WO2022057643A1

WO2022057643A1 - Assembly-type beam-column connection joint based on corrugated plate lateral-resistant special-shaped column

Info

Publication number: WO2022057643A1
Application number: PCT/CN2021/116460
Authority: WO
Inventors: 姜子钦; 李祥源; 张爱林; 王汉文; 陈鑫
Original assignee: 北京工业大学
Priority date: 2020-09-18
Filing date: 2021-09-03
Publication date: 2022-03-24
Also published as: CN112160420A

Abstract

Disclosed is an assembly-type beam-column connection joint based on a corrugated plate lateral-resistant special-shaped column, belonging to the technical field of structural engineering. The beam-column connection joint of the present invention is composed of a corrugated plate lateral-resistant special-shaped column, I-beams with end plates, and a beam-column-column connection member with a protruding column. The manufacturing and welding of steel components are completed in a factory, such that the welding and component quality is easy to control; and only the steel components need to be hoisted and connected by high-strength bolts on a construction site, such that the construction efficiency is high. The connection joint of the present invention has the advantages of mechanical properties and practical performance at the same time: in terms of the mechanical properties, in the present invention, the bearing capability and lateral stiffness of the special-shaped column are fully utilized, and the special-shaped column has a good anti-seismic property; and in terms of the practical performance, the present invention focuses on realizing a rapid assembly concept and solving the problem of a "protruding column" in a house.

Description

A prefabricated beam-column connection node based on corrugated plate anti-lateral special-shaped column

technical field

The patent relates to an assembled beam-column connection node based on a corrugated plate anti-lateral special-shaped column, which belongs to the technical field of structural engineering.

Background technique

The development of steel structure buildings is closely related to the development of the industrialization of steel structure houses. To realize the industrialization of steel structure houses, the standardization of parts and components must be realized. At present, high-rise buildings are the main direction of my country's construction industry. Therefore, a method suitable for high-rise buildings is proposed. The new high-efficiency prefabricated standardized steel structure system and the prefabricated standardized components based on the new type of steel structure system are the basis for realizing the industrialization of steel structure housing and promoting the development of steel structure buildings.

At present, there are a large number of welds in the rigid beam-column joints of plate-reinforced type and flange-enlarged type that are often used in high-rise steel structure industry and civil buildings. Brittle failure of beam-column joints occurs before plastic hinges are formed, resulting in serious economic losses and casualties. In addition, these traditional joint connection methods require on-site welding operations, slow construction speed, and low assembly rate, which greatly limits prefabricated high-rise steel. With the development of structural system, there is an urgent need to propose a prefabricated beam-column joint that can reduce construction site welding and have sufficient bearing capacity and seismic performance. Existing studies have shown that steel special-shaped columns with corrugated plates have the advantages of light weight, high ductility, high bearing efficiency, and good seismic performance, and can be used as the main force-bearing members in high-rise steel structure systems. In addition, the assembled beam-column joint formed by connecting the beam member and the full-length special-shaped column with high-strength bolts can reduce the influence of welding residual stress and prevent the joint from premature brittle failure under the premise of ensuring the seismic performance and bearing capacity of the joint. , it can also ensure high assembly efficiency; by adjusting the thickness of special-shaped columns and I-shaped beams, the occurrence of plastic hinges at the beam ends can be controlled, so as to ensure the safety of the structure and meet the requirements of "strong joints and weak members" and "strong columns". Weak beam" design requirements. In order to meet the above requirements, the present invention proposes an assembled beam-column connection node based on a corrugated plate anti-lateral special-shaped column.

The prefabricated connection node is composed of corrugated plate anti-lateral special-shaped columns, I-shaped beams with end plates, beam-column-column connectors with protruding columns and high-strength bolt groups; , flange end plate and channel steel; the end of the I-shaped beam is welded with an end plate with bolt holes, and the lower flange of the I-shaped beam reserves bolt holes; the cross-shaped beam-column-column connection with a protruding column The parts are composed of upper and lower protruding square steel pipe columns, Chinese square steel pipe columns, flange connecting plates and flat plates with bolt holes; the cross-shaped beam-column-column connecting parts with protruding columns and the corrugated plate anti-side special-shaped columns above and below Connected by high-strength bolt groups, the I-shaped beams with end plates are connected with corrugated plate anti-side special-shaped columns and cross-shaped beam-column-column connectors with protruding columns through high-strength bolt groups to form prefabricated beam-column connection nodes.

The force transmission path of the beam-column connection node is smooth, and the special-shaped column has good seismic performance and bearing capacity, and also has high assembly efficiency. By adjusting the thickness ratio of the steel members, the plastic hinge of the joint can be moved outwards, thereby protecting the beam-column joint.

SUMMARY OF THE INVENTION

The patent of the present invention proposes a prefabricated beam-column connection node based on a corrugated plate anti-side special-shaped column. A beam-column joint device that resists lateral stiffness, improves the lateral stability of components, and realizes the outward movement of plastic hinges.

To achieve the above purpose, the present invention provides the following technical solutions:

A prefabricated beam-column connection node based on a corrugated plate anti-lateral special-shaped column, characterized in that: the connecting node comprises a corrugated plate anti-lateral special-shaped column, an I-shaped beam with an end plate, and a beam-column-column connection with a protruding column parts and high-strength bolt groups; the corrugated plate anti-side special-shaped column includes a corrugated web-shaped steel column, a channel steel and a flange end plate; the corrugated web-shaped steel column includes a corrugated plate, an outer flange plate and an inner flange plate; The corrugated plate is located between the outer flange plate and the inner flange plate, the corrugation direction is longitudinal, and the width of the corrugated plate should not be greater than twice the width of the square steel pipe column wall plate; the corrugated plate, the outer flange plate and the inner flange plate The heights of the side flange plates are equal, the center line of the corrugated plate, the center line of the inner flange plate and the center line of the outer flange plate are in the same plane, and the corrugated plate is welded with the inner flange plate and the outer flange plate to form a corrugated web steel column ; The flange end plate is welded by flange connecting plate and a flat plate with bolt holes; the inner flange plate of the corrugated web-shaped steel column and the channel steel are welded into a corrugated plate anti-side special-shaped column, and the flange end The plate is welded at the end of the special-shaped column to form a corrugated plate anti-side special-shaped column, the flange end plate at the bottom of the corrugated plate anti-side special-shaped column does not protrude, and the flange end plate at the top of the corrugated plate anti-side special-shaped column extends; The I-shaped beam of the end plate includes an end plate and an I-shaped beam; the end plate has reserved bolt holes and is welded on the end of the I-shaped beam; the lower flange of the I-shaped beam has reserved bolt holes; The beam-column-column connection of the protruding column is welded by an upper steel tube column, a central steel tube column, a lower steel tube column, a cantilever beam section with stiffeners and two flanges, all plates are flat plates , the upper steel pipe column and the lower steel pipe column are used as the protruding columns of the connecting piece, and their inner dimensions are the same as that of the middle steel column, and the outer dimensions of the upper and lower steel columns are the same as the inner dimensions of the square steel column in the special-shaped column. , the outer dimension of the Chinese steel pipe column is the same as the outer dimension of the square steel pipe column in the special-shaped column, the inner sides of the upper steel pipe column, the middle steel pipe column and the lower steel pipe column are aligned, and the two flanges are welded on the upper and lower steel pipe columns respectively. Between the lower steel tube column and the central steel tube column, the upper and lower flanges of the cantilever beam section with stiffeners are flush with the surface of the flange, and are welded on the side of the inner steel tube column to form a beam-column-column connection with a protruding column The beam-column-column connector with the protruding column is connected with the corrugated plate anti-lateral special-shaped column above and below through the first high-strength bolt group, and the I-shaped beam with end plate is connected with the corrugated plate anti-column through two high-strength bolt groups. The flange end plate of the side special-shaped column is connected, the I-shaped beam with end plate is connected with the outer flange plate of the corrugated plate anti-side special-shaped column through the third high-strength bolt group, and the I-shaped beam with end plate is connected by four High-strength bolt groups are connected with beam-column-column connectors with protruding columns to form prefabricated beam-column connection nodes

As a further scheme of the present invention: the corrugated shape of the corrugated plate is a sine wave form, a triangular wave form, a trapezoidal wave form or a right-angle wave form; the structural form of the corrugated plate is a single-layer corrugated plate or a double-layer corrugated plate.

Compared with the prior art, the advantages of the patent of this application are mainly in the following aspects:

1. The special-shaped column of the patent application has reasonable force and flow transmission, clear force, simple components and convenient design. The special-shaped column adopts the corrugated plate anti-side structure. The inner flange plate, the outer flange plate, the channel steel and the corrugated plate are combined to form a complete anti-side section. When bearing horizontal loads, the combined anti-side section provides enough for the special-shaped column. The lateral stiffness of the special-shaped column effectively reduces the interlayer lateral displacement of the special-shaped column. The special-shaped column described in the patent of this application has sufficient lateral stiffness while ensuring the vertical bearing capacity. It is a special-shaped column member between frame columns and shear walls. Compared with structural columns in common steel frames , has higher lateral stiffness and vertical and horizontal bearing capacity, can effectively reduce the lateral deformation of the steel structure, and reduce the damage of the enclosure structure; compared with the shear wall in the shear wall structure, this application The special-shaped column described in the patent has good seismic performance, and at the same time has the advantages of light weight, simple connection, quick assembly and flexible spatial arrangement.

2. The beam-column-column connector with a protruding column is connected to the special-shaped column and the I-shaped beam through the high-strength bolt group at the construction site, and the installation is fast, which reduces the welding seam quality caused by the poor welding environment at the construction site. Problem; the beam-column-column connector with a protruding column can adjust the thickness of its own plate to ensure that the plastic damage of the I-shaped beam occurs before the connector, so as to achieve the purpose of transferring the plastic hinge; the end of the I-shaped beam and the beam-column- The connection of the column connector, the upper special-shaped column and the lower special-shaped column is beneficial to improve the integrity of the overall structure.

3. The corrugated plate in the special-shaped column described in the patent of this application can still maintain good out-of-plane stability when its own thickness is small, and at the same time improve the overall out-of-plane stability of the special-shaped column, which can be guaranteed with a lower amount of steel Reasonable section height of special-shaped column greatly improves the use efficiency of steel and has good economy.

4. The cross-sectional width of the component in the special-shaped column and the cross-sectional width of the I-shaped beam described in the patent of this application are not greater than the thickness of the wall in the building, which effectively solves the problem of "protruding column", saves the building space, and has good aesthetics. sex.

Description of drawings

Fig. 1 is a three-dimensional diagram of a fabricated beam-column connection node based on a corrugated plate anti-lateral special-shaped column;

Fig. 2 is a kind of disassembled diagram of the prefabricated beam-column connection node based on the corrugated plate anti-lateral special-shaped column;

Figure 3 is a cross-sectional view of a fabricated beam-column connection node based on a corrugated plate anti-lateral special-shaped column;

4 is a schematic diagram of the structural parameters of a fabricated beam-column connection node based on a corrugated plate anti-lateral special-shaped column;

Fig. 5 is a kind of corrugated plate schematic diagram of the assembled beam-column connection node based on the corrugated plate anti-side special-shaped column;

6 is a schematic diagram of the bottom split of a corrugated anti-side special-shaped column of a prefabricated beam-column connection node based on a corrugated plate anti-side special-shaped column;

Fig. 7 is a schematic diagram of the top splitting of the corrugated anti-side special-shaped column of the prefabricated beam-column connection node based on the corrugated plate anti-side special-shaped column;

8 is a schematic diagram of disassembling a cross-shaped beam-column-column connector with a protruding column of a prefabricated beam-column connection node based on a corrugated plate anti-lateral special-shaped column;

Fig. 9 is a kind of disassembly schematic diagram of the I-beam with end plate of the assembled beam-column connection node based on the corrugated plate anti-side special-shaped column;

detailed description

The embodiments of the present patent will be described in detail below with reference to FIGS. 1 to 9 .

As shown in Figures 1 to 9, a fabricated beam-column connection node based on a corrugated plate anti-lateral special-shaped column includes the following components:

1——Corrugated plate anti-side special-shaped column

2 - Beam-column-column connectors with protruding columns

3 - I-beams with end plates

4 - The first high-strength bolt group

5——The second high-strength bolt group

6 - The third high-strength bolt group

7—The fourth high-strength bolt group

8 - channel steel

9 - Outer Flange Plate

10 - Inboard flange plate

11 - corrugated board

12 - Flange end plate

13 - end plate

14 - I-beam

15——The upper steel pipe column

16 - Chinese steel pipe column

17——The lower steel pipe column

18 - Cantilever beam segment with stiffeners

19 - Flange

The specific connection mode of the beam-column-column connector of the present invention will be described in detail with reference to the accompanying drawings.

The components of the beam-column connection node of the present invention include: a corrugated plate anti-lateral special-shaped column (1), a beam-column-column connector (2) with a protruding column, an I-shaped beam (3) with an end plate, and a first high-strength bolt group (4), a second high-strength bolt group (5), a third high-strength bolt group (6) and a fourth high-strength bolt group (7). The corrugated plate anti-side special-shaped column composed of channel steel (8), outer flange plate (9), inner flange plate (10), corrugated plate (11) and flange end plate (12) is composed of end plate ( 13) I-shaped beam (3) with end plate composed of I-shaped beam (14) and cantilever with upper steel pipe column (15), middle square steel pipe column (16), lower steel pipe column (17), and stiffeners The beam section (18) and the flange plate (19) form the beam-column-column connector (2) with a protruding column and are prefabricated in the factory; then the prefabricated steel components are transported to the construction site for installation and connected with high-strength bolt groups.

As shown in Figures 1 to 3, when assembling, first hoist the corrugated plate anti-side special-shaped column (1) below the beam-column-column connector (2) with a protruding column, and then assemble the beam-column-column with a protruding column. The lower steel pipe column (17) in the connecting piece (2) is inserted into the lower corrugated plate anti-side special-shaped column (1), and the beam-column-column connecting piece (2) with the protruding column is connected with the first high-strength bolt group (4) through the first high-strength bolt group (4). Connect the corrugated plate anti-side special-shaped column (1) below it, and then insert the corrugated plate anti-side special-shaped column (1) above the beam-column-column connector (2) with the protruding column into the beam-column-column connection with the protruding column The upper steel pipe column (15) of the piece (2), the beam-column-column connecting piece (2) with the protruding column is connected with the corrugated plate anti-side special-shaped column (1) above it through the first high-strength bolt group (4), Finally, the I-shaped beam (3) with end plate is hoisted on the flange end plate (12) protruding from the corrugated plate anti-side special-shaped column (1), and the I-shaped beam (14) is fixed by the second high-strength bolt group (5). ) The lower flange is connected with the flange end plate (12) protruding from the anti-side special-shaped column of the corrugated plate, and the end plate (13) is connected with the outer flange plate (9) through the third high-strength bolt group (6). Four high-strength bolt groups (7) connect the end plate (13) and the beam-column-column connector (2) with a protruding column to form an assembled beam-column node connection node.

As shown in Figure 4, the figure shows the thickness of the corrugated plate, the height of the corrugated plate, the width of the corrugated plate, the center line of the corrugated plate, the width of the outer flange plate, the height of the outer flange plate, the center line of the outer flange plate, and the inner flange Definition of plate height, inner flange plate width, inner flange plate centerline, plane and longitudinal direction of corrugated plate centerline. The corrugated plate (11) is located between the outer flange plate (9) and the inner flange plate (10), the corrugation direction is longitudinal, and the width of the corrugated plate should not be greater than twice the width of the square steel pipe column wall plate; the The heights of the corrugated plate, the outer flange plate and the inner flange plate are equal, and the center line of the corrugated plate, the center line of the inner flange plate and the center line of the outer flange plate are located in the same plane.

As shown in Fig. 5, the corrugated plate (3) adopts a sine wave form, a triangular wave form, a trapezoid wave form, a right-angle wave form or a spliced double trapezoid wave form. The double-layer trapezoidal corrugated corrugated board is composed of two trapezoidal corrugated corrugated boards welded and connected at the contact point of the edge of the board.

As shown in Figures 6 and 7, the corrugated plate anti-side profiled column (1) includes a channel steel (8), an outer flange plate (9), an inner flange plate (10), a corrugated plate (11) and a flange end plate (12). Wherein the corrugated plate (11) is located between the outer flange plate (9) and the inner flange plate (10), the corrugation direction is longitudinal, the center line of the corrugated plate (11) is aligned with the center line of the width direction of the flange plates on both sides, The outer flange plate (9), the inner flange plate (10) and the corrugated plate (11) are welded to form a corrugated web-shaped steel column. The inner flange plate (10) of the corrugated web-shaped steel column and the channel steel (8) form a special-shaped column. Flanged end plates (12) are welded at the ends of the special-shaped columns to form a corrugated plate anti-side special-shaped column (1). The flange end plate (12) at the top of the anti-side special-shaped column protrudes outward.

As shown in Figure 8, the beam-column-column connector (2) with a protruding column consists of an upper steel tube column (15), a middle steel tube column (16), a lower steel tube column (17), a The cantilever beam section (18) and two flanges (19) are welded.

As shown in Fig. 9, the I-beam (3) with end plate includes an end plate (13) and an I-beam (14). Bolt holes are reserved on the end plate (13) and the I-shaped beam (14), and the end plate (13) is welded on the end of the I-shaped beam (14).

Claims

A prefabricated beam-column connection node based on a corrugated plate anti-lateral special-shaped column, characterized in that: the connecting node comprises a corrugated plate anti-lateral special-shaped column, an I-shaped beam with an end plate, and a beam-column-column connection with a protruding column parts and high-strength bolt groups; the corrugated plate anti-side special-shaped column includes a corrugated web-shaped steel column, a channel steel and a flange end plate; the corrugated web-shaped steel column includes a corrugated plate, an outer flange plate and an inner flange plate; The corrugated plate is located between the outer flange plate and the inner flange plate, the corrugation direction is longitudinal, and the width of the corrugated plate should not be greater than twice the width of the square steel pipe column wall plate; the corrugated plate, the outer flange plate and the inner flange plate The heights of the side flange plates are equal, the center line of the corrugated plate, the center line of the inner flange plate and the center line of the outer flange plate are in the same plane, and the corrugated plate is welded with the inner flange plate and the outer flange plate to form a corrugated web steel column ; The flange end plate is welded by flange connecting plate and a flat plate with bolt holes; the inner flange plate of the corrugated web-shaped steel column and the channel steel are welded into a corrugated plate anti-side special-shaped column, and the flange end The plate is welded at the end of the special-shaped column to form a corrugated plate anti-side special-shaped column, the flange end plate at the bottom of the corrugated plate anti-side special-shaped column does not protrude, and the flange end plate at the top of the corrugated plate anti-side special-shaped column extends; The I-shaped beam of the end plate includes an end plate and an I-shaped beam; the end plate has reserved bolt holes and is welded on the end of the I-shaped beam; the lower flange of the I-shaped beam has reserved bolt holes; The beam-column-column connection of the protruding column is welded by an upper steel tube column, a central steel tube column, a lower steel tube column, a cantilever beam section with stiffeners and two flanges, all plates are flat plates , the upper steel pipe column and the lower steel pipe column are used as the protruding columns of the connecting piece, and their inner dimensions are the same as that of the middle steel column, and the outer dimensions of the upper and lower steel columns are the same as the inner dimensions of the square steel column in the special-shaped column. , the outer dimension of the Chinese steel pipe column is the same as the outer dimension of the square steel pipe column in the special-shaped column, the inner sides of the upper steel pipe column, the middle steel pipe column and the lower steel pipe column are aligned, and the two flanges are welded on the upper and lower steel pipe columns respectively. Between the lower steel tube column and the central steel tube column, the upper and lower flanges of the cantilever beam section with stiffeners are flush with the surface of the flange, and are welded on the side of the inner steel tube column to form a beam-column-column connection with a protruding column The beam-column-column connector with the protruding column is connected with the corrugated plate anti-lateral special-shaped column above and below through the first high-strength bolt group, and the I-shaped beam with the end plate is connected with the corrugated plate through the second high-strength bolt group The flange end plate of the anti-side special-shaped column is connected, the I-shaped beam with the end plate is connected with the outer flange plate of the corrugated plate anti-side special-shaped column through the third high-strength bolt group, and the I-shaped beam with the end plate passes through The fourth high-strength bolt group is connected with the beam-column-column connector with a protruding column to form an assembled beam-column connection node.
The beam-column connection node according to claim 1 is characterized in that: the corrugated shape of the corrugated plate is a sinusoidal wave form, a triangular wave form, a trapezoidal wave form or a right-angle wave form; the structural form of the corrugated plate is a single layer Corrugated board or double-layer corrugated board.