Infilled wall connecting mode with recoverable energy consumption function

Abstract

The invention discloses an infilled wall connecting mode with a recoverable energy consumption function. The infilled wall connecting mode comprises a frame, an infilled wall and at least one structural unit, wherein the structural unit comprises two pieces of T-shaped steel, the two pieces of T-shaped steel are parallel to each other and are connected between a frame beam and the infilled wall, the two pieces of T-shaped steel can move relatively and transversely, the two pieces of T-shaped steel are in bolted connection with the wall and a flange of the frame beam, the two sides of web plates of the two pieces of T-shaped steel are each provided with a friction outer plate which is in sliding friction with the two pieces of T-shaped steel, and the two friction outer plates are connected with the T-shaped steel through elastic reset assemblies. According to the infilled wall connecting mode, the energy dissipation effect is achieved through friction sliding between the web plates of the T-shaped steel and the friction outer plates, the self-reset function is achieved through the elastic reset assemblies, damage to the infilled wall can be effectively reduced or avoided through a mutual transverse dislocation mechanism of the two pieces of T-shaped steel, the energy dissipation function and the recoverable function of the steel frame-infilled wall structure are achieved, and the anti-seismic requirements of different levels can be met.

Description

Technical field [0001] The invention belongs to the field of civil engineering, involving a filling wall connection with a resumed energy consuming function. Background technique [0002] The frame-filled wall structure has the advantages of light weight, spatial separation, and easy to form large space, and is widely used in large public activity places. In actual engineering, in order to ensure that the stability of the wall is in its plane, the rigid connection is generally used between the filling wall and the frame, and the usual practice is to set a puller between the fill wall and the frame, or in the masonry. The masonry of the masonry is used in the wall when the wall is filled to strengthen the contact between the fill wall and the frame. However, this rigid connection does not have energy consuming ability and is not convenient to disassemble, which not only increases the risk of destruction of the wall, but also causes difficulties in the repair work after the earthqu...

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Problems solved by technology

[0004] In view of the shortcomings of the prior art described above, the purpose of the present invention is to provide a filling wall connection method with a recoverable energy dissipation function, which is used to solve the problem of severe deformation of building components after an earthquake and difficulty in recovery in the prior art. question

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