JP2019173962A - Force receiver beam connection member made of aluminum alloy - Google Patents

Force receiver beam connection member made of aluminum alloy Download PDF

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JP2019173962A
JP2019173962A JP2018078631A JP2018078631A JP2019173962A JP 2019173962 A JP2019173962 A JP 2019173962A JP 2018078631 A JP2018078631 A JP 2018078631A JP 2018078631 A JP2018078631 A JP 2018078631A JP 2019173962 A JP2019173962 A JP 2019173962A
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plate
vertical
aluminum alloy
force receiving
connecting member
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JP6535400B1 (en
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ツー、ジァンチェン
Jiancheng Zhu
ツェン、ユーリン
Yulin Zheng
リー、フェンギャン
Fengyan Li
ウェル、シーカイ
Xikai Wei
フアン、ジァフェン
Jiafeng Huang
レイ、スーピン
Suping Lei
キン、チュアンズァオ
Chuangzhao Qin
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ALNAN ALUMINUM CO Ltd
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ALNAN ALUMINUM CO Ltd
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16BDEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
    • F16B7/00Connections of rods or tubes, e.g. of non-circular section, mutually, including resilient connections
    • F16B7/18Connections of rods or tubes, e.g. of non-circular section, mutually, including resilient connections using screw-thread elements

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  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Connection Of Plates (AREA)
  • Assembled Shelves (AREA)
  • Load-Bearing And Curtain Walls (AREA)
  • Joining Of Building Structures In Genera (AREA)

Abstract

To provide a force receiving beam connection member that can be used as an anti-load beam connection member for an anti-load facility such as a parking facility and the like, for example, and also that can reduce usage of aluminum alloy die member and that can be easily fixed or removed.SOLUTION: This invention relates to a force receiving beam connection member of aluminum alloy in which one lateral bottom surface 1 is included, the lateral bottom surface 1 has two longitudinal holding plates 2 parallel to each other that are arranged vertically, a space between the two longitudinal holding plates 2 is used for clamping the longitudinal beam, one end of a slant plate is connected outside of the extremity end of each of the longitudinal holding plates 2, the other end of a slant plate 3 is continuous to the lateral bottom surface 1, two rectangular triangle cavities are constituted by a slant plate 3, the lateral bottom surface 1 and the longitudinal holding plates 2, each of bolt holes 4 is arranged at two rectangular surfaces at the same cross sectional position of the rectangular triangle cavity and a rectangular hole is arranged at the slant plate 3 at a corresponding position.SELECTED DRAWING: Figure 1

Description

本発明は、アルミニウム合金型材に関し、特にアルミニウム合金の力受けビーム連結部材に関する。   The present invention relates to an aluminum alloy mold, and more particularly to an aluminum alloy force receiving beam connecting member.

アルミニウム合金型材は、工業で最も広く使用されている一つの金属構造材料であり、航空宇宙、自動車工業及び加工生産ラインなどの分野で広く使用されている。連結部材の設計は、アルミニウム合金型材間の接続の安全性に影響を与えるだけでなく、接続効率との関係も深い。従って、連結部材の設計は、アルミニウム合金型材の使用に対して非常に重要な技術である。   Aluminum alloy molds are one of the most widely used metal structural materials in the industry, and are widely used in fields such as the aerospace, automotive industry and processing production lines. The design of the connecting member not only affects the safety of the connection between the aluminum alloy molds, but is also closely related to the connection efficiency. Therefore, the design of the connecting member is a very important technology for the use of aluminum alloy molds.

中国特許CN106224339 Aには、直角部材、スロット付きT型ボルト、楕円形ガスケット及びナットが設けられるアルミニウム合金型材の連結部材が開示されており、前記直角部材の両側に弧形リブ板がそれぞれ設計され、直角部材に2つの直交する楕円形孔が開口され、そのうち一方はスロット付きT型ボルトを通すための楕円形貫通孔であり、他方は楕円形ガスケットを固定するための楕円形固定孔であり、前記スロット付きT型ボルトのナットギャップは、直角部材の楕円形貫通孔を貫通してアルミニウム合金型材の凹溝内に係合され、前記楕円形ガスケットはスロット付きT型ボルトに沿って直角部材の楕円形固定孔に滑り込まれ、前記ナットとスロット付きT型ボルトが締結される。アルミニウム合金型材間の迅速なスプライシング及び固定を実現することができる。   Chinese Patent CN106224339 A discloses a connecting member of an aluminum alloy mold provided with a right-angle member, a slotted T-bolt, an elliptical gasket and a nut, and an arc-shaped rib plate is designed on each side of the right-angle member. , Two orthogonal elliptical holes are opened in the right angle member, one of which is an elliptical through hole for passing a slotted T-bolt and the other is an elliptical fixing hole for fixing an elliptical gasket The nut gap of the slotted T-bolt passes through the elliptical through hole of the right-angle member and is engaged in the concave groove of the aluminum alloy mold, and the elliptical gasket extends along the slotted T-bolt. Then, the nut and the slotted T-bolt are fastened. Rapid splicing and fixing between aluminum alloy molds can be realized.

既存の連結部材は、通常、取り付け過程においてボルトによって固定され、主にスプライシング及び締結の役割を果たす。しかしながら、アルミニウム合金型材連結部材が例えば駐車施設や倉庫フロアなどのような耐荷重施設に適用される場合、このタイプの連結部材は、主な力受け部材として使用され、既存のこのようなアルミニウム型材の連結部材はほとんど鉄骨構造である。当該分野にアルミニウム合金型材をどのように適用するか、すなわち、耐荷重ビーム連結部材としての使用に適するようにアルミニウム合金型材連結部材の強度をどのように高めるかは、現在のアルミニウム合金型材の適用において緊急に解決する必要がある技術課題であり、従来の文献にはほとんど報告されていない。   Existing connecting members are usually fixed by bolts in the mounting process and mainly serve as splicing and fastening. However, when the aluminum alloy mold connecting member is applied to a load-bearing facility such as a parking facility or a warehouse floor, this type of connecting member is used as a main force receiving member, and such an existing aluminum mold member is used. Most of the connecting members have a steel structure. How to apply aluminum alloy mold materials in the field, that is, how to increase the strength of aluminum alloy mold connection members to be suitable for use as load bearing beam connection members, is the application of current aluminum alloy mold materials This is a technical problem that needs to be solved urgently and is hardly reported in conventional literature.

従来技術に存在する問題に対して、本発明は、例えば駐車施設等の耐荷重施設の耐荷重ビーム連結部材としての用途を実現できるとともに、アルミニウム合金型材の使用量を減らすこともでき、着脱しやすいアルミニウム合金の力受けビーム連結部材を提供する。   In response to the problems existing in the prior art, the present invention can realize an application as a load bearing beam connecting member of a load bearing facility such as a parking facility, and can also reduce the amount of aluminum alloy molds to be used. An aluminum alloy force receiving beam connecting member is provided.

上記の発明の目的を達成するために、本発明の技術案は下記のとおりである。   In order to achieve the above object, the technical solution of the present invention is as follows.

アルミニウム合金の力受けビーム連結部材であって、1つの横底面を含み、横底面には互いに平行な2枚の縦はさみ板が垂直に配置され、2枚の縦はさみ板の間は縦ビームをクランピングすることに用いられ、斜め板の一端が縦はさみ板に接続され、斜め板の他端が横底面に連続し、斜め板、横底面及び縦はさみ板により2つの直角三角形のキャビティが構成され、直角三角形のキャビティの同じ横断面位置での2つの直角面にボルト孔がそれぞれ設置され、対応する位置での斜め板に矩形孔が設置され、2つの直角面にボルトを締結しやすいとともに、軽量化することができ、着脱しやすい。   This is an aluminum alloy force receiving beam connecting member that includes one horizontal bottom surface, and two vertical scissor plates that are parallel to each other are arranged vertically on the horizontal bottom surface, and the vertical beam is clamped between the two vertical scissor plates. One end of the diagonal plate is connected to the vertical scissor plate, the other end of the diagonal plate is connected to the horizontal bottom surface, and two right triangle cavities are constituted by the diagonal plate, the horizontal bottom surface and the vertical scissor plate, Bolt holes are installed in two right-angle planes at the same cross-sectional position of a right-angled triangular cavity, and rectangular holes are installed in diagonal plates at the corresponding positions, making it easy to fasten bolts to two right-angle planes and lightweight Easy to attach and detach.

好ましくは、縦はさみ板の直角辺には厚さが周辺の板の厚さより大きいボルト孔ボスが設けられ、縦はさみ板でのボルト孔がボルト孔ボスに設置される。   Preferably, a bolt hole boss having a thickness larger than the thickness of the peripheral plate is provided on the right side of the vertical scissor plate, and the bolt hole in the vertical scissor plate is installed in the bolt hole boss.

好ましくは、前記横底面には、底面の直角辺に沿って外へ延びる位置に底面翼縁部が固定して設置され、底面翼縁部にボルト孔が設置される。   Preferably, a bottom wing edge is fixedly installed on the lateral bottom surface at a position extending outward along a right side of the bottom surface, and a bolt hole is installed in the bottom wing edge.

好ましくは、前記縦はさみ板には、縦直角辺に沿って外へ延びる位置に縦翼縁部ボスが固定して設置され、縦翼縁部ボスにボルト孔が設置され、縦翼縁部ボスの板の厚さが周辺の板の厚さより大きい。   Preferably, a vertical blade edge boss is fixedly installed on the vertical scissor plate at a position extending outward along the vertical right-angle side, and a bolt hole is installed in the vertical blade edge boss. The thickness of the plate is larger than the thickness of the surrounding plates.

本発明の有益な効果は、以下のとおりである。
1、本発明は、直角三角形の斜面に矩形孔を開口することにより、2つの直角面にボルトを締結しやすいとともに、軽量化することができ、着脱しやすい。
2、本発明は、斜め板の設計により、連結部材のねじれ抵抗性能を向上させる。
3、本発明は、縦はさみ板のボルト孔位置でのはさみ板の厚さをボルト孔がないはさみ板の位置での厚さより大きくすることにより、主な力受け点としてのボルト接続箇所の力受け強度を高める。 The beneficial effects of the present invention are as follows.
1. In the present invention, by opening a rectangular hole on a slope of a right triangle, it is easy to fasten a bolt to two perpendicular faces, and the weight can be reduced, and it is easy to attach and detach.
2. The present invention improves the torsion resistance performance of the connecting member by designing the diagonal plate.
3. In the present invention, the thickness of the scissor plate at the bolt hole position of the vertical scissor plate is made larger than the thickness at the position of the scissor plate without the bolt hole, so that the force at the bolt connection point as the main force receiving point is increased. Increase receiving strength.

図1は本発明に係るアルミニウム合金の力受けビーム連結部材の構造の正面図である。FIG. 1 is a front view of the structure of an aluminum alloy force receiving beam connecting member according to the present invention. 図2は本発明に係るアルミニウム合金の力受けビーム連結部材の構造の側面図である。FIG. 2 is a side view of the structure of an aluminum alloy force receiving beam connecting member according to the present invention. 図3は本発明に係るアルミニウム合金の力受けビーム連結部材の概略構成図である。FIG. 3 is a schematic configuration diagram of an aluminum alloy force receiving beam connecting member according to the present invention.

1、横底面、2、縦はさみ板、3、斜め板、4、ボルト孔、5、ボルト孔ボス、6、矩形孔、7、底面翼縁部、8、縦翼縁部ボス。   1, horizontal bottom 2, vertical scissor plate 3, diagonal plate 4, bolt hole 5, bolt hole boss 6, rectangular hole 7, bottom blade edge 8, vertical blade edge boss

本発明の技術内容、達成する目的及び効果を詳しく説明するために、以下、実施例及び図面1−3を参照しながら説明する。
実施形態 The technical contents of the present invention, the objects to be achieved, and the effects will be described in detail below with reference to Examples and Drawings 1-3.
Embodiment

図3に示すように、アルミニウム合金の力受けビーム連結部材であって、1つの横底面1を含み、横底面1の中央において、横底面1に互いに平行な2枚の縦はさみ板2が垂直に設置され、2枚の縦はさみ板2の間は縦ビームをクランピングすることに用いられ、斜め板3の一端が縦はさみ板2に接続され、斜め板3の他端が横底面1に連続し、斜め板3、横底面1及び縦はさみ板2により2つの直角三角形のキャビティが構成され、直角三角形のキャビティの同じ横断面位置での2つの直角面にボルト孔4がそれぞれ設置され、対応する位置での斜め板3に矩形孔6が設置され、2つの直角面にボルトを締結しやすいとともに、軽量化することができ、着脱しやすい。   As shown in FIG. 3, a force receiving beam connecting member made of an aluminum alloy, which includes one lateral bottom surface 1, and in the center of the lateral bottom surface 1, two vertical scissor plates 2 parallel to the lateral bottom surface 1 are perpendicular to each other. Between the two vertical scissors plates 2 and used to clamp the vertical beam, one end of the diagonal plate 3 is connected to the vertical scissors plate 2, and the other end of the diagonal plate 3 is connected to the horizontal bottom surface 1. Two right-angled triangular cavities are formed by the diagonal plate 3, the lateral bottom surface 1 and the vertical scissor plate 2, and the bolt holes 4 are respectively installed in two right-angled surfaces at the same cross-sectional position of the right-angled triangular cavity. A rectangular hole 6 is installed in the diagonal plate 3 at the corresponding position, and bolts can be easily fastened to two right-angled surfaces, and the weight can be reduced, and it is easy to attach and detach.

図3に示すように、好ましい実施形態として、縦はさみ板2の直角辺には厚さが周辺の板の厚さより大きいボルト孔ボス5が設けられ、縦はさみ板2でのボルト孔4がボルト孔ボス5に設置される。   As shown in FIG. 3, as a preferred embodiment, a bolt hole boss 5 having a thickness larger than the thickness of a peripheral plate is provided on the right side of the vertical scissor plate 2, and the bolt hole 4 in the vertical scissor plate 2 is a bolt. It is installed in the hole boss 5.

図1に示すように、好ましい実施形態として、前記横底面1には、底面の直角辺に沿って外へ延びる位置に底面翼縁部7が固定して設置され、底面翼縁部にボルト孔4が設置される。   As shown in FIG. 1, as a preferred embodiment, a bottom wing edge 7 is fixedly installed on the lateral bottom 1 at a position extending outward along a right-angle side of the bottom, and a bolt hole is formed in the bottom wing edge. 4 is installed.

図1−2に示すように、好ましい実施形態として、前記縦はさみ板2には、縦直角辺に沿って外へ延びる位置に縦翼縁部ボス8が固定して設置され、縦翼縁部ボス8にボルト孔4が設置され、縦翼縁部ボス8の板の厚さが周辺の板の厚さより大きい。   As shown in FIG. 1-2, as a preferred embodiment, the vertical scissor plate 2 is provided with a vertical blade edge boss 8 fixedly installed at a position extending outward along a vertical right-hand side. Bolt holes 4 are installed in the bosses 8 and the thickness of the longitudinal blade edge bosses 8 is larger than the thicknesses of the surrounding plates.

本発明の有益な効果は以下のとおりである。斜め板の設計により、斜め板、縦はさみ板及び横底面により三角形のキャビティが形成され、当該キャビティ化設計により、アルミニウム合金の力受けビーム連結部材の引っ張り強度及びねじれ抵抗性能を向上させ、直角三角形の斜面に矩形孔を開口することにより、ボルト孔が設置される直角にボルトを締結しやすく、着脱しやすいとともに、アルミニウム材の使用量を減らすことができる。直角三角形キャビティの2つの直角辺の長さを長くして翼縁部を形成し、翼縁部にボルト孔を開口することにより、ボルトの数を増加させ、連結部材のねじれ抵抗性能を向上させる。ボルト孔の位置でのアルミニウム板の厚さを厚くすることにより、主な力受け点としてのボルト接続箇所の力受け強度をも高める。上記のような革新的な設計は、アルミニウム材料の駐車施設の耐荷重ビームの連結部材に適用でき、利用効果に優れており、このタイプの連結部材を用いた耐荷重駐車施設は、荷重量が5トン以上に達することができ、既存の立体ガレージの適用に好適である。   The beneficial effects of the present invention are as follows. Due to the design of the diagonal plate, a triangular cavity is formed by the diagonal plate, the vertical scissors plate and the lateral bottom surface. By the design of the cavity, the tensile strength and torsion resistance performance of the force receiving beam connecting member of aluminum alloy is improved, and the right triangle By opening the rectangular hole on the slope, it is easy to fasten and detach the bolt at a right angle where the bolt hole is installed, and the amount of aluminum material used can be reduced. By increasing the length of the two right-angle sides of the right-angled triangular cavity to form a blade edge and opening bolt holes in the blade edge, the number of bolts is increased and the torsion resistance performance of the connecting member is improved. . By increasing the thickness of the aluminum plate at the position of the bolt hole, the force receiving strength at the bolt connecting point as the main force receiving point is also increased. The innovative design as described above can be applied to the load bearing beam connecting member of the parking facility made of aluminum material, and is excellent in utilization effect. The load bearing parking facility using this type of connecting member has a load amount of It can reach 5 tons or more and is suitable for application of existing solid garages.

Claims (4)

1つの横底面を含み、横底面には互いに平行な2枚の縦はさみ板が垂直に配置され、2枚の縦はさみ板の間の隙間は縦ビームをクランピングすることに用いられ、斜め板の一端が縦はさみ板に接続され、斜め板の他端が横底面に連続し、斜め板、横底面及び縦はさみ板により2つの直角三角形のキャビティが構成され、直角三角形のキャビティの同じ横断面位置での2つの直角面にボルト孔がそれぞれ設置され、同じ横断面位置での斜め板に矩形孔が設置されることを特徴とするアルミニウム合金の力受けビーム連結部材。   Two vertical scissors plates that include one horizontal bottom surface and are parallel to each other are arranged vertically on the horizontal bottom surface, and a gap between the two vertical scissor plates is used to clamp the vertical beam, and one end of the diagonal plate Is connected to the vertical scissor plate, the other end of the diagonal plate is connected to the lateral bottom surface, and two right triangle cavities are constituted by the diagonal plate, the horizontal bottom surface and the vertical scissor plate, and at the same cross-sectional position of the right triangle cavity. The aluminum alloy force receiving beam connecting member is characterized in that bolt holes are respectively installed in the two right-angled surfaces of the above and rectangular holes are installed in the oblique plate at the same cross-sectional position. 縦はさみ板の直角辺には厚さが周辺の板の厚さより大きいボルト孔ボスが設けられ、縦はさみ板でのボルト孔がボルト孔ボスに設置されることを特徴とする請求項1に記載のアルミニウム合金の力受けビーム連結部材。   The bolt hole boss having a thickness larger than the thickness of the surrounding plate is provided on the right side of the vertical scissor plate, and the bolt hole in the vertical scissor plate is installed in the bolt hole boss. Aluminum alloy force receiving beam connecting member. 前記横底面には、底面の直角辺に沿って外へ延びる位置に底面翼縁部が固定して設置され、底面翼縁部にボルト孔が設置されることを特徴とする請求項1〜2のいずれか1つに記載のアルミニウム合金の力受けビーム連結部材。   A bottom wing edge is fixedly installed on the lateral bottom surface at a position extending outward along a right side of the bottom surface, and a bolt hole is installed on the bottom wing edge. The force receiving beam connecting member of aluminum alloy according to any one of the above. 前記縦はさみ板には、縦直角辺に沿って外へ延びる位置に縦翼縁部ボスが固定して設置され、縦翼縁部ボスにボルト孔が設置され、縦翼縁部ボスの板の厚さが周辺の板の厚さより大きいことを特徴とする請求項1〜2のいずれか1つに記載のアルミニウム合金の力受けビーム連結部材。   A vertical blade edge boss is fixedly installed on the vertical scissor plate at a position extending outward along the vertical right-angle side, and a bolt hole is installed in the vertical blade edge boss. The force receiving beam connecting member of aluminum alloy according to any one of claims 1 to 2, wherein the thickness is larger than the thickness of a peripheral plate.
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CN201810256219.6A CN108488174A (en) 2018-03-27 2018-03-27 A kind of aluminium alloy stress beam connection

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CN103089771B (en) * 2013-02-13 2015-06-03 长沙洋华机电设备制造有限公司 T-shaped right angle connection piece of aluminium profile
CN205769637U (en) * 2016-05-19 2016-12-07 福建省南平铝业股份有限公司 A kind of aluminium section connecting pieces
CN206159197U (en) * 2016-10-21 2017-05-10 福建省闽铝轻量化汽车制造有限公司 Angle sign indicating number connection structure
CN106382285B (en) * 2016-10-31 2018-02-02 重庆华万伦电器有限公司 A kind of monoblock type aluminium section bar connection component

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