JP3221088U - Bearing wall - Google Patents
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- JP3221088U JP3221088U JP2019000482U JP2019000482U JP3221088U JP 3221088 U JP3221088 U JP 3221088U JP 2019000482 U JP2019000482 U JP 2019000482U JP 2019000482 U JP2019000482 U JP 2019000482U JP 3221088 U JP3221088 U JP 3221088U
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Abstract
【課題】縦材と壁面材とを有する耐力壁において、縦材と壁面材との接合部の配置を適正化して、接合部の数の削減を図る。
【解決手段】耐力壁は、上下方向に延びる一対の縦材(縦枠材26)と、一対の縦材にそれぞれ接合され、縁部に環状リブが設けられた開口部54が上下方向に間隔をあけて形成された壁面材50と、縦材と壁面材とを上下方向に間隔をあけて接合する接合部60と、を備えており、接合部が開口部間の側方よりも開口部の側方で密に配置されている。
【選択図】図3An object of the present invention is, in a bearing wall having a longitudinal member and a wall surface member, to reduce the number of joined portions by optimizing the arrangement of the joint portion between the longitudinal member and the wall member.
A load-bearing wall is joined to a pair of vertical members (longitudinal frame members 26) extending in the vertical direction and a pair of vertical members, and an opening 54 provided with an annular rib at an edge is spaced in the vertical direction And a joint portion 60 for joining the vertical member and the wall member in the vertical direction at intervals, and the joint portion is an opening portion than the side portion between the opening portions. Densely placed on the side of the
[Selected figure] Figure 3
Description
本考案は、耐力壁に関する。 The present invention relates to a bearing wall.
特許文献1には、物の上下の水平部材に接合される一対の縦材と、一対の縦材に接合され、複数のバーリング孔が上下に1列に形成された壁面材と、を備える耐力壁が開示されている。この耐力壁では、縦材と壁面材が上下に略一定の間隔をあけてねじ込まれたドリルねじによって接合されている。 Patent Document 1 discloses a load resistance including a pair of longitudinal members joined to upper and lower horizontal members of an object and a wall surface member joined to the pair of longitudinal members and having a plurality of burring holes formed in one row in the upper and lower rows. A wall is disclosed. In this load-bearing wall, the longitudinal members and the wall members are joined by drill screws screwed at substantially constant intervals in the vertical direction.
ところで、耐力壁の壁面材は、せん断変形の初期段階ではほぼ剛体として挙動すると考えられてきた。すなわち、縦材と壁面材の接合部(ドリルねじによる接合部)にはせん断力が均一に伝達されると考えられてきた。そのため、耐力壁では、縦材と壁面材の接合部が略一定間隔で設けられている。しかし、市場では、縦材と壁面材の接合部の配置を適正化することで、接合部の数量を削減することが望まれている。 By the way, it has been considered that the wall material of the bearing wall behaves almost as a rigid body in the initial stage of shear deformation. That is, it has been considered that the shear force is uniformly transmitted to the joint between the vertical member and the wall member (joint by the drill screw). Therefore, in the bearing wall, joints between the longitudinal members and the wall members are provided at substantially constant intervals. However, in the market, it is desirable to reduce the number of joints by optimizing the arrangement of joints between vertical members and wall members.
本考案は上記事実を考慮し、縦材と壁面材とを有する耐力壁において、縦材と壁面材との接合部の配置を適正化して、接合部の数の削減を図ることを課題とする。 In view of the above facts, the present invention aims to reduce the number of joints by optimizing the arrangement of joints between the uprights and the wall members in a load-bearing wall having the longitudinal members and the wall members. .
本考案の請求項1に記載の耐力壁は、上下方向に延びる一対の縦材と、一対の前記縦材にそれぞれ接合され、縁部に環状リブが設けられた開口部が前記上下方向に間隔をあけて形成された壁面材と、前記縦材と前記壁面材とを上下方向に間隔をあけて接合する接合部と、を備え、前記接合部は、前記開口部間の側方よりも前記開口部の側方で密に配置されている。 A bearing wall according to a first aspect of the present invention is joined to a pair of vertical members extending in the vertical direction and a pair of the vertical members, and an opening provided with an annular rib at an edge portion is spaced in the vertical direction And a joint portion for joining the longitudinal member and the wall member in the vertical direction with a space between them, and the joint portion is formed by the joint portion, which is closer to the side surface than the opening portion. It is densely arranged on the side of the opening.
耐力壁のせん断変形時において、縦材と壁面材の接合部のうち、開口部間の側方に位置する接合部に作用するせん断力よりも、開口部側方に位置する接合部に作用するせん断力が大きい。このため、請求項1に記載の耐力壁では、縦材と前記壁面材との接合部を開口部間の側方よりも開口部の側方で密に配置している。これにより、請求項1に記載の耐力壁は、例えば、壁面材と縦材との接合部を一定間隔で設ける構成(従来の構造)と比べて、縦材と壁面材との接合部の配置が適正化されて、接合部の数が削減可能となる。 During shear deformation of the load-bearing wall, it acts on the joint located on the side of the opening rather than the shear force acting on the joint located on the side between the openings among the joints of the longitudinal member and the wall material Shear force is large. For this reason, in the bearing wall according to the first aspect of the present invention, the joint between the longitudinal member and the wall material is densely arranged on the side of the opening than on the side between the openings. Thereby, the bearing wall according to claim 1 is, for example, the arrangement of the joint between the longitudinal member and the wall member compared to the configuration (conventional structure) in which the joint between the wall member and the longitudinal member is provided at a constant interval. Is optimized and the number of joints can be reduced.
本考案の請求項2に記載の耐力壁は、請求項1に記載の耐力壁において、前記開口部間の側方に位置する前記接合部の配置間隔は、前記開口部の側方に位置する前記接合部の配置間隔の2倍以上である。 The bearing wall according to a second aspect of the present invention is the bearing wall according to the first aspect, wherein the disposition interval of the joint portions located laterally between the openings is located lateral to the openings. It is twice or more the arrangement interval of the junctions.
請求項2に記載の耐力壁では、開口部間の側方に位置する接合部の配置間隔を開口部の側方に位置する接合部の配置間隔の2倍以上としていることから、例えば、2倍未満の構成と比べて、接合部の数が削減可能となる。 In the bearing wall according to claim 2, since the arrangement interval of the joints located laterally between the openings is twice or more the arrangement interval of the joints situated laterally of the openings, for example, 2 The number of joints can be reduced as compared to the less than double configuration.
本考案の請求項3に記載の耐力壁は、請求項1又は請求項2に記載の耐力壁において、前記開口部が、円形である。 The bearing wall according to claim 3 of the present invention is the bearing wall according to claim 1 or claim 2, wherein the opening is circular.
請求項3に記載の耐力壁では、壁面材の開口部を円形としていることから、例えば、開口部を多角形状とした構成と比べて、応力集中が緩和されて、せん断変形に対する剛性及び耐力が向上する。 In the load-bearing wall according to claim 3, since the opening of the wall surface material is circular, stress concentration is relaxed compared to, for example, a configuration in which the opening has a polygonal shape, and rigidity and proof stress against shear deformation are obtained. improves.
本考案の請求項4に記載の耐力壁は、請求項1〜3のいずれか1項に記載の耐力壁において、一方の前記縦材の前記上下方向に隣接する前記接合部の中心を通る第1中心線と前記上下方向に隣接する前記開口部のうち、一方の前記開口部の中心を通り水平方向に延びる第1水平線との第1交点から、他方の前記縦材の前記上下方向に隣接する前記接合部の中心を通る第2中心線と前記上下方向に隣接する前記開口部のうち、他方の前記開口部の中心を通り水平方向に延びる第2水平線との第2交点へ向けて延びる直線が前記上下方向に対して30度〜60度の範囲で傾斜している。 The bearing wall according to claim 4 of the present invention is the bearing wall according to any one of claims 1 to 3, wherein the bearing wall passes through the center of the joint portion adjacent to the vertical direction of one of the longitudinal members. 1) Adjacent to the other vertical member in the vertical direction from a first intersection point of a center line and a first horizontal line extending horizontally through the center of one of the openings adjacent to the vertical direction Extending toward a second intersection point of a second center line passing through the center of the joint and a second horizontal line horizontally extending through the center of the other of the openings adjacent in the vertical direction The straight line is inclined in the range of 30 degrees to 60 degrees with respect to the vertical direction.
請求項4に記載の耐力壁では、第1交点から第2交点へ向けて延びる直線が上下方向に対して30度〜60度の範囲で傾斜するように、上下方向に隣接する開口部の中心間距離を設定している。これにより、上記耐力壁では、開口部の配置間隔が適正化される。 In the bearing wall according to claim 4, the centers of the openings adjacent in the vertical direction such that the straight line extending from the first intersection to the second intersection is inclined in the range of 30 degrees to 60 degrees with respect to the vertical direction. The distance between them is set. Thereby, in the above-mentioned bearing wall, the arrangement interval of an opening is rationalized.
本考案に係る耐力壁は、縦材と壁面材との接合部の配置が適正化されて、接合部の数が削減可能となる、という優れた効果を有する。 The bearing wall according to the present invention has an excellent effect that the arrangement of the joint portion between the longitudinal member and the wall surface member is optimized and the number of joint portions can be reduced.
図1〜図6を用いて本考案の実施形態に係る耐力壁について説明する。なお、図中に示された矢印Uは、本実施形態の耐力壁が適用される建物の上方向を示している。また、図中に示された矢印Wは、耐力壁の幅方向を示している。なお、本実施形態では、耐力壁の幅方向と建物の水平方向が一致している。 A bearing wall according to an embodiment of the present invention will be described with reference to FIGS. In addition, arrow U shown in the drawing indicates the upper direction of the building to which the bearing wall of the present embodiment is applied. Moreover, the arrow W shown in the drawing indicates the width direction of the bearing wall. In the present embodiment, the width direction of the bearing wall and the horizontal direction of the building coincide with each other.
図1に示されるように、本実施形態の耐力壁20は、枠材22と、壁面材50と、接合部60と、を備えている。 As shown in FIG. 1, the bearing wall 20 of the present embodiment includes a frame member 22, a wall member 50, and a joint portion 60.
図1及び図2に示されるように、枠材22は、矩形状に形成されている。この枠材22は、水平方向に間隔をあけて配置され、上下方向に延びる縦枠材24、26、28と、縦枠材24、26、28の各々の上端を水平方向につなぐ横枠材30と、縦枠材24、26、28の各々の下端を水平方向につなぐ横枠材32と、備えている。 As shown in FIG. 1 and FIG. 2, the frame member 22 is formed in a rectangular shape. The frame members 22 are arranged at intervals in the horizontal direction, and horizontally extend to connect the upper ends of the vertical frame members 24, 26, 28 extending in the vertical direction and the vertical frame members 24, 26, 28 in the horizontal direction. 30 and a horizontal frame member 32 horizontally connecting the lower ends of the vertical frame members 24, 26, 28.
なお、本実施形態の縦枠材24、26、28は、本考案における縦材の一例である。 The vertical frame members 24, 26, 28 of this embodiment are an example of the vertical members in the present invention.
(縦枠材24)
図2に示されるように、縦枠材24は、枠材22の幅方向(図中矢印W方向)一方側(図2及び図5では左側)の部分を形成している。なお、本実施形態では、枠材22の幅方向と耐力壁20の幅方向は一致している。
(Vertical frame material 24)
As shown in FIG. 2, the vertical frame member 24 forms a portion on one side (left side in FIGS. 2 and 5) of the frame member 22 in the width direction (arrow W direction in the drawing). In the present embodiment, the width direction of the frame member 22 and the width direction of the bearing wall 20 coincide with each other.
この縦枠材24は、図5及び図6に示されるように、幅方向外側の外枠部分を形成する角形鋼管34と、幅方向内側の内枠部分を形成し、縦枠材26側(言い換えると、枠材22の幅方向他方側(図2及び図5では右側))が開放された断面がC字形状の形鋼36と、を備えている。 As shown in FIGS. 5 and 6, the vertical frame member 24 forms a square steel pipe 34 forming an outer frame portion on the outer side in the width direction and an inner frame portion on the inner side in the width direction. In other words, the cross section in which the other width direction side (the right side in FIGS. 2 and 5) of the frame member 22 is opened has a C-shaped section steel 36.
角形鋼管34は、断面が正方形状とされており、枠材22の厚み方向(図中矢印T方向)に2つ並べて配置されている。これらの角形鋼管34は、溶接により接合されている。 The square steel pipe 34 has a square cross section, and two rectangular steel pipes 34 are arranged side by side in the thickness direction of the frame member 22 (in the direction of the arrow T in the drawing). These square steel pipes 34 are joined by welding.
形鋼36は、リップ溝形鋼であり、ウェブ部36Aの外面が角形鋼管34の枠内側(枠材22の内側)の面に接合されている。具体的には、形鋼36は、2つの角形鋼管34にドリルねじ38を用いてそれぞれ接合されている。なお、本考案は上記構成に限定されず、例えば、溶接などの他の方法を用いて形鋼36と角形鋼管34を接合してもよい。また、形鋼36の内面には、断面C字状の補強部材40が接合されている。この補強部材40は、溝形鋼であり、ウェブ部40Aの外面及び両フランジ部40Bの外面が形鋼36のウェブ部36Aの内面及び両フランジ部36Bの内面にそれぞれ接合されている。なお、形鋼36と補強部材40の接合方法は、特に限定されない。例えば、溶接で形鋼36と補強部材40を接合してもよい。 The shaped steel 36 is a lip grooved steel, and the outer surface of the web portion 36A is joined to the inner surface of the frame of the square steel pipe 34 (the inner surface of the frame member 22). Specifically, the shaped steel 36 is joined to two square steel pipes 34 using drill screws 38 respectively. In addition, this invention is not limited to the said structure, For example, you may join the shaped steel 36 and the square steel pipe 34 using other methods, such as welding. Further, a reinforcing member 40 having a C-shaped cross section is joined to the inner surface of the shaped steel 36. The reinforcing member 40 is a grooved steel, and the outer surface of the web portion 40A and the outer surface of both flange portions 40B are respectively joined to the inner surface of the web portion 36A of the shaped steel 36 and the inner surface of both flange portions 36B. In addition, the joining method of the section steel 36 and the reinforcement member 40 is not specifically limited. For example, the shaped steel 36 and the reinforcing member 40 may be joined by welding.
(縦枠材26)
図2に示されるように、縦枠材26は、縦枠材24と縦枠材28の間に配置されており、枠材22の幅方向中央部に位置する部分を形成している。
(Vertical frame material 26)
As shown in FIG. 2, the vertical frame material 26 is disposed between the vertical frame material 24 and the vertical frame material 28, and forms a portion located at the widthwise center of the frame material 22.
この縦枠材26は、図5及び図6に示されるように、縦枠材28側(言い換えると、枠材22の幅方向他方側)が開放された断面がC字形状の形鋼42と、を備えている。 As shown in FIGS. 5 and 6, the vertical frame member 26 is formed of a section steel 42 having a C-shaped cross section with the vertical frame member 28 side (in other words, the other side in the width direction of the frame member 22) opened. And.
(縦枠材28)
図2に示されるように、縦枠材28は、枠材22の幅方向他方側(図2及び図5では右側)の部分を形成している。
(Vertical frame material 28)
As shown in FIG. 2, the vertical frame member 28 forms a portion on the other side (the right side in FIGS. 2 and 5) of the frame member 22 in the width direction.
この縦枠材28は、図5及び図6に示されるように、縦枠材26を挟んで縦枠材24と対称に構成されている。具体的には、縦枠材28は、外枠部分を形成する角形鋼管34と、内枠部分を形成し、縦枠材26側(言い換えると、枠材22の幅方向一方側(図2及び図5では左側))が開放された形鋼36と、形鋼36を補強する補強部材40とを備えている。 As shown in FIGS. 5 and 6, the vertical frame member 28 is configured to be symmetrical to the vertical frame member 24 with the vertical frame member 26 interposed therebetween. Specifically, the vertical frame member 28 forms a rectangular steel pipe 34 forming an outer frame portion and an inner frame portion, and the vertical frame member 26 side (in other words, one side of the frame member 22 in the width direction (FIG. 2 and FIG. In FIG. 5, the left side of FIG. 5) is provided with an open section steel 36 and a reinforcing member 40 for reinforcing the section steel 36.
図2に示されるように、横枠材30は、断面が矩形状の角形鋼管によって形成されている。この横枠材30には、縦枠材24、26、28の各々の上端がねじやボルト等のファスナー又は溶接等によって接合されている。 As shown in FIG. 2, the horizontal frame member 30 is formed of a square steel pipe having a rectangular cross section. The upper end of each of the vertical frame members 24, 26, 28 is joined to the horizontal frame member 30 by a fastener such as a screw or a bolt or welding.
図2に示されるように、横枠材32は、横枠材30と同様に、断面が矩形状の角形鋼管によって形成されている。この横枠材30には、縦枠材24、26、28の各々の下端がねじやボルト等のファスナー又は溶接等によって接合されている。 As shown in FIG. 2, the horizontal frame member 32 is formed of a square steel pipe having a rectangular cross section, similarly to the horizontal frame member 30. The lower end of each of the vertical frame members 24, 26, 28 is joined to the horizontal frame member 30 by a fastener such as a screw or a bolt or welding.
図2に示されるように、枠材22は、横枠材30と横枠材32の水平方向の相対変位に対する剛性を補強するための補剛部材44、46を備えている。補剛部材44は、縦枠材24と縦枠材26との間で且つ上下方向の略中央部に配置されている。また、補剛部材44は、一端が縦枠材24にドリルねじ48で接合され、他端が縦枠材26にドリルねじ48で接合されている。一方、補剛部材46は、縦枠材24と縦枠材26との間で且つ上下方向の略中央部に配置されている。また、補剛部材46は、一端が縦枠材26に補剛部材44の他端と共にドリルねじ48で接合され、他端が縦枠材28にドリルねじ48で接合されている。なお、枠材22の剛性が確保される場合には、補剛部材44、46を省略してもよい。 As shown in FIG. 2, the frame member 22 includes stiffening members 44 and 46 for reinforcing the rigidity of the horizontal frame member 30 and the horizontal frame member 32 in relation to relative displacement in the horizontal direction. The stiffening member 44 is disposed between the vertical frame member 24 and the vertical frame member 26 and at a substantially central portion in the vertical direction. Further, one end of the stiffening member 44 is joined to the vertical frame member 24 by a drill screw 48 and the other end is joined to the vertical frame member 26 by a drill screw 48. On the other hand, the stiffening member 46 is disposed between the vertical frame member 24 and the vertical frame member 26 and at a substantially central portion in the vertical direction. Further, one end of the stiffening member 46 is joined to the vertical frame member 26 with the other end of the stiffening member 44 by a drill screw 48, and the other end is joined to the vertical frame member 28 by a drill screw 48. When the rigidity of the frame member 22 is secured, the stiffening members 44 and 46 may be omitted.
(壁面材50)
図1に示されるように、壁面材50は、矩形状に形成された鋼板であり、枠材22に接合されている。本実施形態の耐力壁20では、壁面材50を2枚用いており、一の壁面材50が縦枠材24と縦枠材26に接合され、他の壁面材50が縦枠材26と縦枠材28に接合されている。具体的には、一の壁面材50の幅方向の両端部が一対の縦材である縦枠材24及び縦枠材26にそれぞれ複数のドリルねじ52を用いて接合されている。また、他の壁面材50の幅方向の両端部が一対の縦材である縦枠材26及び縦枠材28にそれぞれ複数のドリルねじ52を用いて接合されている。なお、2枚の壁面材50は、同一寸法であるが、本考案はこの構成に限定されない。
(Wall material 50)
As shown in FIG. 1, the wall surface material 50 is a steel plate formed in a rectangular shape, and is joined to the frame material 22. In the load-bearing wall 20 of the present embodiment, two wall members 50 are used, one wall member 50 is joined to the vertical frame member 24 and the vertical frame member 26, and the other wall members 50 are vertical to the vertical frame member 26. It is joined to the frame member 28. Specifically, both end portions in the width direction of one wall surface member 50 are joined to the vertical frame members 24 and the vertical frame members 26 which are a pair of vertical members using a plurality of drill screws 52 respectively. Further, both end portions in the width direction of the other wall surface members 50 are joined to the vertical frame members 26 and the vertical frame members 28 which are a pair of vertical members, using a plurality of drill screws 52 respectively. In addition, although the wall surface material 50 of 2 sheets is the same dimension, this invention is not limited to this structure.
なお、一の壁面材50と縦枠材24及び縦枠材26との接合のためにドリルねじ52がねじ込まれた部分、及び、他の壁面材50と縦枠材26及び縦枠材28との接合のためにドリルねじ52がねじ込まれた部分、を接合部60と称する。 The portion where the drill screw 52 is screwed in for joining the one wall surface material 50 to the vertical frame material 24 and the vertical frame material 26, and the other wall surface material 50 and the vertical frame material 26 and the vertical frame material 28 The portion where the drill screw 52 is screwed in for jointing of
また、壁面材50には、図2に示されるように、上下方向に間隔をあけて複数(本実施形態では7つ)の開口部54が形成されている。この開口部54は、円形とされている。また、開口部54の縁部には、壁面材50と一体に形成された環状リブ56が形成されている。また、本実施形態では、壁面材50となる鋼板にバーリング加工を実施して開口部54及び環状リブ56が形成されている。なお、本考案は上記構成に限定されず、例えば、壁面材50となる鋼板に開口を形成し、この開口の縁部に円環状部材を接合して開口部54及び環状リブ56を形成してもよい。
また、本実施形態では、7つの開口部54が上下方向に1列となるように形成されている。そして、1列に並んだ開口部54は、壁面材50の幅方向の中心に対してオフセットしている(すなわち、幅方向の一方側又は他方側に寄っている)。
Further, as shown in FIG. 2, a plurality of (seven in the present embodiment) openings 54 are formed in the wall material 50 at intervals in the vertical direction. The opening 54 is circular. Further, at the edge of the opening 54, an annular rib 56 integrally formed with the wall surface material 50 is formed. Further, in the present embodiment, the opening 54 and the annular rib 56 are formed by performing a burring process on the steel plate to be the wall surface material 50. In addition, this invention is not limited to the said structure, For example, an opening is formed in the steel plate used as the wall surface material 50, an annular member is joined to the edge of this opening, and the opening 54 and the annular rib 56 are formed. It is also good.
Further, in the present embodiment, seven openings 54 are formed in one line in the vertical direction. The openings 54 arranged in a line are offset with respect to the center of the wall surface material 50 in the width direction (that is, close to one side or the other side in the width direction).
また、一の壁面材50の上端部と他の壁面材50の上端部は、横枠材30にそれぞれ複数のドリルねじ52を用いて接合されている。そして、一の壁面材50の下端部と他の壁面材50の下端部は、横枠材32にそれぞれ複数のドリルねじ52を用いて接合されている。 Further, the upper end portion of one wall surface material 50 and the upper end portion of the other wall surface material 50 are joined to the horizontal frame member 30 using a plurality of drill screws 52 respectively. The lower end portion of one wall surface material 50 and the lower end portion of the other wall surface material 50 are joined to the horizontal frame member 32 using a plurality of drill screws 52 respectively.
(接合部60)
図3及び図4に示されるように、接合部60は、上下方向に間隔をあけて複数形成されている。これらの接合部60は、開口部54間の側方よりも開口部54の側方で密に配置されている。このため、開口部54間の側方に位置する接合部60の配置間隔L1が、開口部54の側方に位置する接合部60の配置間隔L2よりも広くなっている。なお、配置間隔L1は、配置間隔L2の2倍以上とすることが好ましい。
(Joint 60)
As shown in FIGS. 3 and 4, a plurality of joint portions 60 are formed at intervals in the vertical direction. These joints 60 are arranged more closely to the side of the opening 54 than to the side between the openings 54. For this reason, the arrangement interval L1 of the bonding portions 60 located on the side between the openings 54 is wider than the arrangement interval L2 of the bonding units 60 located on the side of the opening 54. The arrangement interval L1 is preferably twice or more the arrangement interval L2.
なお、ここでいう開口部54の側方とは、開口部54の側方領域(図3では、矢印R1)を指し、開口部54間の側方とは、上下方向に隣接する開口部54間の側方領域(図3では、矢印R2)を指している。 Here, the side of the opening 54 refers to the side area of the opening 54 (arrow R1 in FIG. 3), and the side between the openings 54 refers to the opening 54 adjacent in the vertical direction. Point to the side area between them (arrow R2 in FIG. 3).
また、本実施形態では、開口部54の側方に3つの接合部60が配置され、開口部54間の側方に2つの接合部60が配置されている。 Further, in the present embodiment, three bonding portions 60 are disposed laterally of the opening 54, and two bonding portions 60 are disposed laterally between the openings 54.
また、本実施形態では、縦枠材24の上下方向に隣接する接合部60の中心を通る第1中心線CL1と上下方向に隣接する開口部54のうち、一方の開口部54の中心を通り水平方向に延びる第1水平線HL1との第1交点P1から、縦枠材26の上下方向に隣接する接合部60の中心を通る第2中心線CL2と上下方向に隣接する開口部54のうち、他方の開口部54の中心を通り水平方向に延びる第2水平線HL2との第2交点P2へ向けて延びる直線SLが上下方向に対して30度〜60度の範囲で傾斜している。なお、図3では、直線SLの上下方向に対する角度をθで示している。 Further, in the present embodiment, the first center line CL1 passing through the center of the joint portion 60 adjacent to the vertical frame member 24 in the vertical direction and the center of one opening 54 of the openings 54 adjacent to the vertical direction Of the second center line CL2 passing through the center of the joint portion 60 adjacent in the vertical direction of the vertical frame material 26 from the first intersection point P1 with the first horizontal line HL1 extending in the horizontal direction and the opening 54 adjacent in the vertical direction A straight line SL extending to the second intersection point P2 with the second horizontal line HL2 extending in the horizontal direction through the center of the other opening 54 is inclined in the range of 30 degrees to 60 degrees with respect to the vertical direction. In FIG. 3, the angle of the straight line SL with the vertical direction is indicated by θ.
また、上下方向に隣接する開口部54の中心間距離D1は、縦枠材24における接合部60と縦枠材26における接合部60との間の水平距離D2よりも短くなっている。 In addition, the center-to-center distance D1 of the openings 54 vertically adjacent to each other is shorter than the horizontal distance D2 between the joint portion 60 of the vertical frame 24 and the joint 60 of the vertical frame 26.
(本実施形態の作用並びに効果)
次に、本実施形態の作用並びに効果について説明する。
(Operation and effect of the present embodiment)
Next, the operation and effects of the present embodiment will be described.
従来から耐力壁のせん断変形の初期段階では、壁面材がほぼ剛体として挙動する(壁面材と縦材の接合部にはせん断力が均一に伝達される)と仮定されてきた。このため、接合部の配置間隔は、最も大きいせん断力に対応する配置間隔を基準として、略一定間隔とされてきた(図7には、接合部60の配置間隔を略一定とした耐力壁70を示す)。しかし、本考案者らは、壁面材と縦材との接合部の数量を削減する(ドリルねじの数量を削減する)ため、接合部60の配置間隔が略一定とされた耐力壁70における壁面材50の面内せん断挙動を分析し、各接合部60に伝達される力(せん断力)を定量化することで、接合部60に必要とされる耐力を見極めた。その結果、耐力壁70のせん断変形の初期段階から、接合部60に作用するせん断力が均一でないことが明らかとなった(図8〜図10参照)。具体的には、図8〜図10に示されるように、壁面材50の開口部54側方に位置する接合部60に作用するせん断力は、上下に隣接する開口部54間側方に位置する接合部60に作用するせん断力を超えることが明らかになった。これらを考慮して本考案者らは、本考案の開発に至った。 It has been conventionally assumed that the wall material behaves almost as a rigid body in the initial stage of shear deformation of the bearing wall (the shear force is uniformly transmitted to the joint between the wall material and the longitudinal member). For this reason, the arrangement interval of the joint portion has been made substantially constant on the basis of the arrangement interval corresponding to the largest shear force (in FIG. 7, the bearing wall 70 where the arrangement interval of the joint portion 60 is substantially constant. Show). However, in order to reduce the number of joints between the wall material and the longitudinal members (to reduce the number of drill screws), the inventors of the present invention have made the wall surface of the bearing wall 70 where the arrangement interval of the joints 60 is substantially constant. By analyzing the in-plane shear behavior of the material 50 and quantifying the force (shear force) transmitted to each joint 60, the required proof strength required for the joint 60 was determined. As a result, it has become clear from the initial stage of shear deformation of the bearing wall 70 that the shear force acting on the joint 60 is not uniform (see FIGS. 8 to 10). Specifically, as shown in FIGS. 8 to 10, the shear force acting on the joint 60 located on the side of the opening 54 of the wall material 50 is located on the side between the openings 54 adjacent to each other in the vertical direction. It has been found that the shear force acting on the joint 60 is exceeded. Taking these into consideration, the present inventors have led to the development of the present invention.
本実施形態の耐力壁20では、例えば、地震等によって、耐力壁20の上部と下部を水平方向に相対変位させる力(水平荷重)が入力されると、図4に示されるように、縦枠材24及び縦枠材26の各接合部60にせん断力がそれぞれ伝達される。ここで、比較例の耐力壁70に示されるように、接合部60を略一定間隔で配置した場合、各々の接合部60のうち、開口部54間の側方に位置する接合部60に作用するせん断力よりも、開口部54側方に位置する接合部60に作用するせん断力が大きくなる。このため、耐力壁20では、接合部60を開口部54間の側方よりも開口部54の側方で密に配置している(図3及び図4参照)。これにより、耐力壁20は、例えば、接合部の配置間隔を略一定とする構成(比較例の耐力壁70)と比べて、縦枠材24、26、28と壁面材50との接合部60の配置が適正化されて、接合部60の数が削減可能となる。なお、図4に示されるように、接合部60を開口部54間の側方よりも開口部54の側方で密に配置することで、各々の接合部60に伝達されるせん断力SFが略均等に近づく。 In the bearing wall 20 of the present embodiment, for example, when a force (horizontal load) for relatively displacing the upper and lower portions of the bearing wall 20 in the horizontal direction is input due to an earthquake or the like, as shown in FIG. A shear force is transmitted to each joint portion 60 of the material 24 and the vertical frame material 26. Here, as shown in the bearing wall 70 of the comparative example, when the joints 60 are arranged at substantially constant intervals, the joint 60 located at the side between the openings 54 among the joints 60 functions. The shear force acting on the joint 60 located on the side of the opening 54 is larger than the shear force. For this reason, in the bearing wall 20, the joint portions 60 are disposed more closely on the side of the opening 54 than on the side between the openings 54 (see FIGS. 3 and 4). Thereby, the bearing wall 20 has, for example, a joint portion 60 between the vertical frame members 24, 26 and 28 and the wall surface member 50 as compared with the configuration in which the disposition interval of the joint portion is substantially constant (bearing wall 70 of the comparative example) Of the joints 60 can be reduced, and the number of joints 60 can be reduced. In addition, as shown in FIG. 4, by arranging the joint portions 60 closer to the side of the opening 54 than the side between the openings 54, the shear force SF transmitted to each joint 60 can be reduced. It approaches nearly equally.
また、耐力壁20では、開口部54間の側方に位置する接合部60の配置間隔L2を開口部54の側方に位置する接合部60の配置間隔L1の2倍以上としていることから、例えば、2倍未満の構成と比べて、接合部の数が削減可能となる。 Further, in the bearing wall 20, the arrangement distance L2 of the joint portions 60 located laterally between the openings 54 is twice or more the arrangement distance L1 of the joint portions 60 located laterally of the openings 54, For example, the number of joints can be reduced as compared to a configuration of less than twice.
さらに耐力壁20では、壁面材50の開口部54を円形としていることから、例えば、開口部54を多角形状とした構成と比べて、応力集中が緩和されて、せん断変形に対する剛性及び耐力が向上する。 Furthermore, in the bearing wall 20, since the opening 54 of the wall material 50 is circular, for example, stress concentration is alleviated and rigidity and resistance to shear deformation are improved as compared to the configuration in which the opening 54 is polygonal. Do.
またさらに耐力壁20では、第1交点P1から第2交点P2へ向けて延びる直線SLが上下方向に対して30度〜60度の範囲で傾斜するように、上下方向に隣接する開口部の中心間距離D1を設定している。これにより、耐力壁20では、開口部54の配置間隔が適正化される。 Furthermore, in the bearing wall 20, the centers of the openings adjacent in the vertical direction so that the straight line SL extending from the first intersection point P1 to the second intersection point P2 inclines in the range of 30 degrees to 60 degrees with respect to the vertical direction. The distance D1 is set. Thereby, in the bearing wall 20, the arrangement interval of the openings 54 is made appropriate.
そして、耐力壁20では、中心間距離D1を水平距離D2よりも短くしていることから、地震による水平荷重が耐力壁20に伝達された際に、壁面材50において、接合部60と開口部54との水平方向の中間部のせん断応力(ミーゼス応力)値を上下方向に隣接する開口部54間の上下方向の中間部のせん断応力値よりも低くすることができる。これにより、一対の縦材(縦枠材24と縦枠材26、または縦枠材26と縦枠材28)に生じる水平方向へのせん断応力が低減される。その結果、壁面材50において上下方向に隣接する開口部54間の上下方向の中間部が変形する前に、壁面材50と一対の縦材との接合部60が変形することが抑制され、地震エネルギーを安定して吸収することが可能となる。 And in the bearing wall 20, since the center distance D1 is shorter than the horizontal distance D2, when the horizontal load by the earthquake is transmitted to the bearing wall 20, the joint portion 60 and the opening portion in the wall surface material 50 The shear stress value of the middle portion in the horizontal direction with 54 can be made lower than the shear stress value of the middle portion in the vertical direction between the openings 54 adjacent in the vertical direction. Thereby, the shear stress in the horizontal direction generated in the pair of vertical members (the vertical frame members 24 and 26 or the vertical frame members 26 and 28) is reduced. As a result, before the intermediate portion in the vertical direction between the openings 54 adjacent in the vertical direction in the wall surface material 50 is deformed, deformation of the joint portion 60 between the wall surface material 50 and the pair of vertical members is suppressed. It becomes possible to absorb energy stably.
前述の実施形態の耐力壁20では、枠材22と壁面材50との接合にドリルねじ52を用いているが、本考案はこの構成に限定されない。例えば、ドリルねじ52の代わり釘を用いてもよい。また、枠材22と壁面材50をスポット溶接で接合してもよい。スポット溶接を用いた場合は、枠材22と壁面材50の溶接された部分を接合部と称する。 Although the drill screw 52 is used for joining of the frame material 22 and the wall surface material 50 in the bearing wall 20 of the above-mentioned embodiment, this invention is not limited to this structure. For example, a nail may be used instead of the drill screw 52. Further, the frame member 22 and the wall surface member 50 may be joined by spot welding. When spot welding is used, the welded portion of the frame member 22 and the wall member 50 is referred to as a joint.
前述の実施形態の耐力壁20では、壁面材50に下孔を形成していないが、本考案はこの構成に限定されず、壁面材50に下孔又は孔開け用の目印を形成してもよい。 In the bearing wall 20 of the above-described embodiment, the lower hole is not formed in the wall surface material 50, but the present invention is not limited to this configuration, and the wall surface material 50 may be formed with a lower hole or a marking for drilling. Good.
前述の実施形態の耐力壁20では、開口部54の側方に3つの接合部60が配置され、開口部54間の側方に2つの接合部60が配置されているが、本考案はこの構成に限定されない。図11に示されるように、開口部54の側方に3つの接合部60が配置され、開口部54間の側方に1つの接合部60が配置される構成でもよいし、図12に示されるように、開口部54の側方に3つの接合部60が配置され、開口部54間の側方に接合部60が配置されない構成でもよい。 In the load-bearing wall 20 of the above-described embodiment, the three joints 60 are disposed laterally of the opening 54 and the two joints 60 are disposed laterally between the openings 54. It is not limited to the configuration. As shown in FIG. 11, three junctions 60 may be disposed laterally of the opening 54, and one junction 60 may be disposed laterally between the openings 54, as shown in FIG. As a configuration, three junctions 60 may be disposed to the side of the opening 54, and the junction 60 may not be disposed to the side between the openings 54.
前述の実施形態の耐力壁20は、壁面材50が枠材22に接合されて構成されているが、本考案はこの構成に限定されない。例えば、図13に示される耐力壁80のように、上下方向に延びて、上端及び下端が建物の水平部材HM1、HM2に連結される一対の縦材82にドリルねじ52を用いて壁面材84を接合してもよい。なお、壁面材84には、壁面材50と同様に、開口部54と環状リブ56が形成されており、耐力壁20と同様の作用並びに効果が得られる。 Although the wall material 50 is joined to the frame material 22 and the bearing wall 20 of the above-mentioned embodiment is comprised, this invention is not limited to this structure. For example, like a load bearing wall 80 shown in FIG. 13, a drill screw 52 is used for a pair of vertical members 82 which extend vertically and whose upper and lower ends are connected to the horizontal members HM1 and HM2 of the building. May be joined. In the same manner as the wall surface material 50, the wall surface material 84 is provided with the opening 54 and the annular rib 56, and the same operation and effect as the bearing wall 20 can be obtained.
以上、本考案の一実施形態について説明したが、本考案は、上記に限定されるものでなく、その主旨を逸脱しない範囲内において上記以外にも種々変形して実施することが可能であることは勿論である。 As mentioned above, although one Embodiment of this invention was described, this invention is not limited above, In the range which does not deviate from the main point, it can be variously deformed and implemented in addition to the above. Of course.
20 耐力壁
24 縦枠材(縦材)
26 縦枠材(縦材)
28 縦枠材(縦材)
50 壁面材
54 開口部
56 環状リブ
60 接合部
80 耐力壁
82 縦材
84 壁面材
CL1 第1中心線
CL2 第2中心線
HL1 第1水平線
HL2 第2水平線
P1 第1交点
P2 第2交点
R1 開口部の側方領域(開口部の側方)
R2 開口部間の側方領域(開口部間の側方)
SL 直線
20 Load-bearing wall 24 vertical frame material (vertical material)
26 Vertical frame material (vertical material)
28 Vertical frame material (vertical material)
Reference Signs List 50 wall surface material 54 opening 56 annular rib 60 joint 80 bearing wall 82 vertical material 84 wall surface material CL1 first center line CL2 second center line HL1 first horizontal line HL2 second horizontal line P1 first intersection P2 second intersection R1 opening Side area (side of the opening)
R2 side area between openings (side between openings)
SL straight line
Claims (4)
一対の前記縦材にそれぞれ接合され、縁部に環状リブが設けられた開口部が前記上下方向に間隔をあけて形成された壁面材と、
前記縦材と前記壁面材とを上下方向に間隔をあけて接合する接合部と、
を備え、
前記接合部は、前記開口部間の側方よりも前記開口部の側方で密に配置されている、耐力壁。 A pair of vertical members extending vertically,
A wall surface member which is respectively joined to the pair of longitudinal members and in which an opening portion provided with an annular rib at an edge portion is formed at an interval in the vertical direction;
A joint that joins the vertical member and the wall member in the vertical direction at an interval;
Equipped with
A load-bearing wall, wherein the joints are arranged more closely to the sides of the openings than to the sides between the openings.
A first center line passing through the center of the joint portion adjacent to the vertical direction of one of the longitudinal members and a horizontal line passing through the center of one of the openings adjacent to the vertical direction and extending horizontally The other opening of the second center line passing through the center of the joint adjacent to the other vertical member in the vertical direction from the first intersection point with the one horizontal line and the other of the openings adjacent to the vertical direction The straight line extending toward the second intersection point with the second horizontal line extending in the horizontal direction through the center of the line is inclined in the range of 30 degrees to 60 degrees with respect to the vertical direction. Bearing wall according to paragraph.
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