Search

CN-224213519-U - Diagonal bracing steel structure connecting assembly

CN224213519UCN 224213519 UCN224213519 UCN 224213519UCN-224213519-U

Abstract

The utility model discloses an inclined strut steel structure connecting component which comprises an inclined strut and connecting seats arranged at two ends of the inclined strut, wherein the connecting seats are slidably arranged on the inclined strut, locking screws are respectively screwed on the side walls of the connecting seats, and the inclined strut and the connecting seats can be fixedly connected through the locking screws arranged in the connecting seats. According to the inclined strut steel structure connecting component, through the design of the slidable connecting seat, the connecting position can be flexibly adjusted according to the on-site construction error, the installation difficulty is effectively reduced, the construction time and the labor cost waste are reduced, the connecting quality is ensured, the construction efficiency and the quality level of a steel structure building are improved, and the stability and the reliability of the whole steel structure building are enhanced.

Inventors

  • MA CONGCONG
  • MA JIAOJIAO
  • WANG XINZHE

Assignees

  • 江苏合鸿胜科技发展有限公司

Dates

Publication Date
20260508
Application Date
20250605

Claims (10)

  1. 1. The diagonal bracing steel structure connecting assembly comprises a diagonal bracing (1) and connecting seats (2) arranged at two ends of the diagonal bracing (1), and is characterized in that the connecting seats (2) are slidably arranged on the diagonal bracing (1), locking screws (3) are respectively screwed on the side walls of the connecting seats (2), and the diagonal bracing (1) and the connecting seats (2) can be fixedly connected through the locking screws (3) which are arranged in the connecting seats (2).
  2. 2. The diagonal bracing steel structure connection assembly according to claim 1, wherein on the connection surface of the diagonal bracing (1) and the connection seat (2), a connection groove (11) is formed on the diagonal bracing (1) side, and a connection block (4) matched with the connection groove (11) is arranged on the connection seat (2) side.
  3. 3. The diagonal bracing steel structure connecting assembly according to claim 2, wherein the connecting groove (11) is a dovetail groove, and the shape of the connecting block (4) is the same as that of the dovetail groove.
  4. 4. The diagonal bracing steel structure connection assembly according to claim 2 or 3, wherein the openings at both ends of the connection groove (11) are provided with bevel angles.
  5. 5. A diagonal bracing steel structure connection assembly according to claim 2 or 3, wherein the connection block (4) is integrally formed with the connection base (2).
  6. 6. The diagonal bracing steel structure connecting assembly according to claim 2, wherein a dividing groove (41) is formed in the bottom surface of the connecting block (4), and the dividing groove (41) is formed in the same direction as the connecting groove (11).
  7. 7. The diagonal bracing steel structure connecting member according to claim 6, wherein the two ends of the connecting block (4) are respectively provided with a threaded hole (42) for the locking screw (3) to rotate inwards, wherein the connecting block (4) parts positioned at the two sides of the dividing groove (41) can be extruded outwards along with the rotation of the locking screw (3) to the connecting block (4).
  8. 8. The bracing steel structure connection assembly according to claim 7, wherein the screw hole (42) is a tapered hole whose aperture is gradually reduced from the outside to the inside.
  9. 9. The diagonal bracing steel structure connection assembly according to claim 1 or 7, wherein the locking screw (3) is a headless screw.
  10. 10. The diagonal bracing steel structure connecting assembly according to claim 1, wherein locking holes (21) are respectively formed in two groups of connecting seats (2), and the locking holes (21) in one group of connecting seats (2) are oblong holes.

Description

Diagonal bracing steel structure connecting assembly Technical Field The utility model belongs to the field of steel structure connectors, and particularly relates to a diagonal bracing steel structure connecting component. Background In steel construction building systems, diagonal braces play an irreplaceable role as a vital connecting member. The side load bearing capacity of the steel frame is remarkably enhanced by skillfully utilizing the stability principle of the triangular structure through the connection mode of forming triangular distribution with the steel frame. The design not only greatly improves the supporting strength of the whole steel structure building, so that the steel structure building can be used for coping with various complicated external stress conditions, but also effectively enhances the connection stability between the steel structures, and each structural component is tightly cooperated to form an organic whole. Owing to the advantages, the steel structure building shows excellent anti-tilting performance when facing external forces which possibly cause tilting, such as wind power, earthquake and the like, and provides firm guarantee for safety and reliability of the building. In the installation process of the diagonal bracing, the connecting seats at the two ends play a key role. The diagonal braces are flatly attached and fixed with the steel frame through the two connecting seats, and the tight connection between the diagonal braces and the steel frame is ensured by the fixing mode. It is noted that conventional diagonal bracing structures are generally of a fixed design, which, while ensuring structural stability to some extent, presents a significant problem in that the connection locations of the two ends of the diagonal bracing are difficult to adjust. In the actual construction process, various construction errors can be generated due to complex and changeable site construction environments. However, the conventional fixed diagonal bracing cannot be flexibly adjusted according to the errors, so that the situation that the connection positions of the diagonal bracing and the steel frame are not matched in the installation process possibly occurs, the installation difficulty is greatly increased, and the quality and the safety of the whole steel structure building can be even affected. Disclosure of utility model In order to solve the problems in the prior art, the utility model aims to provide the diagonal bracing steel structure connecting component so as to reduce the construction time and labor cost waste caused by construction error adjustment, ensure the connecting quality and improve the construction efficiency and quality level of a steel structure building. In order to achieve the technical purposes and effects, the utility model is realized by the following technical scheme: The utility model provides a bracing steel construction coupling assembling, is in including bracing and setting the connecting seat at bracing both ends, the connecting seat slidable sets up on the bracing, and be equipped with the lock screw on the lateral wall of connecting seat soon respectively, through to the connecting seat internal rotation establish lock screw can with link firmly between the bracing with the connecting seat. Furthermore, on the connection surface of the diagonal brace and the connection seat, a connection groove is formed on the diagonal brace side, and a connection block matched with the connection groove is arranged on the connection seat side. Furthermore, the connecting grooves are dovetail grooves, and the shapes of the connecting blocks are the same as those of the dovetail grooves. Further, oblique angles are arranged at openings at two ends of the connecting groove. Further, the connecting block and the connecting seat are integrally formed. Furthermore, a dividing groove is formed in the bottom surface of the connecting block, and the forming direction of the dividing groove is consistent with the forming direction of the connecting groove. Further, a threaded hole is formed in each of two ends of the connecting block, through which the locking screw is screwed inwards, wherein the connecting block portions located on two sides of the dividing groove can be extruded outwards along with the screwing of the locking screw to the connecting block. Further, the threaded hole is a conical hole, and the hole diameter of the threaded hole is gradually reduced from outside to inside. Furthermore, the locking screw is a headless screw. Furthermore, locking holes are respectively formed in the two groups of connecting seats, and one group of locking holes in the connecting seats are oblong holes. The inclined strut steel structure connecting component has the beneficial effects that the connecting position can be flexibly adjusted according to the site construction error through the design of the slidable connecting seat, the installation difficulty is effectively