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JP3207795B2 - Space truss structure - Google Patents
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JP3207795B2 - Space truss structure - Google Patents

Space truss structure

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Publication number
JP3207795B2
JP3207795B2 JP28974297A JP28974297A JP3207795B2 JP 3207795 B2 JP3207795 B2 JP 3207795B2 JP 28974297 A JP28974297 A JP 28974297A JP 28974297 A JP28974297 A JP 28974297A JP 3207795 B2 JP3207795 B2 JP 3207795B2
Authority
JP
Japan
Prior art keywords
truss
members
node
diagonal
frame member
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.)
Expired - Fee Related
Application number
JP28974297A
Other languages
Japanese (ja)
Other versions
JPH11124942A (en
Inventor
哲郎 山下
正利 垣永
実 本木
Original Assignee
株式会社巴コーポレーション
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by 株式会社巴コーポレーション filed Critical 株式会社巴コーポレーション
Priority to JP28974297A priority Critical patent/JP3207795B2/en
Publication of JPH11124942A publication Critical patent/JPH11124942A/en
Application granted granted Critical
Publication of JP3207795B2 publication Critical patent/JP3207795B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Rod-Shaped Construction Members (AREA)
  • Joining Of Building Structures In Genera (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、体育館やイベント
会場などに適用される長径間トラス構造物であり、二方
向に曲率の異なるトラス枠材の組立てにより網目を形成
する立体トラス構造物に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a long-span truss structure applied to a gymnasium, an event hall, and the like, and relates to a three-dimensional truss structure which forms a mesh by assembling truss frames having different curvatures in two directions. It is.

【0002】[0002]

【従来技術と発明が解決しようとする課題】上下弦材を
腹材を介して連結してなるトラス枠材と、このトラス枠
材の端部が接合されるトラス節点部とにより、三角形や
菱形などのトラス枠材の組立てにより網目を形成する立
体トラス構造物は、トラス節点部における弦材ゲージラ
インの引き付け点を1点とするのが一般的である。
2. Description of the Related Art A truss frame member formed by connecting upper and lower chord members via a web member and a truss node to which the ends of the truss frame member are joined are formed in a triangular or rhombic shape. In a three-dimensional truss structure that forms a mesh by assembling a truss frame member such as the one described above, it is general that the point of attraction of the chord gauge line at the truss joint is one point.

【0003】構造物の曲面が球面のように一定の曲率で
ある場合には、前述のように引き付け点を1点としても
問題はないが、構造物の曲面が二方向に異なる曲率を持
つ場合には、トラス枠材に捩れを生じる問題がある。
If the curved surface of the structure has a constant curvature like a spherical surface, there is no problem even if the attracting point is set to one point as described above, but if the curved surface of the structure has different curvatures in two directions. Has a problem that the truss frame material is twisted.

【0004】図5(a) は、トラス枠材1とトラス節点部
5等を点と線で模式的に表した斜視図であり、一定の曲
率半径RA の曲面の場合には(実線で示す)、隣り合う
トラス節点部5の束材7の中心軸が同一平面内にあるた
め、トラス枠材1の水平材1Aと斜材1Bは捩じれるこ
とがないが、二方向に異なる曲率半径RA 、RB を持つ
曲面の場合には(点線で示す)、曲率半径RB の方向に
隣り合うトラス節点部5の束材7の中心軸が同一平面内
に位置せず、斜材1Bに捩れが生じることになる。
FIG. 5 (a) is a perspective view schematically showing the truss frame member 1 and the truss node 5 and the like by dots and lines. In the case of a curved surface having a constant radius of curvature R A (shown by a solid line). Since the central axes of the bundles 7 of the adjacent truss node portions 5 are in the same plane, the horizontal member 1A and the diagonal member 1B of the truss frame member 1 are not twisted, but have different radii of curvature in two directions. R a, in the case of a curved surface having a R B (shown in dotted lines), the central axis of the bundle member 7 of the truss node portion 5 adjacent in the direction of the radius of curvature R B is not located in the same plane, the slant member 1B Will be twisted.

【0005】このような場合、従来においては、上弦
材、下弦材および腹材に、捩れ剛性の低いL形鋼部材を
用い、現場において、このL形鋼部材を捩じって取り付
けていた。しかし、L形鋼(山形鋼)部材は比較的断面
性能が悪いため、小規模、かつ、荷重の小さい構造物の
場合はよいが、大規模、かつ、載荷荷重の大きい構造物
の場合には、弦材にCT鋼やH形鋼などの捩れ剛性の高
い部材を使用する必要があるため、その取り付けに苦慮
していた。
In such a case, conventionally, an L-shaped steel member having low torsional rigidity is used for the upper chord, the lower chord, and the abdominal material, and the L-shaped steel member is twisted and attached on site. However, since the L-section steel (angle iron) member has relatively poor cross-sectional performance, it is good for a small-scale structure with a small load, but it is good for a large-scale structure with a large load. However, since it is necessary to use a member having high torsional rigidity such as a CT steel or an H-shaped steel as a chord material, it has been difficult to mount the string material.

【0006】本発明は、前記事情に鑑みて開発されたも
のであり、二方向に曲率の異なる曲面を有するトラス枠
材の組立てにより網目を形成する立体トラス構造物にお
いて、トラス枠材に捩れを生じさせることなく接合を行
うことができ、捩れ剛性が高く断面性能の優れた弦材や
腹材を用いる大規模で載荷荷重の大きい構造物にも適用
することが可能な立体トラス構造物を提供することを目
的としている。
The present invention has been developed in view of the above circumstances, and in a three-dimensional truss structure in which a mesh is formed by assembling a truss frame member having curved surfaces having different curvatures in two directions, a twist is applied to the truss frame member. Provides a three-dimensional truss structure that can be joined without causing it, and can be applied to large-scale structures with large load using chords and webs with high torsional rigidity and excellent cross-sectional performance It is intended to be.

【0007】[0007]

【課題を解決するための手段】前記目的を達成するため
に、本発明では、上下弦材を腹材を介して連結してなる
トラス枠材と、上下の接合プレートを束材により連結し
てなり、前記トラス枠材の上下弦材の端部がそれぞれ上
下の接合プレートに接合されるトラス節点部とからな
り、二方向に曲率の異なるトラス枠材の組立てにより網
目を形成する立体トラス構造物において、前記トラス枠
材のうち一方の曲率半径の円弧に沿う水平材は、そのト
ラス節点部における引き付け点をトラス節点部の中心に
一致させ、この水平材に対して斜めに配設され、他方の
曲率半径の円弧に対して傾斜する斜材は、そのトラス節
点部における引き付け点を、それぞれの斜材に捩れが生
じないようにトラス節点部の中心に対して若干ずらして
配設し、これら水平材および斜材の端部が接合されるト
ラス節点部の接合プレートは、基部から突出部が突出す
る平面視で略星型形状とされ、前記突出部は、水平材お
よび斜材の角度分だけ基部に対し折曲成形されているこ
とを特徴とする。
In order to achieve the above-mentioned object, according to the present invention, a truss frame member formed by connecting upper and lower chord members via a bellows member and an upper and lower joint plate are connected by a bundle member.
It becomes Te, the ends of the upper and lower chord of the truss frame member is on each
In a three-dimensional truss structure comprising a truss joint portion joined to a lower joining plate and forming a mesh by assembling truss frame materials having different curvatures in two directions, an arc having a radius of curvature of one of the truss frame materials is formed. The horizontal member along the truss node has its drawing point coincided with the center of the truss node, and the horizontal member is disposed obliquely with respect to the horizontal member. Attraction points at the truss nodes are slightly shifted from the center of the truss nodes to prevent twisting of the diagonal members, and the truss nodes where the ends of these horizontal members and the diagonal members are joined joining plate is substantially star-shaped in plan view the protrusion from the base projects, the protruding portion is characterized in that it has been formed bent to angle amount corresponding base of the horizontal member and the diagonal member .

【0008】二方向に曲率の異なるトラス枠材の組立て
により網目を形成する立体トラス構造物の場合、図5
(a) の点線で示すように、隣り合うトラス節点部の束材
の中心軸が同一平面内に位置せず、そのまま斜材を配設
すると、それぞれの斜材に捩れが生じる。そこで、図5
(b) に示すように、斜材のトラス節点部における引き付
け点をトラス節点部の中心に対して前記捩れを解消する
ように若干ずらして配設すれば、斜材が捩れを起こすこ
となく真っ直ぐ配設される。
In the case of a three-dimensional truss structure in which a mesh is formed by assembling truss frame members having different curvatures in two directions, FIG.
As shown by the dotted line in (a), if the central axes of the bundles of the adjacent truss nodes are not located in the same plane and the diagonal members are arranged as they are, each diagonal member is twisted. Therefore, FIG.
As shown in (b), if the pulling point at the truss node of the diagonal material is slightly shifted from the center of the truss node so as to eliminate the twist, the diagonal material is straightened without causing twisting. Will be arranged.

【0009】[0009]

【発明の実施の態様】以下、本発明を図示する一実施形
態に基いて説明する。これは、図1に示すように、三角
網目で、構造物長手方向の曲率半径RA が大きく、構造
物幅方向の曲率半径RB が小さい立体トラス構造物に適
用した例であり、図2、図3に、本発明の立体トラス構
造物の構成を示す。図4に、本発明のトラス枠材とトラ
ス節点部の接合部分の詳細を示す。図5に、従来におけ
る斜材の捩れと本発明における斜材のトラス節点部への
配置状態を示す。図6に、本発明のトラス枠材の配置状
態を示す。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to an embodiment shown in the drawings. This is because, as shown in FIG. 1, a triangular mesh, large radius of curvature R A of the structure longitudinally, an example of application to the curvature radius R B smaller truss structure of the structure width direction, FIG. 2 FIG. 3 shows the configuration of the space truss structure of the present invention. FIG. 4 shows the details of the joint portion between the truss frame member and the truss node portion of the present invention. FIG. 5 shows the conventional twisting of the diagonal members and the arrangement of the diagonal members at the truss joints according to the present invention. FIG. 6 shows an arrangement state of the truss frame member of the present invention.

【0010】図1において、トラス枠材1は、立体トラ
ス構造物の長手方向(曲率半径RAの円弧)に沿う水平
材1Aと、これら水平材1Aに対して斜めに(曲率半径
Bの円弧に対して傾斜)配設される斜材1Bから構成
されている。
In FIG. 1, a truss frame member 1 includes a horizontal member 1A along the longitudinal direction (an arc having a radius of curvature R A ) of a three-dimensional truss structure, and an oblique (radius of curvature R B ) with respect to these horizontal members 1A. It is composed of a diagonal member 1B which is disposed (inclined with respect to the arc).

【0011】図2、図3において、トラス枠材1は、C
T形鋼からなる上弦材2と下弦材3と、これら上下弦材
を連結する山形鋼からなる腹材4から構成され、このト
ラス枠材1の両端部がそれぞれトラス節点部5に接合さ
れる。トラス節点部5は、後に詳述するように、上下の
接合プレート6と、この上下プレートを連結する角管や
丸管などの束材7などから構成される。
In FIGS. 2 and 3, the truss frame material 1 is C
An upper chord 2 and a lower chord 3 made of a T-section steel and a belly 4 made of an angle steel for connecting the upper and lower chords are formed. Both ends of the truss frame 1 are joined to truss joints 5, respectively. . As will be described in detail later, the truss node portion 5 includes upper and lower joining plates 6 and bundles 7 such as square tubes and round tubes connecting the upper and lower plates.

【0012】水平材1Aは、隣り合うトラス節点部5の
束材7の中心軸が同一平面内に位置し、捩れを生じない
ため、図2、図3を拡大した図4に示すように、そのゲ
ージラインのトラス節点部5における引き付け点Pをト
ラス節点部5の中心Oに一致させる。
In the horizontal member 1A, since the central axes of the bundle members 7 of the adjacent truss node portions 5 are located in the same plane and do not twist, as shown in FIG. The attraction point P of the gauge line at the truss node 5 is made to coincide with the center O of the truss node 5.

【0013】斜材1Bは、隣り合うトラス節点部5の束
材7の中心軸が同一平面内に位置せず(図5(a) 参
照)、そのゲージラインの引き付け点Qをトラス節点部
5の中心Oに一致させると、捩れが生じるため(図5
(b) 参照)、図4、図5(b) に示すように、この捩れの
分だけ、斜材1Bの上弦材2、下弦材3の引き付け点Q
U 、QL をトラス節点部5の中心Oからずらす。
In the diagonal member 1B, the central axes of the bundles 7 of the adjacent truss nodes 5 are not located in the same plane (see FIG. 5A), and the attractive point Q of the gauge line is changed to the truss node 5 5 is twisted when it is matched with the center O of FIG.
4 (b)), as shown in FIGS. 4 and 5 (b), the attraction point Q of the upper chord member 2 and the lower chord member 3 of the diagonal member 1B by this twist.
U, shifting the Q L from the center O of the truss node 5.

【0014】図4、図5(b) に示すように、斜材1Bに
おいて、上弦材2、下弦材3の引き付け点QU 、Q
L は、隣り合うトラス節点部5でそれぞれ異なる方向に
ずらし、上弦材2の引き付け点QU と下弦材3の引き付
け点QL も互いに異なる方向にずらし、斜材1Bの捩れ
が解消されるようにする。ずらし量は、曲率半径RB
大きさに応じて設定すればよい。以上のように、上弦材
2、下弦材3の引き付け点をずらすことで、図6に示す
ように、斜材1Bには、捩れが全く発生しない。
As shown in FIGS. 4 and 5 (b), in the diagonal member 1B, the attraction points Q U and Q of the upper chord member 2 and the lower chord member 3 are obtained.
L is shifted in different directions by the truss node portion 5 adjacent to attract point Q L of attracting point Q U and lower chord member 3 of the top chord member 2 also shifted in different directions, the twist of the diagonal members 1B is eliminated To Shift amount may be set according to the size of the radius of curvature R B. As described above, by shifting the attraction points of the upper chord member 2 and the lower chord member 3, no twist is generated in the diagonal member 1B as shown in FIG.

【0015】トラス節点部5の接合プレート6は、図
2、図3に示すように、二段のプレート11、12をリ
ブ13で連結した構造であり、プレート11は、接合さ
れるトラス枠材1に対応して基部11aから一体的に突
出する突出部11bを有し、平面視で略星型形状とされ
ている。リブ13も基部11aから突出部11bまで突
出している。
As shown in FIGS. 2 and 3, the joining plate 6 of the truss node portion 5 has a structure in which two-stage plates 11 and 12 are connected by a rib 13, and the plate 11 is a truss frame material to be joined. 1 has a protruding portion 11b integrally protruding from the base portion 11a, and has a substantially star shape in plan view. The rib 13 also protrudes from the base 11a to the protrusion 11b.

【0016】プレート11の突出部11bは、束材7の
中心軸と上弦材2および下弦材3とがある角度をなすた
め、この角度分だけ基部11aに対して折曲成形されて
いる。なお、図4に示すように、水平材1Aの場合、突
出部11bは直角に折曲されるが、斜材1Bの場合、傾
斜して折曲される。
The projecting portion 11b of the plate 11 is bent with respect to the base 11a by this angle so that the central axis of the bundle 7 and the upper chord 2 and the lower chord 3 make an angle. As shown in FIG. 4, in the case of the horizontal member 1A, the protruding portion 11b is bent at a right angle, but in the case of the diagonal member 1B, the protrusion 11b is bent at an angle.

【0017】このようなプレート11の突出部11b、
リブ13に、上弦材2または下弦材3のフランジ、ウェ
ブが、それぞれスプライスプレート14を介してボルト
接合される。腹材4は、束材7にプレート12に近接し
て設けたガセットプレート15にボルト接合される。
The projecting portions 11b of the plate 11
The flange and the web of the upper chord 2 or the lower chord 3 are bolted to the rib 13 via the splice plate 14, respectively. The abdominal material 4 is bolted to a gusset plate 15 provided on the bundle material 7 close to the plate 12.

【0018】以上は三角網目の場合を示したが、菱形網
目などにも適用できることはいうまでもない。図7は、
菱形網目の上弦材の例であり、この場合も、引き付け点
Uをトラス節点部5の中心Oに対してずらせばよい。
また、実施例では、束材に角パイプを用いてあるが、丸
パイプでも、また他の形鋼部材を用いることのできるこ
とはいうまでもない。
Although the case of the triangular mesh has been described above, it is needless to say that the present invention can be applied to a rhombic mesh and the like. FIG.
An example of a top chord member of the rhombic mesh, also in this case, be shifted to attract point Q U with respect to the center O of the truss node 5.
Further, in the embodiment, the square pipe is used for the bundle material, but it goes without saying that a round pipe or another shaped steel member can be used.

【0019】[0019]

【発明の効果】本発明の立体トラス構造物は、トラス枠
材のうち斜めに配設される斜材のトラス節点部における
引き付け点を、それぞれの斜材に捩れが生じないように
トラス節点部の中心に対して若干ずらして配設するよう
にしたため、次のような効果を奏する。
According to the three-dimensional truss structure of the present invention, the attraction points at the truss nodes of the oblique members of the truss frame material which are arranged obliquely are adjusted so that the respective oblique members are not twisted. Are arranged with a slight offset from the center, the following effects can be obtained.

【0020】(1) 二方向に曲率の異なる曲面を有する立
体トラス構造物において、トラス枠材に捩れを発生させ
ることなく、トラス枠材をトラス節点部に接合すること
ができる。
(1) In a three-dimensional truss structure having curved surfaces having different curvatures in two directions, the truss frame member can be joined to the truss node without causing twisting of the truss frame member.

【0021】(2) これにより、L形鋼(山形鋼)部材の
みならず、CT鋼やH形鋼、角形鋼管等の断面性能の優
れた部材を弦材あるいは腹材に用いることができる。そ
のため、従来では困難であった大規模構造物や載荷荷重
の大きな構造物にも対応が可能となる。
(2) As a result, not only L-shaped steel members (angle irons) but also members having excellent cross-sectional performance such as CT steels, H-shaped steels, and square steel pipes can be used as chord members or web members. Therefore, it is possible to cope with a large-scale structure or a structure having a large load, which was difficult in the past.

【0022】(3) また、トラス節点部の構造は、プレー
トの基板から突出部を各トラス枠材に対応させて一体的
に突出させ折曲形成すればよいため、トラス節点部を比
較的簡単でコンパクトな構成とすることができる。
(3) The structure of the truss node portion is relatively simple because the protrusion portion from the plate substrate may be formed integrally with the truss frame material so as to protrude integrally and bend. And a compact configuration can be achieved.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明が適用される二方向に曲率の異なる曲面
を有する立体トラス構造物の例を示す、(a) は平面図、
(b) は正面図、(c) は側面図である。
FIG. 1 shows an example of a space truss structure having curved surfaces having different curvatures in two directions to which the present invention is applied, (a) is a plan view,
(b) is a front view, and (c) is a side view.

【図2】本発明におけるトラス枠材(水平材)とトラス
節点部との接合状態を示す、(a) は上弦材の上面図、
(b) は正面図、(c) は下弦材の上面図である。
FIG. 2 shows a joint state between a truss frame member (horizontal member) and a truss node part in the present invention, (a) is a top view of an upper chord member,
(b) is a front view, and (c) is a top view of the lower chord material.

【図3】本発明におけるトラス枠材(斜材)とトラス節
点部との接合状態を示す、(a)は上弦材の上面図、(b)
は正面図、(c) は下弦材の上面図である。
3A and 3B show a joint state between a truss frame member (diagonal member) and a truss node part according to the present invention. FIG.
Is a front view, and (c) is a top view of the lower chord material.

【図4】本発明におけるトラス枠材とトラス節点部の接
合部分を示す、(a) は上弦材の上面図、(b) は下弦材の
上面図である。
4 (a) is a top view of an upper chord material, and FIG. 4 (b) is a top view of a lower chord material, showing a joint portion between a truss frame member and a truss node portion in the present invention.

【図5】(a) は二方向に曲率の異なる曲面を有する立体
トラス構造物における斜材の捩れを示す概略斜視図、
(b) は本発明の斜材の配置状態を示す概略斜視図であ
る。
FIG. 5A is a schematic perspective view showing torsion of a diagonal member in a space truss structure having curved surfaces having different curvatures in two directions,
(b) is a schematic perspective view showing the arrangement of the diagonal members of the present invention.

【図6】(a) は本発明の水平材および斜材の配置状態を
示す概略斜視図、(b) はその斜材の平面図および側面図
である。
FIG. 6 (a) is a schematic perspective view showing an arrangement state of a horizontal member and a diagonal member of the present invention, and FIG. 6 (b) is a plan view and a side view of the diagonal member.

【図7】本発明の網目の形状が異なる場合の例であり、
斜材とトラス節点部との接合状態を示す上面図である。
FIG. 7 is an example of a case where the meshes of the present invention have different shapes;
It is a top view which shows the joining state of a diagonal material and a truss node part.

【符号の説明】[Explanation of symbols]

1…トラス枠材 1A…水平材 1B…斜材 2…上弦材 3…下弦材 4…腹材 5…トラス節点部 6…接合プレート 7…束材 11…プレート 11a…基部 11b…突出部 12…プレート 13…リブ 14…スプライスプレート 15…ガセットプレート DESCRIPTION OF SYMBOLS 1 ... Truss frame material 1A ... Horizontal material 1B ... Diagonal material 2 ... Upper chord material 3 ... Lower chord material 4 ... Belt material 5 ... Truss node part 6 ... Joint plate 7 ... Bundle material 11 ... Plate 11a ... Base 11b ... Projection 12 ... Plate 13 ... Rib 14 ... Splice plate 15 ... Gusset plate

フロントページの続き (56)参考文献 特開 平9−195435(JP,A) 特開 平6−26102(JP,A) (58)調査した分野(Int.Cl.7,DB名) E04B 1/32 102 E04B 7/08 Continuation of the front page (56) References JP-A-9-195435 (JP, A) JP-A-6-26102 (JP, A) (58) Fields investigated (Int. Cl. 7 , DB name) E04B 1 / 32 102 E04B 7/08

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】上下弦材を腹材を介して連結してなるトラ
ス枠材と、上下の接合プレートを束材により連結してな
り、前記トラス枠材の上下弦材の端部がそれぞれ上下の
接合プレートに接合されるトラス節点部とからなり、二
方向に曲率の異なるトラス枠材の組立てにより網目を形
成する立体トラス構造物において、前記トラス枠材のう
ち一方の曲率半径の円弧に沿う水平材は、そのトラス節
点部における引き付け点をトラス節点部の中心に一致さ
せ、この水平材に対して斜めに配設され、他方の曲率半
径の円弧に対して傾斜する斜材は、そのトラス節点部に
おける引き付け点を、それぞれの斜材に捩れが生じない
ようにトラス節点部の中心に対して若干ずらして配設
し、これら水平材および斜材の端部が接合されるトラス
節点部の接合プレートは、基部から突出部が突出する平
面視で略星型形状とされ、前記突出部は、水平材および
斜材の角度分だけ基部に対し折曲成形されていることを
特徴とする立体トラス構造物。
1. A truss frame member in which upper and lower chord members are connected via an abdominal member, and upper and lower joining plates are connected by a bundle member.
Ri, the ends of the upper and lower chord of the truss frame member is vertically respectively
In a three-dimensional truss structure comprising a truss joint portion joined to a joining plate and forming a mesh by assembling truss frame members having different curvatures in two directions, in the three-dimensional truss structure, the truss frame member has a horizontal shape along an arc of one curvature radius. The truss node is set so that the pulling point at the truss node coincides with the center of the truss node. Attraction points in the truss are slightly shifted with respect to the center of the truss joints so that the respective slant members are not twisted, and the ends of the horizontal members and the slant members are joined. plate is a substantially star-shaped in plan view the protrusion from the base projects, the protrusion stereoscopic tiger, characterized in that it has been formed bent with respect to the horizontal member and the angle amount corresponding base of the diagonal member Structures.
JP28974297A 1997-10-22 1997-10-22 Space truss structure Expired - Fee Related JP3207795B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP28974297A JP3207795B2 (en) 1997-10-22 1997-10-22 Space truss structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP28974297A JP3207795B2 (en) 1997-10-22 1997-10-22 Space truss structure

Publications (2)

Publication Number Publication Date
JPH11124942A JPH11124942A (en) 1999-05-11
JP3207795B2 true JP3207795B2 (en) 2001-09-10

Family

ID=17747182

Family Applications (1)

Application Number Title Priority Date Filing Date
JP28974297A Expired - Fee Related JP3207795B2 (en) 1997-10-22 1997-10-22 Space truss structure

Country Status (1)

Country Link
JP (1) JP3207795B2 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101226597B1 (en) * 2009-04-20 2013-02-05 원대연 Web member of Composite Truss Girder and, node connecting structure having the same
JP6450707B2 (en) * 2016-05-16 2019-01-09 株式会社巴コーポレーション Lattice joint structure of multi-layer truss frame
CN115233900B (en) * 2022-07-31 2024-01-30 上海宝冶集团有限公司 Manufacturing process and installation method suitable for ultra-long and ultra-wide herringbone beam
CN117211463A (en) * 2023-10-17 2023-12-12 中建钢构天津有限公司 Inclined truss node and truss node construction method

Also Published As

Publication number Publication date
JPH11124942A (en) 1999-05-11

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