CN220908827U - Concave corridor department curtain mounting system - Google Patents

Abstract

The utility model discloses a curtain wall installation system at a concave corridor, which comprises cantilever beams and building structures positioned at two ends of the cantilever beams, wherein steel beams are arranged between the building structures outside the cantilever beams and at two ends, vertical keels are fixedly arranged on the steel beams, transverse keels are arranged between the vertical keels, curtain wall glass is arranged on a frame formed by the vertical keels and the transverse keels, one end of each steel beam is a fixed end, and the other end of each steel beam is an elastic end; the fixed end of the steel beam is provided with a U-shaped steel groove, the U-shaped steel groove is fixedly arranged on a building structure, and the fixed end of the steel beam is placed in the U-shaped steel groove; the elastic end of girder steel is equipped with U shaped steel groove, and U shaped steel groove sets firmly on building structure, and the girder steel is placed in U shaped steel inslot, all be equipped with powerful spring between girder steel and the U shaped steel groove both sides wall. The elastic steel beam is arranged, so that the problems that deformation joints are not required to be arranged in the installation of the curtain wall at the position crossing the deformation joints, the curtain wall is not required to be divided and cannot be constructed are solved, the integrity of the curtain wall is ensured, and the attractiveness and the integrity of a building are improved.

Description

Concave corridor department curtain mounting system

Technical Field

The utility model relates to the technical field of curtain wall installation, in particular to a curtain wall installation system at a concave corridor.

Background

The curtain wall is an outer wall enclosure of a building, is not bearing, is hung like a curtain, is also called as a curtain wall, and is a light wall with a decorative effect commonly used in modern large-scale and high-rise buildings.

In a certain engineering project, a concave corridor is arranged between a main building and an auxiliary building, and a deformation joint is arranged at the concave corridor and is externally provided with a curtain wall. The curtain wall with the existing traditional process for installing the position of the cross deformation joint is mainly characterized in that a curtain wall keel system is installed on a structure, the externally hung curtain wall is required to be solved by adopting a method for arranging the deformation joint equally, the method influences the integral integrity and the aesthetic property of the curtain wall, on the other hand, curtain wall stand columns and cross beams are fixed on overhanging/structural beams according to the traditional curtain wall mode, and according to load accounting, when the overhanging/structural beams cannot bear wind load and horizontal force caused by earthquake waves, the phenomenon of integral tearing and damage to the finished curtain wall can be caused, however, in the existing method, the construction difficulty caused by the nodes cannot be solved, and the construction cannot be completed on the premise of guaranteeing the integral appearance form of the curtain wall.

Disclosure of utility model

The utility model provides a curtain wall installation system at a concave corridor, which replaces the traditional curtain wall installation system with an elastic steel beam construction process, thereby greatly saving cost, reducing construction difficulty and saving construction period.

The technical problems to be solved are as follows: when the cantilever/structural beam of the traditional cross deformation joint curtain wall cannot bear wind load and horizontal force caused by earthquake waves, the phenomenon of integral tearing and damage to the finished curtain wall can be caused.

In order to solve the technical problems, the utility model adopts the following technical scheme:

The utility model discloses a curtain wall installation system at a concave corridor, which comprises cantilever beams and building structures positioned at two ends of the cantilever beams, wherein steel beams are arranged between the building structures positioned at the two ends outside the cantilever beams, vertical keels are fixedly arranged on the steel beams, transverse keels are arranged between the vertical keels, curtain wall glass is arranged on a frame formed by the vertical keels and the transverse keels, one end of each steel beam is a fixed end, and the other end of each steel beam is an elastic end;

The fixed end of the steel beam is provided with a U-shaped steel groove, the U-shaped steel groove is fixedly arranged on a building structure, and the fixed end of the steel beam is placed in the U-shaped steel groove;

the elastic end of girder steel is equipped with U shaped steel groove, U shaped steel groove sets firmly on the building structure, the girder steel is placed in U shaped steel inslot, all be equipped with powerful spring between girder steel and the U shaped steel groove both sides wall.

The utility model relates to a curtain wall installation system at a concave corridor, which is further characterized in that a rear embedded plate is fixedly arranged on a building structure respectively, and U-shaped steel grooves are welded on the rear embedded plate.

The utility model relates to a curtain wall installation system at a concave corridor, which is characterized in that a reinforcing steel plate is connected between a U-shaped steel groove and a rear buried plate.

The utility model relates to a curtain wall installation system at a concave corridor, which is characterized in that spring brackets are arranged at two sides of an elastic end of a steel beam in a U-shaped steel groove, and strong springs are arranged in the spring brackets.

The utility model relates to a curtain wall installation system at a concave corridor, which is further characterized in that a bolt hole is formed in a U-shaped steel groove, a fixing bolt is in threaded fit with the bolt hole, the fixing bolt is tightly propped against the back side of a spring bracket, and a fixing nut propped against the U-shaped steel groove is in threaded fit with the fixing bolt on the outer side of the U-shaped steel groove.

The utility model relates to a curtain wall installation system at a concave corridor, which is characterized in that the spring bracket is F-shaped.

The utility model relates to a curtain wall installation system at a concave corridor, which is characterized in that two strong springs are arranged on each side of a steel beam up and down, and the two strong springs are separated by a spring bracket.

The utility model relates to a curtain wall installation system at a concave corridor, and further relates to a U-shaped steel groove formed by welding steel plates.

Compared with the prior art, the utility model has the following beneficial effects:

1. By arranging the elastic steel beams, the problems that deformation joints are not required to be arranged, the curtain wall is not required to be divided and cannot be constructed in the installation of the curtain wall at the position of the deformation joints are solved, the integrity of the curtain wall is ensured, the attractiveness and the integrity of a building are improved, the traditional installation system of the curtain wall at the position of the deformation joints is replaced by the construction process of the elastic steel beams, the cost is greatly saved, the construction difficulty is reduced, and meanwhile, the construction period is also saved;

2. The curtain wall keel is fixed on the steel beam, one end of the steel beam is fixed, and the other end of the steel beam is elastically designed to form an elastic steel beam, so that the curtain wall can only deform along with the deformation of one building, the curtain wall at the same position cannot be affected by different earthquakes of two sides of the building at the same time, the phenomenon that the curtain wall is integrally torn due to different earthquake reactions at two sides when the earthquakes occur is avoided, a strong spring is added at the beam end to serve as an elastic connecting point, the safety of the integral curtain wall is improved, and the manual maintenance cost after the curtain wall is finished is reduced;

3. Compared with the traditional mode of dividing the complete curtain wall into two or more pieces for assembling and splicing the positions of the deformation joints to treat the loads such as wind load and earthquake wave and the like, the curtain wall can not meet the requirements of on-site construction period and integral building attractiveness.

The utility model is further described below with reference to the accompanying drawings.

Drawings

FIG. 1 is a front view of a mounting node of the present utility model;

FIG. 2 is a schematic diagram of a frame of the building structure, cantilever beams and steel beams of the present utility model;

FIG. 3 is a front view of the fixed end of the steel beam of the present utility model;

FIG. 4 is a side view of a steel beam securing end of the present utility model;

FIG. 5 is a front view of the spring end of the steel beam of the present utility model;

fig. 6 is a side view of the degree of elasticity of the steel beam of the present utility model.

Reference numerals:

1. a cantilever beam; 2. building structures; 3. a steel beam; 4. a rear buried plate; 5. u-shaped steel groove; 6. a strong spring; 7. vertical keels; 8. reinforcing the steel plate; 9. a spring bracket; 10. and (5) fixing bolts.

Detailed Description

As shown in fig. 1 to 6, the curtain wall installation system at the concave corridor comprises cantilever beams 1 positioned at the concave corridor and building structures 2 positioned at two ends of the cantilever beams 1, wherein the building structures 2 take structural beams or shear walls as examples for illustration, steel beams 3 are arranged between the building structures 2 at two ends outside the cantilever beams 1, the steel beams 3 are arranged at intervals along the height direction of the building structures 2, one ends of the steel beams 3 are fixed ends, and the other ends of the steel beams are elastic ends.

Vertical keels are fixedly arranged on the steel beams at intervals, transverse keels are arranged between the vertical keels, and curtain wall glass is arranged on a frame formed by the vertical keels and the transverse keels. The installation of the transverse keels and the curtain wall glass is in the prior art, the application is not repeated, and the installation is not shown in the drawings.

The stiff end of girder steel 3 is equipped with post-buried plate 4, and post-buried plate 4 passes through screw rod fixed mounting on building structure 2, and the welding has U shaped steel groove 5 on the post-buried plate 4, and the stiff end of girder steel 3 is placed in U shaped steel groove 5, does not do any connection.

The elastic end of girder steel 3 is equipped with post-buried plate 4, and post-buried plate 4 passes through screw rod fixed mounting on building structure 2, and the last welding of post-buried plate 4 has U shaped steel groove 5, and the elastic end of girder steel 3 is placed in U shaped steel groove 5, all is equipped with powerful spring 6 between girder steel 3 and the both sides wall of U shaped steel groove 5.

Specifically, a reinforced steel plate 8 is connected between the U-shaped steel groove 5 and the rear buried plate 4, the reinforced steel plate 8 is welded with the U-shaped steel groove 5 and the rear buried plate 4 respectively, and the surface is painted with antirust paint for corrosion prevention treatment.

The spring support 9 is arranged on two sides of the elastic end of the steel beam 3 in the U-shaped steel groove 5, the strong spring 6 is arranged in the spring support 9, bolt holes are formed in the U-shaped steel groove 5, fixing bolts 10 are in threaded fit in the bolt holes, the fixing bolts 10 are tightly propped against the back side of the spring support 9 and used for fixing the spring support 9 and adjusting the elastic force of the strong spring 6, and fixing nuts propped against the U-shaped steel groove 5 are in threaded fit on the outer sides of the U-shaped steel groove 5 on the fixing bolts 10. Further, two strong springs 6 are provided up and down on each side of the steel beam 3, and the two strong springs 6 are separated by a spring bracket 9.

In addition, the U-shaped steel groove 5 at the elastic end of the steel beam 3 is formed by welding steel plates.

The above examples are only illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should fall within the scope of protection defined by the claims of the present utility model without departing from the spirit of the present utility model.

Claims (8)

1. A concave corridor curtain wall installation system, characterized in that: including cantilever beam (1), be located building structure (2) at cantilever beam (1) both ends, its characterized in that: a steel beam (3) is arranged between the building structures (2) at the two ends outside the cantilever beam (1), vertical keels (7) are fixedly arranged on the steel beam (3), transverse keels are arranged between the vertical keels, curtain wall glass is arranged on a frame formed by the vertical keels and the transverse keels, one end of the steel beam (3) is a fixed end, and the other end of the steel beam is an elastic end;

The fixed end of the steel beam (3) is provided with a U-shaped steel groove (5), the U-shaped steel groove (5) is fixedly arranged on the building structure (2), and the fixed end of the steel beam (3) is placed in the U-shaped steel groove (5);

The elastic end of girder steel (3) is equipped with U shaped steel groove (5), U shaped steel groove (5) set firmly on building structure (2), girder steel (3) are placed in U shaped steel groove (5), all be equipped with powerful spring (6) between girder steel (3) and U shaped steel groove (5) both sides wall.

2. The recessed porch curtain wall mounting system of claim 1, wherein: the post-buried plates (4) are respectively fixed on the building structure (2), and the U-shaped steel grooves (5) are welded on the post-buried plates (4).

3. The recessed porch curtain wall mounting system of claim 2, wherein: a reinforced steel plate (8) is connected between the U-shaped steel groove (5) and the rear buried plate (4).

4. The recessed porch curtain wall mounting system of claim 1, wherein: spring supports (9) are arranged on two sides of the elastic end of the steel beam (3) in the U-shaped steel groove (5), and the powerful springs (6) are arranged in the spring supports (9).

5. The recessed porch curtain wall mounting system of claim 4, wherein: the U-shaped steel groove (5) is provided with a bolt hole, a fixing bolt (10) is in threaded fit with the bolt hole, the fixing bolt (10) is tightly propped against the back side of the spring support (9), and a fixing nut propped against the U-shaped steel groove (5) is in threaded fit with the outer side of the U-shaped steel groove (5) on the fixing bolt (10).

6. The recessed porch curtain wall mounting system of claim 4, wherein: the spring support (9) is F-shaped.

7. The recessed porch curtain wall mounting system of claim 4, wherein: two powerful springs (6) are arranged on each side of the steel beam (3) up and down, and the two powerful springs (6) are separated through a spring bracket (9).

8. The recessed porch curtain wall mounting system of claim 1, wherein: the U-shaped steel groove (5) is formed by welding steel plates.