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A cold-formed steel composite constrained cross-shaped energy-dissipating inner core buckling-resistant support member

An anti-buckling bracing, cold-formed steel technology, applied in building components, earthquake resistance, building types, etc., can solve the problems of affecting construction progress, difficult to control processing accuracy, and high requirements for manufacturing accuracy, achieving large flexibility and selection range, preventing Overall instability and friction reduction effect

Active Publication Date: 2021-06-25
CHINA UNIV OF MINING & TECH +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] The purpose of the invention is to provide a cold-formed steel combined restraint cross-shaped energy-dissipating inner core anti-buckling supporting member. The advantages of high-order buckling development of the core member and the need for smoothing the edges of the inner core member. When the structure encounters a horizontal earthquake, the cold-formed steel combination restrains the cross-shaped energy-dissipating inner core buckling-resistant brace to increase the horizontal lateral stiffness of the structure. Reduce the inter-layer displacement of the structure and meet the requirements of the code to solve the high precision requirements for the reinforced concrete or steel pipe concrete outer restraint buckling support proposed in the above background technology, the difficulty of wet construction such as concrete pouring, and the need for concrete maintenance to affect the construction progress. All-steel The externally constrained anti-buckling support requires additional processing for the energy-dissipating inner core with chamfers, and the stability and processing accuracy of the constrained members are difficult to control, etc.

Method used

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  • A cold-formed steel composite constrained cross-shaped energy-dissipating inner core buckling-resistant support member
  • A cold-formed steel composite constrained cross-shaped energy-dissipating inner core buckling-resistant support member
  • A cold-formed steel composite constrained cross-shaped energy-dissipating inner core buckling-resistant support member

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Experimental program
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Effect test

Embodiment 1

[0039] see Figure 1-8 , a cold-formed steel composite constrained cross-shaped energy-dissipating inner core anti-buckling support member, including a cross-shaped energy-dissipating inner core member 1 and a peripheral cold-formed steel composite restraining member 2, and the cross-shaped energy-dissipating inner core member 1 is located at the outer cold-formed Inside the section steel combination constraining member 2, the cross-shaped energy-dissipating inner core member 1 is formed by welding a total of three variable-section steel plates, one large steel plate 11 and two small steel plates 12, through fillet welds, among which the large steel plate 11 and the small steel plate 12 have the same thickness, and the section width at the end of the large steel plate 11 is the sum of the section width and plate thickness of the two small steel plates 12. 1 Including the yield section, the end connection section and the transition section between them, each steel plate is divi...

Embodiment 2

[0041] see Figure 9-10 , this embodiment is the same as the peripheral cold-formed steel combined constraining member 2 of embodiment 1, the difference lies in the structure of the cross-shaped energy-dissipating inner core member 1, and the cross-shaped energy-dissipating inner core member 1 consists of three first The equal section steel plate 13 and the number of eight first variable section steel plates 14 are formed by welding, the first equal section steel plate 13 is composed of one first equal section large steel plate 131 and two first equal section small steel plates 131. The steel plates 132 are welded, the first equal section large steel plate 131 and the first equal cross section small steel plate 132 have the same section thickness, and the first equal cross section large steel plate 131 has twice the width of the first equal cross section small steel plate 132 and between the plate thickness And, the middle part of the first large steel plate 131 of equal cross...

Embodiment 3

[0043] see Figure 11-12 , this embodiment is the same as the peripheral cold-formed steel combined constraining member 2 of Embodiment 1 and Embodiment 2, the difference lies in the structure of the cross-shaped energy-dissipating inner core member 1, and the cross-shaped energy-dissipating inner core member 1 is composed of the second etc. The section steel plate 15 and the second variable-section steel plate 16 are formed by welding, and the second equal-section steel plate 15 is welded by a second equal-section large steel plate 151 and two second equal-section small steel plates 152. The second variable-section steel plate 16 is welded by a second variable-section large steel plate 161 and two second variable-section small steel plates 162 in quantity. The width is the sum of twice the width of the second variable-section small steel plate 162 and the thickness of the plate, and the width of the second equal-section large steel plate 151 is the sum of twice the width of t...

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Abstract

The invention discloses a cold-formed steel combination constrained cross-shaped energy-dissipating inner core anti-buckling support member, which includes a cross-shaped energy-dissipating inner core member and a peripheral cold-formed steel combined restraining member, and the number of the cross-shaped energy-dissipating inner core member is one piece The large steel plate and two small steel plates are three variable-section steel plates welded by fillet welds, and the outer cold-formed steel combination constraining members are composed of two sets of cold-formed channel steel and four sets of cold-formed channel steel The angle steel is welded into a "Tian" shape, and the cross-shaped energy-dissipating inner core member is snapped into the slots at both ends of the peripheral cold-formed steel composite restraint member. The invention has strong integrity of the cold-formed steel composite restraint member and can fully exert its working performance , The design of cold-formed angle steel can effectively ensure the development of high-order buckling of the inner core member, and the edge of the inner core member does not need to be smoothed. Reduce the inter-story displacement of the structure and meet the specification requirements.

Description

technical field [0001] The invention relates to the technical field of anti-seismic disaster prevention and mitigation of building structures, in particular to a buckling-proof support member of a cold-formed steel combined constraint cross-shaped energy-dissipating inner core. Background technique [0002] The pure frame system has limited stiffness against lateral movement, and most of them are severely damaged when encountering strong earthquakes, making the buildings unusable. In order to meet the structural interstory displacement limit under the action of horizontal load, the pure frame system increases its anti-sway stiffness by increasing the cross-sectional size of beams and columns, which is a kind of "hard resistance". It not only wastes resources, but also limits the application of pure frame system to a certain extent. As a structural system with good ductility, the frame support system is often used in earthquake-resistant structures. However, under the action...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E04B1/98E04H9/02
CPCE04H9/021
Inventor 王琨夏军武韩有民梁向洲
Owner CHINA UNIV OF MINING & TECH
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