CN214884383U - Cross-shaped node structure for splicing frame beams and columns - Google Patents

Abstract

The utility model discloses a cross node structure for splicing frame beams and columns, which solves the problem of splicing frame beams and columns in large-scale assembly, ensures the connection quality and improves the assembly efficiency; the technical scheme is as follows: the utility model provides a cross node structure for concatenation of frame beam column, includes the cylindricality framework, the fixed four connecting seats that are provided with, four on the lateral wall of cylindricality framework the connecting seat is the cross and distributes, the connecting seat is the echelonment that distributes downwards, just the connecting seat also is the frame structure, be provided with on the connecting seat and be used for being connected fixed connecting hole with other panels, the annular is provided with two brace tables on the lateral wall of cylindricality framework, two distribute about the brace table, and two the brace table is neat with the last lower extreme of connecting seat respectively, the connecting seat is one side open-ended frame structure, the opening side of frame structure is used for twisting and connects the connecting bolt on the face, the utility model discloses wide application in steel structural connection technical field.

Description

Cross-shaped node structure for splicing frame beams and columns

Technical Field

The utility model relates to a cross node structure for concatenation of frame beam column belongs to steel construction connection technical field.

Background

With the continuous progress and development of modern industrialization, the assembly type building is popularized and applied. The assembly type building is to assemble beam, column, plate and other steel structure prefabricated components on the site of a construction site, the beam and column connection is used for guaranteeing strong node and weak component, the existing node size is large, great influence is caused on subsequent decoration, the positioning error is large, the assembly operation of workers is inconvenient, the installation efficiency is low, and the assembly type building is not suitable for large-scale assembly.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes prior art exists not enough, provides a cross node structure for frame beam column concatenation, has solved the problem of frame beam column concatenation in the scale assembly, has guaranteed connection quality, has improved assembly efficiency.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a cross node structure for concatenation of frame beam column, includes the cylindricality framework, the fixed four connecting seats that are provided with, four on the lateral wall of cylindricality framework the connecting seat is the cross and distributes, the connecting seat is the echelonment that distributes downwards, just the connecting seat also is the frame structure, be provided with on the connecting seat and be used for being connected fixed connecting hole with other panels, the annular is provided with two brace tables on the lateral wall of cylindricality framework, two distribute from top to bottom the brace table, and two the brace table is aligned with the last lower extreme of connecting seat respectively, the connecting seat is one side open-ended frame structure, the opening side of frame structure is used for twisting to connect the connecting bolt on the face of connecting.

When the cylindrical frame body is of a frame body structure with a square cross section, the four connecting seats are respectively fixedly arranged on the four side walls of the cylindrical frame body.

The ladder-shaped structure of the connecting seat is provided with at least two layers for supporting and connecting and fixing other plates.

The cylindrical frame body, the connecting seat and the supporting platform are integrally formed or are fixed by welding.

The connecting seat includes baffle, connecting plate and backup pad, the baffle is cross, and the level sets up a plurality of the baffle is fixed on the cylindricality framework at the interval in vertical direction, is provided with connecting plate and backup pad between two adjacent baffles, baffle, connecting plate and backup pad are gone up or are provided with the connecting hole alone or the combination in, wherein, the lateral wall setting of baffle protrusion cylindricality framework forms a supporting bench.

The partition plates of the two connecting seats are of an integrally formed structure, the cylindrical frame body is divided into a plurality of groups of cylindrical frame body units by the partition plates, and the plurality of groups of cylindrical frame body units are connected and fixed with the partition plates in sequence.

And a through hole is formed in the partition plate positioned in the cylindrical frame body.

Compared with the prior art, the utility model beneficial effect who has is: the utility model discloses utilize the stand that the lower extreme grafting corresponds on the cylindricality framework, the stairstepping connecting seat is connected fixedly with the crossbeam that corresponds, provides the solution for the problem of frame beam column concatenation in the scale assembly to guaranteed connection quality, improved assembly efficiency.

Drawings

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention, i.e., a perspective view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is an exploded view of the present invention.

In the figure: 1 is a cylindrical frame body, 2 is a connecting seat, 21 is a clapboard, 22 is a connecting plate, 23 is a supporting plate, 3 is a connecting hole, 4 is a supporting table and 5 is a through hole.

Detailed Description

As shown in fig. 1, fig. 2 and fig. 3, the utility model relates to a cross node structure for concatenation of frame beam column, including cylindricality framework 1, the fixed four connecting seats 2 that are provided with, four on the lateral wall of cylindricality framework 1 the connecting seat 2 is the cross and distributes, connecting seat 2 is the echelonment that distributes downwards, just connecting seat 2 also is the frame structure, be provided with on connecting seat 2 and be used for being connected fixed connecting hole 3 with other panels, the annular is provided with two brace tables 4 on the lateral wall of cylindricality framework 1, two distribute from top to bottom brace table 4, and two brace table 4 aligns with the last lower extreme of connecting seat 2 respectively, connecting seat 2 is one side open-ended frame structure, the opening side of frame structure is used for twisting and connects the connecting bolt on the face.

When the cylindrical frame body 1 is a frame body structure with a square cross section, the four connecting seats 2 are respectively and fixedly arranged on four side walls of the cylindrical frame body 1.

The cross-sectional shape of the cylindrical frame 1 includes, but is not limited to, circular, square, rectangular, H-shaped, L-shaped, other polygonal shapes, and other special-shaped structures.

The ladder-shaped structure of the connecting seat 2 has at least two layers for supporting and connecting and fixing other plates.

The cylindrical frame body 1, the connecting seat 2 and the supporting platform 4 are integrally formed or fixed by welding.

The connecting seat 2 comprises a partition plate 21, a connecting plate 22 and a supporting plate 23, the partition plate 21 is cross-shaped, the partition plate 21 is horizontally arranged in a plurality of modes, the partition plate 21 is fixed on the cylindrical frame body 1 at intervals in the vertical direction, the connecting plate 22 and the supporting plate 23 are arranged between two adjacent partition plates 21, connecting holes 3 are formed in the partition plate 21, the connecting plate 22 and the supporting plate 23 or are formed in the partition plate, the connecting plate 22 and the supporting plate 23 independently or in a combined mode, and the partition plate 21 protrudes out of the side wall of the cylindrical frame body 1 to form a supporting table 4.

The partition plates 22 of the two connecting seats 2 are of an integrally formed structure, the cylindrical frame body 1 is divided into a plurality of groups of cylindrical frame body units by the partition plates 21, and the plurality of groups of cylindrical frame body units are sequentially connected and fixed with the partition plates 21.

The partition plate 21 in the cylindrical frame 1 is provided with a through hole 5.

The utility model discloses in the installation, the lower extreme on the cylindricality framework is pegged graft to the stand that corresponds to spacing by a supporting bench joint, simultaneously, the stairstepping connecting seat is fixed with the stairstepping terminal surface accordant connection of the crossbeam that corresponds, provides the solution for the problem of frame beam column concatenation in the scale assembly, and has guaranteed the connection quality, has improved assembly efficiency, the utility model discloses mainly used post roof beam internal connection.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (8)

1. A cross node structure for splicing frame beams and columns is characterized by comprising a cylindrical frame body (1), four connecting seats (2) are fixedly arranged on the side wall of the cylindrical frame body (1), the four connecting seats (2) are distributed in a cross shape, the connecting seats (2) are in a step shape distributed downwards, the connecting seat (2) is also of a frame-shaped structure, a connecting hole (3) for connecting and fixing with other plates is arranged on the connecting seat (2), two supporting platforms (4) are annularly arranged on the side wall of the cylindrical frame body (1), the two supporting platforms (4) are distributed up and down, and the two supporting platforms (4) are respectively aligned with the upper end and the lower end of the connecting seat (2), the connecting seat (2) is a frame-shaped structure with an opening at one side, and the opening side of the frame-shaped structure is used for screwing a connecting bolt on a connecting surface.

2. The cross-shaped node structure for splicing the frame beam column according to claim 1, wherein the cylindrical frame body (1) is a frame body structure with a square cross section, and four connecting seats (2) are respectively fixedly arranged on four side walls of the cylindrical frame body (1).

3. The cross-shaped node structure for frame beam-column splicing according to claim 1, wherein the cross-sectional shape of the cylindrical frame body (1) is either circular, square, rectangular, H-shaped or L-shaped.

4. The cross-shaped node structure for splicing frame beams and columns as claimed in claim 1, wherein the step-shaped structure of the connecting seats (2) has at least two layers for supporting and connecting and fixing other plates.

5. The cross-shaped node structure for splicing frame beams and columns is characterized in that the cylindrical frame body (1), the connecting seat (2) and the supporting platform (4) are integrally formed or fixed by welding.

6. The cross-shaped node structure for splicing frame beams and columns is characterized in that the connecting seat (2) comprises partition plates (21), connecting plates (22) and supporting plates (23), the partition plates (21) are cross-shaped, a plurality of horizontally arranged partition plates (21) are fixed on the cylindrical frame body (1) at intervals in the vertical direction, the connecting plates (22) and the supporting plates (23) are arranged between every two adjacent partition plates (21), the connecting plates (22) and the supporting plates (23) are provided with connecting holes (3) individually or in combination, and the partition plates (21) protrude out of the side wall of the cylindrical frame body (1) to form the supporting table (4).

7. The cross-shaped node structure for splicing frame beams and columns is characterized in that the partition plates (21) of the two connecting seats (2) are of an integrally formed structure, the cylindrical frame body (1) is divided into a plurality of groups of cylindrical frame body units by the partition plates (21), and the plurality of groups of cylindrical frame body units and the partition plates (21) are sequentially connected and fixed together.

8. A cross node structure for frame beam column splicing according to claim 6 or 7, characterized in that through holes (5) are provided on the partition plates (21) located in the cylindrical frame body (1).

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