に充填したことを特徴とするもの
である。そして、この押出成形板目地のシール構造で
は、押出成形板が目地を挟んで隣接すると、溝部同士が
対向することとなり、目地全体にシーリング材が充填さ
れると、目地に充填されたシーリング材が対向する溝部
へも充填され、シーリング材が接着力のみならず、構造
的にも目地に一体的に接合される。Means for Solving the Problems In order to achieve the above object, the structure of a seal structure for an extrusion molded plate joint according to the present invention is
The extrusion molding comprising a rectangular extrusion molding plate and grooves formed continuously on the end faces of the four sides of the extrusion molding plate, the extrusion molding plate being formed by adjoining the extrusion molding plate vertically and horizontally on the same plane. A vertical joint and a horizontal joint between the plates and the groove are integrally filled with a sealing material. And, in the seal structure of the extrusion molded plate joint, when the extrusion molded plates are adjacent to each other across the joint, the grooves are opposed to each other, and when the sealing material is filled in the entire joint, the sealing material filled in the joint is The opposing groove portions are also filled, and the sealing material is structurally integrally bonded to the joint as well as the adhesive force.
【0006】[0006]
【発明の実施の形態】以下、本発明に係る押出成形板目
地のシール構造の好適な実施の形態を図面を参照して詳
細に説明する。図1は本発明による押出成形板目地のシ
ール構造を示す水平断面図、図2は本発明による押出成
形板目地のシール構造を示す縦断面図、図3は本発明の
シール構造に用いられる押出成形板の斜視図である。図
3に示すように、押出し方向(矢印a方向)が長手方向
で形成される矩形状の押出成形板21には、長手方向に
貫通する複数の中空部23が形成される。押出成形板2
1は、長辺側の一方の端面21aが断面凸状に形成され
るとともに、他方の端面21bが断面凹部状に形成され
る。BEST MODE FOR CARRYING OUT THE INVENTION Preferred embodiments of a seal structure for an extrusion-molded plate joint according to the present invention will be described in detail below with reference to the drawings. FIG. 1 is a horizontal sectional view showing a sealing structure of an extrusion molded plate joint according to the present invention, FIG. 2 is a vertical sectional view showing a sealing structure of an extrusion molded plate joint according to the present invention, and FIG. 3 is an extrusion used for the sealing structure of the present invention. It is a perspective view of a forming plate. As shown in FIG. 3, a plurality of hollow portions 23 penetrating in the longitudinal direction are formed in a rectangular extruded plate 21 whose extruding direction (direction of arrow a) is formed in the longitudinal direction. Extruded plate 2
In No. 1, one end face 21a on the long side is formed to have a convex cross section, and the other end face 21b is formed to have a concave cross section.
【0007】この押出成形板21は、長辺が水平方向
で、且つ凸部25の形成された一方の端面が上となるよ
うにして躯体側へ取り付けられる。従って、上下で隣接
する押出成形板21同士は、図2に示すように、上段押
出成形板21の凹部27に、下段押出成形板21の凸部
25が嵌合した状態となる。また、左右で隣接する押出
成形板21同士は、図1に示すように、凹凸部のない端
面同士を対向させた状態となる。The extruded plate 21 is attached to the body side so that the long side is horizontal and one end face on which the convex portion 25 is formed faces upward. Therefore, as shown in FIG. 2, the vertically adjacent extruded plates 21 are in a state in which the convex portions 25 of the lower extruded plate 21 are fitted into the concave portions 27 of the upper extruded plate 21. Further, as shown in FIG. 1, the extruded plates 21 that are adjacent to each other on the left and right are in a state where the end faces having no uneven portion are opposed to each other.
【0008】このように形成される押出成形板21で
は、凸部25の形成される一方の端面に、凸部25を挟
む一対の小端面29が形成される。また、凹部27の形
成される他方の端面にも、凹部27を挟む一対の小端面
29が形成される。一方、短辺側の端面においても、中
空部23を挟み上述の小端面29と連続する一対の小端
面29が形成される。つまり、押出成形板21には全周
囲に形成された連続する小端面29が、押出成形板21
の表面側及び裏面側で一対形成されていることになる。In the extrusion-molded plate 21 thus formed, a pair of small end faces 29 that sandwich the convex portion 25 are formed on one end face where the convex portion 25 is formed. Further, a pair of small end faces 29 that sandwich the recess 27 are also formed on the other end face where the recess 27 is formed. On the other hand, also on the end face on the short side side, a pair of small end faces 29 that are continuous with the above-mentioned small end face 29 with the hollow portion 23 interposed therebetween are formed. That is, the continuous small end surface 29 formed on the entire circumference of the extruded plate 21 is
A pair is formed on the front surface side and the back surface side.
【0009】従って、上下で凹凸部27、25を嵌合さ
せて連結された押出成形板21同士は、この表面側及び
裏面側の小端面29同士が対向し、図2に示す横目地3
1を形成することとなる。また、左右で連結された押出
成形板21においても、この表面側及び裏面側で対向す
る小端面29同士によって図1に示す縦目地33が形成
されることとなる。Therefore, in the extrusion molded plates 21 which are connected by fitting the concave and convex portions 27 and 25 on the upper and lower sides, the small end faces 29 on the front surface side and the rear surface side face each other, and the lateral joint 3 shown in FIG.
1 will be formed. Further, also in the left and right extruded plates 21, the small joints 29 facing each other on the front surface side and the back surface side form the vertical joint 33 shown in FIG.
【0010】この小端面29の一方、例えば、押出成形
板の表面側の小端面29には、この小端面29を垂直方
向に切り込んだ断面凹状の溝部35が全周囲に連続して
形成されている。押出成形板21の長辺、即ち、押出し
方向の小端面29に形成される溝部35は、押出し成形
時に、口金の形状によって本体の断面形状として同時に
成形される。また、押出成形板21の短辺、即ち、押出
し方向と直交する方向の小端面29の溝部35は、押出
し成形後、切削加工により形成される。On one of the small end faces 29, for example, the small end face 29 on the front surface side of the extruded plate, a groove portion 35 having a concave cross section is formed continuously in the entire circumference by cutting the small end face 29 in the vertical direction. There is. The long side of the extruded plate 21, that is, the groove 35 formed on the small end face 29 in the extruding direction is simultaneously formed as the cross-sectional shape of the main body by the shape of the die during extrusion. The short side of the extruded plate 21, that is, the groove portion 35 of the small end face 29 in the direction orthogonal to the extruding direction is formed by cutting after the extruding.
【0011】このように構成された押出成形板21は、
図1に示すように、縦目地33を挟んで左右に隣接した
際、溝部35同士が縦目地33を挟んで対向することと
なる。また、図2に示すように、横目地31を挟んで隣
接した上下の押出成形板21においても、溝部35同士
が横目地31を挟んで対向することとなる。The extruded plate 21 having the above structure is
As shown in FIG. 1, when adjacent to the left and right with the vertical joint 33 interposed, the groove portions 35 face each other with the vertical joint 33 interposed. Further, as shown in FIG. 2, also in the upper and lower extrusion-molded plates 21 that are adjacent to each other with the horizontal joint 31 sandwiched therebetween, the groove portions 35 are opposed to each other with the horizontal joint 31 sandwiched therebetween.
【0012】このような状態となった縦目地33、横目
地31には、それぞれ図1、図2に示すように、バック
アップ材41が溝部35の後方に挟み入れられた後、目
地31、33全体にシーリング材43が充填される。目
地31、33に充填されたシーリング材43は、対向す
る溝部35へも充填され、一体となり、断面形状が略十
字形状となる。As shown in FIGS. 1 and 2, in the vertical joint 33 and the horizontal joint 31 in such a state, the backup material 41 is sandwiched behind the groove 35, and then the joints 31 and 33 are formed. The whole is filled with the sealing material 43. The sealing material 43 with which the joints 31 and 33 are filled is also filled with the groove portions 35 that face each other, and become integral with each other, so that the cross-sectional shape becomes a substantially cross shape.
【0013】従来のシール構造においては、平行な端面
同士の間にシーリング材が充填され、シーリング材は断
面形状が四角形となり、シーリング材の接着力のみによ
り平行な端面に接着されていた。これに対し、本発明に
よるシール構造では、平行な小端面29に溝部35を形
成したことにより、シーリング材43が小端面29から
垂直方向に押出成形板21内に埋入することとなり、シ
ーリング材43が接着力のみならず、構造的にも目地部
に一体的に接合されることとなる。In the conventional seal structure, the sealing material is filled between the parallel end surfaces, the sealing material has a quadrangular cross section, and the sealing material is bonded to the parallel end surfaces only by the adhesive force of the sealing material. On the other hand, in the seal structure according to the present invention, since the groove portion 35 is formed in the parallel small end surface 29, the sealing material 43 is embedded in the extrusion molding plate 21 in the vertical direction from the small end surface 29, and the sealing material is formed. Not only the adhesive force, but also 43 is structurally joined to the joint portion.
【0014】このようなシール構造によれば、シーリン
グ材43が目地部に接着力及び構造的な耐力(剪断耐力
など)を有して強固に接合され、剥離の心配もなくな
り、従来の接着力のみに頼る平面への接合に比べ、シー
ル構造を強固なものにすることができる。この結果、煩
雑且つ部品点数の多くなる二重構造を用いることなく、
確実な止水が行えるようになり、シーリング施工のみで
十分な止水効果を得ることができるようになる。According to such a seal structure, the sealing material 43 is firmly bonded to the joint with adhesive strength and structural resistance (shear resistance, etc.), there is no fear of peeling, and the conventional adhesive strength. The seal structure can be made stronger as compared with the joining to a flat surface that relies only on. As a result, without using a double structure that is complicated and has a large number of parts,
It will be possible to reliably stop the water, and it will be possible to obtain a sufficient water-stopping effect only by performing sealing.
【0015】なお、上述の実施例では、一対の小端面2
9のうち、押出成形板21の表面側の小端面29のみに
溝部35を形成したが、溝部35は、逆に押出成形板2
1の裏面側の小端面29のみに形成されてもよく、ま
た、押出成形板21の表面側及び裏面側の両方の小端面
29に形成されるものであってもよい。In the above embodiment, the pair of small end faces 2
Although the groove portion 35 was formed only on the small end surface 29 of the extrusion-molded plate 21 on the surface side of the extrusion molded plate 9, the groove portion 35, conversely, was formed on the extrusion-molded plate 2
It may be formed only on the small end surface 29 on the back surface side of No. 1 or may be formed on both the small end surface 29 on the front surface side and the back surface side of the extrusion-molded plate 21.
【0016】また、上述の実施例では、押出成形板21
の表裏面側に一対の小端面29が形成され、その小端面
29に溝部35を形成する場合を例に説明したが、本発
明のシール構造は、凹凸部を有さない通常の平坦な端面
を有する押出成形板に溝部35を形成し、目地を挟んで
対向するこの溝部35同士に上述同様にシーリング材4
3を充填するものであっても勿論上述同様の効果を奏す
るものである。なお、上述の実施例では、押出成形板を
横張りする場合について述べたが、押出成形板を縦張り
にする場合にも同様の効果を奏するものである。Further, in the above embodiment, the extruded plate 21 is used.
Although a pair of small end faces 29 are formed on the front and back sides of the above and the groove 35 is formed in the small end faces 29, the seal structure of the present invention has a normal flat end face having no uneven portion. The groove portion 35 is formed on the extruded plate having the groove, and the sealing material 4 is formed on the groove portions 35 facing each other with the joint in the same manner as described above.
Of course, even if it is filled with 3, the same effect as described above can be obtained. In addition, in the above-mentioned embodiment, the case where the extruded plate is horizontally stretched is described, but the same effect can be obtained when the extruded plate is vertically stretched.
【0017】[0017]
【発明の効果】以上詳細に説明したように、本発明に係
る押出成形板目地のシール構造によれば、押出成形板の
端面に溝部を形成したので、目地全体にシーリング材が
充填されると、目地に充填されたシーリング材が対向す
る溝部へも充填され、シーリング材が接着力のみなら
ず、構造的にも目地に一体的に接合され、従来の接着力
のみに頼る平面への接合に比べ、シール構造を強固なも
のにすることができる。この結果、二重シール工法を採
用することなく、シーリング材の充填のみにより十分な
止水効果を得ることができ、施工性を向上させることが
できるとともに、部品・施工コストを低減することがで
きる。As described in detail above, according to the seal structure for the joint of the extruded plate according to the present invention, since the groove is formed on the end face of the extruded plate, when the sealing material is filled in the entire joint. The sealing material filled in the joints is also filled in the opposing grooves, and the sealing material is not only bonded to the adhesive force, but also structurally integrally bonded to the joints, making it possible to bond to a flat surface relying only on the conventional adhesive force. In comparison, the seal structure can be made stronger. As a result, it is possible to obtain a sufficient water blocking effect only by filling the sealing material without adopting the double seal construction method, and it is possible to improve the workability and reduce the parts and the construction cost. .
【図1】本発明による押出成形板目地のシール構造を示
す水平断面図である。FIG. 1 is a horizontal sectional view showing a seal structure of an extrusion-molded plate joint according to the present invention.
【図2】本発明による押出成形板目地のシール構造を示
す縦断面図である。FIG. 2 is a vertical sectional view showing a seal structure of an extrusion-molded plate joint according to the present invention.
【図3】本発明のシール構造に用いられる押出成形板の
斜視図である。FIG. 3 is a perspective view of an extruded plate used in the seal structure of the present invention.
【図4】二重シール工法による従来のシール構造の水平
断面図である。FIG. 4 is a horizontal sectional view of a conventional seal structure by a double seal method.
21 押出成形板 25 凸部 27 凹部 29 小端面 31 横目地 33 縦目地 35 溝部 43 シーリン
グ材21 Extrusion Molded Plate 25 Convex Part 27 Recessed Part 29 Small End Face 31 Horizontal Joint 33 Vertical Joint 35 Groove 43 Sealant
Claims (4)
を具備し、 前記押出成形板を同一平面上で上下左右に隣接させるこ
とによって形成された該押出成形板同士の縦目地及び横
目地且つ前記溝部にシーリング材を一体的に充填したこ
とを特徴とする押出成形板目地のシール構造。1. A quadrilateral extruded plate, and groove portions formed continuously on end faces of the four sides of the extruded plate, wherein the extruded plates are vertically and horizontally adjacent to each other. A sealing structure for joints of extruded plates, characterized in that vertical joints and lateral joints of the formed extruded plates and the groove are integrally filled with a sealing material.
るとともに他方の端面に凹部を形成し、該凹部と凸部と
を嵌合させることによって形成される押出成形板目地の
シール構造において、 前記押出成形板の一方の端面に凸部を挟む一対の小端面
を形成し、 前記押出成形板の他方の端面に凹部を挟む一対の小端面
を形成し、 該小端面に該小端面の長手方向に延びる溝部を形成し、 前記凹部と凸部とを嵌合させた際に形成される前記小端
面同士の目地且つ前記溝部にシーリング材を一体的に充
填したことを特徴とする押出成形板目地のシール構造。2. A seal structure for an extrusion-molded plate joint, which is formed by forming a projection on one end surface of the extrusion-molded plate and forming a recess on the other end surface and fitting the recess and the projection together. In, a pair of small end surfaces sandwiching a convex portion is formed on one end surface of the extrusion molded plate, a pair of small end surfaces sandwiching a recess portion is formed on the other end surface of the extrusion molded plate, and the small end surface is formed on the small end surface. Extrusion characterized by forming a groove extending in the longitudinal direction of the groove, and integrally filling the joint between the small end faces and the groove formed when the concave portion and the convex portion are fitted together with the sealing material. Sealing structure for molded board joints.
及び前記凹部を挟む片側の小端面に形成されることを特
徴とする請求項2記載の押出成形板目地のシール構造。3. The seal structure for an extruded plate joint according to claim 2, wherein the groove portion is formed on a small end surface on one side that sandwiches the convex portion and a small end surface on one side that sandwiches the concave portion.
に延びる一方の端面、前記凹部が前記押出成形板の押出
し方向に延びる他方の端面に形成されていることを特徴
とする請求項2記載の押出成形板目地のシール構造。4. The projection is formed on one end surface of the extrusion molded plate extending in the extrusion direction, and the recess is formed on the other end surface of the extrusion molded plate extending in the extrusion direction. A seal structure for the joint of the extruded plate described.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP21310695A JPH0960244A (en) | 1995-08-22 | 1995-08-22 | Seal structure for joint of extruded plates |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP21310695A JPH0960244A (en) | 1995-08-22 | 1995-08-22 | Seal structure for joint of extruded plates |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH0960244A true JPH0960244A (en) | 1997-03-04 |
Family
ID=16633686
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP21310695A Pending JPH0960244A (en) | 1995-08-22 | 1995-08-22 | Seal structure for joint of extruded plates |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0960244A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2009084810A (en) * | 2007-09-28 | 2009-04-23 | Nozawa Corp | Waterproof structure of extrusion molding cement plate |
| CN112554480A (en) * | 2019-09-25 | 2021-03-26 | 天津达因建材有限公司 | Connecting piece, coupling assembling and wallboard subassembly |
-
1995
- 1995-08-22 JP JP21310695A patent/JPH0960244A/en active Pending
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2009084810A (en) * | 2007-09-28 | 2009-04-23 | Nozawa Corp | Waterproof structure of extrusion molding cement plate |
| CN112554480A (en) * | 2019-09-25 | 2021-03-26 | 天津达因建材有限公司 | Connecting piece, coupling assembling and wallboard subassembly |
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