JP2015068005A - Welding joining continuous beam structure - Google Patents
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Abstract
Description
本発明は、主に、柱・大梁・小梁から構成される鉄骨建築構造物において、大梁と小梁の接合を効率的な剛接合として小梁のサイズ(寸法)を低減させる技術に関するものである。ここで、大梁とは、鉄骨構造で柱に連結されて地震・風・床荷重等を負担する梁を言い、小梁とは柱と直接連結されず大梁に連結されて主に床荷重を支える梁をいう。剛接合とは、接合された部材の材軸の接合点における接続が相互になす角度が、外力を受けて骨組みが変形した後でも変化しない接合をいう。 The present invention mainly relates to a technique for reducing the size (dimension) of a small beam by effectively joining the large beam and the small beam in a steel building structure composed of columns, large beams, and small beams. is there. Here, a large beam is a beam that is connected to a column with a steel structure and bears earthquake, wind, floor load, etc., and a small beam is not directly connected to a column but is connected to a large beam and mainly supports the floor load. This is a beam. Rigid joining refers to joining in which the angle formed by the connections at the joining points of the material axes of the joined members does not change even after the framework is deformed by receiving an external force.
通常、鉄骨構造物の柱に取付けて柱に対し剛接合となる大梁に、大梁と直角方向に小梁がピン接合で取り付けられる。小梁は床荷重を支えると共に大梁の横補剛として用いられることが多い。この小梁は大梁間のスパンが大きい場合に取り付けられるが、通常この小梁は大梁のフランジとウエブにガセットプレートを予め溶接接合しておき、このガセットプレートに小梁のウエブがボルト接合されている。この場合、構造的にはピン接合となっている。ここで、スパンとは、梁又は柱の中心間の距離をいう。 Usually, a small beam is attached to a large beam that is attached to a column of a steel structure and is rigidly connected to the column by a pin connection in a direction perpendicular to the large beam. A small beam is often used as a lateral stiffener for a large beam while supporting a floor load. This small beam is installed when the span between the large beams is large. Normally, this small beam is pre-welded to the flange and web of the large beam by welding the gusset plate, and the small beam web is bolted to this gusset plate. Yes. In this case, it is structurally a pin joint. Here, the span refers to the distance between the centers of the beams or columns.
これに対して、大梁に小梁を取り付ける方法がいくつか提案されている。例えば、特願2007−22631に、大梁の上フランジの上に小梁の上フランジを載せ互いにすみ肉溶接で接合させる方法がある。また、特願2001−84227に大梁と小梁の接合部を高力ボルトによる剛接合とした鉄骨小梁の構造がある。他に、大梁と小梁の接合の構造が提案されているがいずれも大梁と小梁の上フランジのレベル(高さ)がほぼ同一である。 On the other hand, several methods for attaching a small beam to a large beam have been proposed. For example, Japanese Patent Application No. 2007-22631 has a method of placing the upper flange of the small beam on the upper flange of the large beam and joining them together by fillet welding. Japanese Patent Application No. 2001-84227 has a steel beam structure in which a joint between a large beam and a small beam is rigidly connected with a high-strength bolt. In addition, a structure for joining a large beam and a small beam has been proposed, but the level (height) of the upper flange of the large beam and the small beam is almost the same.
図1に示すように、大梁側面と小梁端部はピン接合となっており、大梁と小梁の間で曲げモーメントを伝達することができないので、小梁の長さ方向中央部に曲げモーメントが集中して小梁の垂直方向の変形量が大きくなる。従って、一定床荷重の基ではピン接合の小梁は、端部で曲げモーメントを負担する剛接合の小梁よりも大きな小梁の部材を用いざるをえない。大梁と小梁の間でピン接合を行うと、ガセットプレートを大梁フランジとウエブに溶接接合させて用いるので、ガセット部材とそのボルト接合で、ボルト部材やガセット部材が多くなる。従って、ガセット部材取付けの作業及びボルト接合作業が多くなる。一方、図2及び図3に示すように、ガセットプレートを大梁フランジとウエブに溶接接合させて用いると、やはりガセット部材とそのボルト接合で、ボルト部材やガセット部材が多くなる。また、大梁フランジと小梁フランジの溶接による接合は溶接量が多い。しかも、現場溶接量が多い。また、小梁は大梁の間隔毎に長さが決められているので、その取付けの材料と作業量が多くなる。更に、図2及び図3に示すように、小梁の梁フランジを溶接接合してもウエブはピン接合になっており、小梁端部に掛かる曲げモーメントに対し、断面係数Zと断面2次モーメントIが小梁の全断面に対して使用できず、十分な剛性を確保することが困難である。また、ガセット3を水平スティフナーが貫通しているので部材が多くて取り付ける手間が掛かるという問題がある。 As shown in FIG. 1, the side of the large beam and the end of the small beam are pin-joined, and a bending moment cannot be transmitted between the large beam and the small beam, so the bending moment is at the center in the longitudinal direction of the small beam. Concentrates and the amount of vertical deformation of the beam increases. Therefore, under a constant floor load, the pin-joint beam must use a beam member larger than the rigid-joint beam that bears the bending moment at the end. When pin joining is performed between the large beam and the small beam, the gusset plate is welded to the large beam flange and the web and used, so that the bolt member and the gusset member are increased by the gusset member and its bolt joint. Therefore, the work for attaching the gusset member and the work for joining the bolts increase. On the other hand, as shown in FIGS. 2 and 3, when the gusset plate is welded to the girder flange and the web, the gusset member and its bolt joint increase the number of bolt members and gusset members. Further, the welding amount of the large beam flange and the small beam flange is large. Moreover, the amount of on-site welding is large. Further, since the length of the small beam is determined for each interval of the large beam, the mounting material and the work amount are increased. Furthermore, as shown in FIGS. 2 and 3, even if the beam flanges of the beam are welded, the web is still pin-bonded. The bending modulus applied to the end of the beam is affected by the section modulus Z and the sectional secondary. The moment I cannot be used for the entire cross section of the beam, and it is difficult to ensure sufficient rigidity. Further, since the horizontal stiffener passes through the gusset 3, there is a problem that it takes time and labor to mount the members.
小梁の変形・重量・取付材料・部品数・溶接量を低減するためには、次の構造的な改良を実施する必要がある。
1 小梁端部フランジに対し大梁と剛接合とする。
2 小梁同士のウエブを溶接等で剛接合とする。又は、小梁フランジ強度を上げて小梁全断面の断面係数を確保する。
3 現場溶接量を減らす。
4 大梁に取り付ける垂直ガセット部材を小さくし、且つ水平スティフナーで上下に分割された2部材を1部材に集約する。
5 水平スティフナー部材を小さくする。
In order to reduce the deformation, weight, mounting material, number of parts, and welding amount of the beam, it is necessary to implement the following structural improvements.
1 It shall be rigidly connected to the large beam to the flange at the end of the small beam.
2 The web between the small beams is rigidly joined by welding or the like. Alternatively, the cross-section coefficient of the entire cross-section of the small beam is secured by increasing the strength of the small beam flange.
3 Reduce the amount of welding on site.
4 Reduce the vertical gusset member attached to the girder, and combine the two members divided vertically by a horizontal stiffener into one member.
5 Reduce the horizontal stiffener member.
請求項1について説明する。本発明では鉄骨構造の大梁と小梁の剛接合構造体において、次の構成要素から成り立っている。先ず、図4に示すように、H形鋼大梁1にH形鋼小梁2を取り付ける該大梁位置に、逆L字形の側面形状を有する垂直ガセット(スティフナー)3をその大梁上下フランジ5間とウエブ6Mに溶接で取り付ける。この垂直ガセット(スティフナー)の板厚は通常は小梁板厚以上とする。この溶接は通常すみ肉溶接で行うが板厚の大きい場合は垂直ガセット(スティフナー)3端部に開先加工を行なって溶接量を少なくする。また、該垂直ガセット3は通常小梁2のウエブ6の板厚以上とする。該垂直ガセット(スティフナー)3はその大梁上下フランジ5間を水平スティフナー7の上下で分割せずに一枚の鋼板で仕上げるのが本発明の特徴である。 Claim 1 will be described. In the present invention, a rigid joint structure of a steel structure large beam and a small beam is composed of the following components. First, as shown in FIG. 4, a vertical gusset (stiffener) 3 having an inverted L-shaped side surface is disposed between the upper and lower flanges 5 of the large beam at the position of the large beam where the H-shaped steel small beam 2 is attached to the H-shaped large steel beam 1. It is attached to the web 6M by welding. The thickness of this vertical gusset (stiffener) is usually greater than or equal to the beam thickness. This welding is usually performed by fillet welding, but when the plate thickness is large, groove processing is performed at the end of the vertical gusset (stiffener) 3 to reduce the welding amount. The vertical gusset 3 is usually equal to or greater than the thickness of the web 6 of the beam 2. It is a feature of the present invention that the vertical gusset (stiffener) 3 is finished with a single steel plate without dividing the upper and lower flanges 5 between the upper and lower flanges 5 above and below the horizontal stiffener 7.
第2に、図6に示すように、該垂直ガセット3を挟んで小梁下フランジ位置に図10に示すC字形の水平スティフナー7を該垂直ガセットに挟んで該垂直ガセット及び大梁ウエブに溶接で取り付ける。C字形の水平スティフナー7の長さは大梁フランジ5のウエブ9を除いたフランジ幅の1/2程度であり、該C字形の水平スティフナー7の幅はこれに取り付けられる小梁フランジ幅より0〜50mm程度大きくする。また、該C字形の水平スティフナー7の板厚は小梁フランジの1サイズアップ(3mm)以上が望ましい Secondly, as shown in FIG. 6, a C-shaped horizontal stiffener 7 shown in FIG. 10 is welded to the vertical gusset and the large beam web with the vertical gusset 3 sandwiched between the vertical gussets at the flange position of the lower beam. Install. The length of the C-shaped horizontal stiffener 7 is about ½ of the flange width excluding the web 9 of the large beam flange 5, and the width of the C-shaped horizontal stiffener 7 is 0 to less than the width of the small beam flange attached thereto. Increase by about 50 mm. Further, the plate thickness of the C-shaped horizontal stiffener 7 is desirably one size up (3 mm) or more of the small beam flange.
第3に、該C字形の水平スティフナー7の端部と小梁2端部下フランジ5とを溶接接合させると共に、大梁1上フランジ5と小梁2端部上フランジ5とを溶接接合させることを特徴とする。このようにすれば垂直スティフナーを分割するか、又は、水平スティフナーを分割する必要がなく、部材数量が低減し製作工数とコストの低減になる。 Third, the end of the C-shaped horizontal stiffener 7 and the lower end 2 of the small beam 2 are welded together and the upper flange 5 of the large beam 1 and the upper flange 5 of the end of the small beam 2 are welded. Features. In this way, it is not necessary to divide the vertical stiffener or the horizontal stiffener, and the number of members is reduced, thereby reducing the number of manufacturing steps and costs.
請求項2は、請求項1に係る発明において、C字形の水平スティフナーの平面形状を四辺形又は台形の外径輪郭を有するものとするそして、図10に示すように、このC字形の水平スティフナー7は平面図で中央にレーザ切断等で切り込みが設けられていてこの切り込み幅は該垂直ガセットの板厚よりも0.5〜3mm程度大きくとり、切り込みの深さは垂直ガセット板幅程度の深さに加工する。通常この垂直ガセット板幅は梁フランジ幅より10mm程度小さく設定する。図10(A)はC字形の水平スティフナーの平面形状を四辺形としたもので、図10(B)のC字形の水平スティフナー7は平面形状で台形をしており側面がテーパになっており、自身の材料使用量を少なくすることができ、大梁ウエブとの溶接量を減らすことができる。また、図10(C)のC字形の水平スティフナー7は小梁フランジが取付けられる箇所より外側で同図(A)(B)よりもそれぞれ幅広且つ小梁軸方向に5〜30mmほど長くして、この部分で溶接のエンドタブの効果を発揮できるようになっている。 According to a second aspect of the present invention, the planar shape of the C-shaped horizontal stiffener in the invention according to the first aspect has a quadrilateral or trapezoid outer diameter contour, and as shown in FIG. 10, this C-shaped horizontal stiffener 7 is a plan view, and a cut is provided in the center by laser cutting or the like. The cut width is about 0.5 to 3 mm larger than the plate thickness of the vertical gusset, and the cut depth is about the vertical gusset plate width. Process it. Usually, the vertical gusset plate width is set to be about 10 mm smaller than the beam flange width. FIG. 10A shows a quadrilateral planar shape of a C-shaped horizontal stiffener, and the C-shaped horizontal stiffener 7 of FIG. 10B has a planar shape that is trapezoidal and has a tapered side surface. The amount of material used can be reduced, and the amount of welding with the large beam web can be reduced. Further, the C-shaped horizontal stiffener 7 in FIG. 10 (C) is wider than the portion where the small beam flange is attached and wider than the same (A) and (B) in the direction of the small beam by 5 to 30 mm. In this part, the effect of the welding end tab can be demonstrated.
請求項3は、請求項1又は2に係る発明において、図5に示すように、逆L字形の垂直ガセット3の先端に小梁溶接中心線上にボルト孔4を設け、逆L字形の垂直ガセット3端部と小梁ウエブ6とをボルト接合4Mさせ、且つ溶接接合させることを特徴とする構造である。このボルト接合は、小梁2を大梁1に取り付けるための建て方用仮ボルト接合用である。このボルト接合では小梁2に架かる床重量による剪断力受け持つには不十分である。
そこで、この仮ボルトにより小梁の組立が終われば逆L字形の垂直ガセット3端部と小梁ウエブ6とを通常はすみ肉溶接する。このすみ肉溶接はガセット3板側端部及び小梁ウエブ6端部側に対して行われる。このすみ肉溶接により床荷重の剪断力を負担させる。なお、垂直ガセット3の先端に小梁溶接中心線(中立線)上にボルト孔4を設けるのは、小梁に架かる床荷重による曲げモーメントに対して断面欠損にならないように設けたものである。
According to a third aspect of the present invention, in the invention according to the first or second aspect, as shown in FIG. 5, a bolt hole 4 is provided on the end of the inverted L-shaped vertical gusset 3 on the beam center line of the beam, and The three end portions and the small beam web 6 are bolted 4M and welded. This bolt connection is for building temporary bolts for attaching the small beam 2 to the large beam 1. This bolt connection is not sufficient to handle the shearing force due to the floor weight of the beam 2.
Therefore, when the assembly of the small beam is finished with this temporary bolt, the end of the inverted L-shaped vertical gusset 3 and the small beam web 6 are usually fillet welded. This fillet welding is performed on the gusset 3 plate side end portion and the small beam web 6 end portion side. This fillet welding bears the shear force of the floor load. In addition, the bolt hole 4 is provided on the end of the vertical gusset 3 on the beam center line (neutral line) so as not to cause a cross-sectional defect with respect to the bending moment caused by the floor load over the beam. .
請求項4は、請求項1から3に係る発明において、逆L字形の側面形状を有する垂直ガセット(スティフナー)の先端及び該先端に当接する小梁ウエブにそれぞれ3個以上のボルト孔を設け、該垂直ガセットと該小梁ウエブとをボルト接合させて、大梁と小梁を剛接合させることを特徴とする大梁と小梁の剛接合方法であり、建設現場における溶接の現場溶接及びその仮設を減らす方法である。図6に示すように、垂直ガセット(スティフナー)の先端及び該先端に当接する小梁ウエブにそれぞれ4個のボルトを縦に並べて打設している一例である。図6では、大梁5の横補剛が小梁せいだけでは不足する場合にカットティーハンチを大梁下フランジと小梁下フランジの間に設けている方式である。図7は、大梁5の横補剛が小梁せいだけでは不足する場合にカットティーハンチを大梁下フィレット部分と小梁下フランジの間に設けている方式である。この方式は、カットティーフランジを大梁ウエブに取り付けるより簡単で容易である。 The invention according to claim 4 provides the invention according to claims 1 to 3, wherein three or more bolt holes are provided in each of a tip of a vertical gusset (stiffener) having an inverted L-shaped side surface and a small beam web contacting the tip, A method of rigidly joining a large beam and a small beam by bolting the vertical gusset and the small beam web and rigidly joining the large beam and the small beam. It is a way to reduce. As shown in FIG. 6, this is an example in which four bolts are vertically arranged on the tip of a vertical gusset (stiffener) and a small beam web in contact with the tip. FIG. 6 shows a system in which a cut tee hunch is provided between the lower beam flange and the lower beam flange when the horizontal stiffening of the beam 5 is insufficient due to the beam. FIG. 7 shows a system in which a cut tee hunch is provided between the fillet portion under the large beam and the flange under the small beam when the lateral stiffening of the large beam 5 is insufficient due to the small beam alone. This method is simpler and easier than attaching the cut tee flange to the girder web.
請求項4は、請求項1から4に係る発明において、図11に示すように、大梁1と小梁2の溶接接合部から大梁間のスパンの20分の1〜5分の1の寸法位置の小梁にボルト継手4Mを設けることを特徴とする大梁と小梁の剛接合構造体である。この小梁同士のボルト継ぎ手の位置は正確には大梁間の小梁のモーメント分布によりモーメントがゼロになる位置を選ぶことが肝要である。この位置ならばモーメントゼロなので床荷重の剪断力のみを考慮すればよいと言うメリットがある。従って、小梁ウエブのみをボルト接合すれば良い。実際にこのモーメントゼロの位置が建物使用中に移動することが予想される場合は小梁フランジもスプライスを用いてボルト接合することが望ましい。請求項1〜3において、このような小梁・小梁間の剛接合は請求項4を利用しない限り、建設現場における現場溶接が主体となる。請求項4に係る小梁同士のボルト継手を用いれば小梁・小梁間の剛接合は建設現場で行うことが可能になり、現場溶接に伴う現場での仮設や養生等の作業やコストが最小化される。 According to a fourth aspect of the present invention, in the invention according to any one of the first to fourth aspects, as shown in FIG. 11, the dimensional position of 1/20 to 1/5 of the span between the large beam 1 and the small beam 2 from the welded joint of the large beam 1 This is a rigid joint structure of a large beam and a small beam, in which a bolt joint 4M is provided on the small beam. It is important to select the position of the bolt joint between the small beams so that the moment becomes zero due to the moment distribution of the small beam between the large beams. Since there is no moment at this position, there is an advantage that only the shear force of the floor load needs to be considered. Therefore, it is sufficient to bolt only the small beam web. In fact, if it is expected that the zero moment position will move during use of the building, it is desirable to also bolt the beam flange using a splice. In Claims 1 to 3, such a rigid connection between the small beams is mainly made by field welding at a construction site unless claim 4 is used. By using the bolted joint between the beam according to claim 4, it becomes possible to perform the rigid joint between the beam and the beam at the construction site, and the work and cost such as temporary construction and curing in the field welding are minimized. It becomes.
請求項5は、フィッシュボーン方式と言い、請求項1から4に係る発明において、大梁と小梁の溶接接合部から大梁間のスパンの20分の1と5分の1の寸法位置の小梁にボルト継手を設けることを特徴とする大梁と小梁の剛接合構造体であり、大梁側の小梁端部は工場で大梁に取り付けを行い、大梁側の小梁と中央側小梁は通常現場でボルト接合を行う。このボルト接合はピン接合となる。 Claim 5 is a fishbone system, and in the invention according to claims 1 to 4, the small beam having a dimension position of 1/20 and 1/5 of the span between the large beam and the welded joint of the small beam to the large beam. It is a rigid joint structure of a large beam and a small beam that is provided with bolt joints. The end of the small beam on the large beam side is attached to the large beam at the factory, and the small beam on the large beam side and the central side beam are usually Bolts are joined on site. This bolt joint is a pin joint.
本発明の効果については、上記の説明の中でも行っているが、要点を列挙すると次の通りである。
1 ピン接合の大梁・小梁接合部を用いる場合に比較して小梁の重量低減(10〜30%)が図れる。大梁の左右で小梁が剛接合と見なせるので、従来のピン接合と比較して、大きな強度と剛性がえられて、小梁の重量低減(10〜30%)が図れる。
2 ピン接合の大梁・小梁接合部を用いる場合に比較して、同じ梁せいの小梁で比較した場合、小梁の最大変形量(撓み)が1/5に低減及び最大応力度が2/3に低減する。大梁の左右で小梁が剛接合と見なせるので、従来のピン接合と比較して、小梁の最大変形量(撓み)が1/5に低減及び最大応力度が2/3に低減する。
3 ピン接合の大梁・小梁接合部を用いる場合に比較して、小梁を大梁に取付けるガセットとボルトが大幅に減少する。従来方式では、大梁にボルト穴付きガセットを取り付
けて、小梁とボルト接合している。
4 従来の剛接合同士の比較でも、垂直ガセット及び水平スティフナーの部材数が半減する。その分鋼材費が節約できる。
5 従来の剛接合同士の比較でも、小梁ウエブのボルト使用数が1/4程度になり、ボルト孔加工・ボルト材料費が低減できる
6 従来の剛接合同士の比較でも、ボルト孔欠損が少ないので強度が高い。
7 フィッシュボーン方式は、連続小梁構造でもボルト接合で現場建て方ができるので、工期短縮と小梁低減と同時達成が可能になる
The effects of the present invention are described in the above description, but the main points are listed as follows.
The weight of the small beam can be reduced (10-30%) compared to the case of using a 1-pin large beam / small beam joint. Since the small beam can be regarded as a rigid joint on the left and right sides of the large beam, greater strength and rigidity can be obtained compared to the conventional pin joint, and the weight of the small beam can be reduced (10 to 30%).
2 Compared to the case of using a pin-jointed large beam / small beam joint, when compared with a small beam of the same beam, the maximum deformation (deflection) of the small beam is reduced to 1/5 and the maximum stress level is 2 Reduce to / 3. Since the small beam can be regarded as a rigid joint on the left and right of the large beam, the maximum deformation amount (deflection) of the small beam is reduced to 1/5 and the maximum stress degree is reduced to 2/3 as compared with the conventional pin connection.
The gussets and bolts for attaching the small beam to the large beam are significantly reduced compared to the case of using the 3 pin-bonded large beam / small beam joint. In the conventional method, a gusset with a bolt hole is attached to a large beam and is bolted to the small beam.
4. Even in comparison between conventional rigid joints, the number of members of the vertical gusset and horizontal stiffener is halved. The steel material cost can be saved accordingly.
5 Compared to conventional rigid joints, the number of bolts used on the small beam web can be reduced to about 1/4, and the bolt hole processing and bolt material cost can be reduced. So the strength is high.
7 The fishbone method can be built at the site by bolted connection even with a continuous beam structure, so it is possible to achieve a shortening of the construction period and beam reduction at the same time.
実施例1
図5を基に、実施の施工を説明する。
工場製作において、大梁1の上下フランジ5とウエブ6で囲まれた空間にウエブせいまで一体となった垂直スティフナーを嵌め込みこれらとすみ肉溶接する。次に、該垂直ガセット3の切り込み部を垂直ガセットに差し込み垂直ガセットを挟んで、小梁下フランジ位置にC字形の水平スティフナー7を該垂直ガセット及び大梁ウエブに溶接で取り付ける。垂直ガセットの先端には小梁の中立軸上に通常は2個のボルト孔を事前に開けておく。
建設現場においては、隣接する大梁間に小梁を配置し予め小梁ウエブの中立軸上に開けておいたボルト孔と垂直ガセットのボルト孔とにボルトを通し、小梁を仮組立し、納まりが良ければ大梁フランジと小梁上フランジそして水平スティフナーと小梁下フランジを組立溶接して、鉄骨精度を確認した上でこの部分の本溶接を実施する。しかる後に、垂直ガセットと小梁ウエブとのすみ肉溶接を実施する。
Example 1
Implementation will be described with reference to FIG.
In factory production, a vertical stiffener integrated to the web is inserted into the space surrounded by the upper and lower flanges 5 and the web 6 of the large beam 1 and fillet welded thereto. Next, the cut portion of the vertical gusset 3 is inserted into the vertical gusset, and the C-shaped horizontal stiffener 7 is attached to the vertical gusset and the large beam web by welding at the lower flange position of the small beam. Two bolt holes are usually drilled in advance on the neutral axis of the beam at the tip of the vertical gusset.
At the construction site, a small beam is placed between adjacent large beams, and bolts are passed through the bolt holes that were previously opened on the neutral shaft of the small beam web and the bolt holes of the vertical gusset, and the small beams are temporarily assembled and stored. If it is good, the large beam flange and the small beam upper flange, the horizontal stiffener and the small beam lower flange are assembled and welded, and after confirming the accuracy of the steel frame, this part of the main welding is carried out. After that, fillet welding between the vertical gusset and the small beam web is performed.
本発明は、従来のピン接合小梁方式に比較して、部材・溶接量等が少なく且つ施工が容易であり、且つ発明の効果が大きく、また、本発明は、構造設計も従来方式の応用でできるので容易である。これらの理由で、産業上の利用可能性が高い。 Compared to the conventional pin-jointed beam method, the present invention has fewer members and welding amount, is easy to construct, and has the effect of the present invention. It can be done easily. For these reasons, the industrial applicability is high.
1 柱に接合される大梁
2 大梁に接合される小梁
3 垂直ガセットプレート
4 高力ボルト
4M ボルト継手(ピン接合)
5 フランジ
6 ウエブ
6B 大梁ウエブ
7 水平スティフナー(繋ぎ板)
7M 水平スティフナー切り込み口
8 フランジ同士の突合せ溶接
9 ガセットプレートと大梁との溶接
10 剛接合部
10A 水平スティフナー(繋ぎ板)と梁フランジとの溶接
11 すみ肉溶接
11B 突合せ溶接又は完全溶け込み溶接
12カットティーハンチフランジ
13カットティーハンチウエブ
14カットティーハンチフランジと小梁フランジの溶接
15カットティーハンチフランジと大梁フランジの溶接
16カットティーハンチフランジと大梁フィレット部との溶接
19 柱
20 コンクリート止め
25 組立溶接
26 裏当金
40 カバープレート
41 カバープレート小梁中央側溶接
42 スティフナー
43 鋼製当て板溶接部
44 梁フランジ・ダイアフラム溶接部
45 ダイアフラム
50 ボルト継手
53 頭付きスタッド
57 床スラブ
59 地震力からもたらされる床スラブによる水平力
1 Large beam to be joined to column 2 Small beam to be joined to big beam 3 Vertical gusset plate 4 High strength bolt 4M Bolt joint (pin joint)
5 Flange 6 Web 6B Large beam web 7 Horizontal stiffener
7M Horizontal stiffener cut-out 8 Butt welding between flanges 9 Welding between gusset plate and girder 10 Rigid joint 10A Welding between horizontal stiffener (beam) and beam flange 11 Fillet welding 11B Butt welding or full penetration welding 12 Cut tee Haunch Flange 13 Cut Tee Hunch Web 14 Cut Tee Hunch Flange and Small Beam Flange Weld 15 Cut Tee Hunch Flange and Large Beam Flange Weld 16 Cut Tee Hunch Flange and Large Beam Fillet 19 Column 20 Concrete Stop 25 Assembly Weld 26 Back Welding 40 Cover plate 41 Cover plate beam side welding 42 Stiffener 43 Steel batting plate welded portion 44 Beam flange / diaphragm welded portion 45 Diaphragm 50 Bolt joint 53 Head stud 57 Floor slab 59 Earthquake Horizontal force by the floor slabs resulting from the
Claims (5)
The invention according to claim 1 to 4, characterized in that a bolt joint is provided on the small beam having a size position of 1/20 and 1/5 of the span between the large beam and the welded joint between the large beam and the small beam. Rigid connection structure of beam and beam
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CN109653532A (en) * | 2019-01-31 | 2019-04-19 | 中兴文物建筑装饰工程有限公司 | A kind of ancient building rain-proof shelter and its construction method |
CN112388122A (en) * | 2020-11-06 | 2021-02-23 | 安徽中纪建设工程有限公司 | H-shaped steel welding process |
JP2021156116A (en) * | 2020-03-30 | 2021-10-07 | 日本製鉄株式会社 | Beam joint structure |
JP2021156115A (en) * | 2020-03-30 | 2021-10-07 | 日本製鉄株式会社 | Beam joint structure |
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US4490066A (en) * | 1982-08-25 | 1984-12-25 | Hanlon Jim C | Clamping system for heavy "I" beams and the like on oil rigs, etc. |
JPH03221636A (en) * | 1990-01-29 | 1991-09-30 | Asahi Chem Ind Co Ltd | Beam connecting structure |
JP2005282019A (en) * | 2004-03-29 | 2005-10-13 | Shimizu Corp | Joint structure of steel framed small beam |
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US4490066A (en) * | 1982-08-25 | 1984-12-25 | Hanlon Jim C | Clamping system for heavy "I" beams and the like on oil rigs, etc. |
JPH03221636A (en) * | 1990-01-29 | 1991-09-30 | Asahi Chem Ind Co Ltd | Beam connecting structure |
JP2005282019A (en) * | 2004-03-29 | 2005-10-13 | Shimizu Corp | Joint structure of steel framed small beam |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109653532A (en) * | 2019-01-31 | 2019-04-19 | 中兴文物建筑装饰工程有限公司 | A kind of ancient building rain-proof shelter and its construction method |
JP2021156116A (en) * | 2020-03-30 | 2021-10-07 | 日本製鉄株式会社 | Beam joint structure |
JP2021156115A (en) * | 2020-03-30 | 2021-10-07 | 日本製鉄株式会社 | Beam joint structure |
JP7425950B2 (en) | 2020-03-30 | 2024-02-01 | 日本製鉄株式会社 | beam joint structure |
JP7425951B2 (en) | 2020-03-30 | 2024-02-01 | 日本製鉄株式会社 | beam joint structure |
CN112388122A (en) * | 2020-11-06 | 2021-02-23 | 安徽中纪建设工程有限公司 | H-shaped steel welding process |
CN112388122B (en) * | 2020-11-06 | 2022-03-11 | 安徽中纪建设集团股份有限公司 | H-shaped steel welding process |
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