CN219158106U - Exposed frame inhaul cable glass curtain wall structure - Google Patents

Abstract

The application discloses exposed frame cable glass curtain wall structure, including curtain crossbeam (300) and first coupling assembling (400). The first connection assembly includes a pull rod (401), a pallet (402) and a spacing structure (403) that can be secured to the building (200). The curtain wall cross beam and the limiting structure respectively comprise a first through groove (301) and a second through groove (4031) which can be used for the pull rod to pass through. The supporting plate is fixedly arranged on the pull rod and is used for abutting against the curtain wall beam, so that the axial position of the curtain wall beam relative to the pull rod is limited. The limiting structure can be fixed in a limiting clamping groove (302) of the curtain wall beam, so that the radial position of the curtain wall beam relative to the pull rod is limited. The curtain wall beam can be quickly installed through the cooperation of the pull rod, the supporting plate and the limiting structure, and the construction is convenient.

Description

Exposed frame inhaul cable glass curtain wall structure

Technical Field

The utility model relates to the technical field of building construction, in particular to a exposed frame inhaul cable glass curtain wall structure.

Background

In the building engineering, the outer surface of the building can be provided with a glass curtain wall, and the glass curtain wall is an outer wall protection wall of the building and plays a role in decoration. Usually, a cable clamp and the like are adopted to install the glass curtain wall, so that high-altitude operation is often required, but the cable clamp has high requirements on site construction, and the inconvenience in installation is caused by the accurate calculation of the tensile force and the complex structure.

Disclosure of Invention

The technical problem that this application was to solve is to provide one kind and makes curtain glass can simple to operate and simple structure's bright frame cable glass curtain wall structure.

In order to solve the technical problems, the following technical solutions are adopted in the embodiments of the present application: the exposed frame inhaul cable glass curtain wall structure is used for fixedly connecting curtain wall glass to a building and comprises curtain wall cross beams and a first connecting component; the curtain wall cross beam comprises a first through groove and a limiting clamping groove; the first through groove comprises a through groove opening; the first connecting component comprises a pull rod, a supporting plate and a limiting structure; the limiting structure comprises a second through groove; the pull rod can be fixedly connected to the building; the pull rod is matched with the first through groove, so that the pull rod can be clamped into the first through groove from the through groove opening, and the first through groove limits the first radial position of the curtain wall cross beam relative to the pull rod; the supporting plate is fixedly arranged on the pull rod and can be abutted against the curtain wall beam, so that the axial position of the curtain wall beam relative to the pull rod is limited; and the second through groove is matched with the pull rod, so that the pull rod can pass through the second through groove, and the limiting structure is matched with the limiting clamping groove, so that the limiting structure can be fixed in the limiting clamping groove, and the second radial position of the curtain wall beam relative to the pull rod is limited.

In some embodiments, the curtain wall cross beam further comprises a mounting face and a spacing edge; the limiting structure comprises a first limiting block and a second limiting block; the first limiting block comprises a first limiting through hole; the second limiting block comprises a second limiting through hole; the mounting surface is opposite to the building; the limiting edge is arranged on the mounting surface to form the limiting clamping groove; the bolt component can pass through the first limiting through hole and the second limiting through hole to fix the first limiting block and the second limiting block together; and when the limiting structure is in the limiting clamping groove, the limiting edge is abutted against the limiting structure.

In some embodiments, the first stopper includes a contact block and an interference block; the first limiting block is of an L-shaped structure; the abutting block is fixedly arranged on one side of the contact block and is used for abutting against the limiting edge; the length of the first limiting block is L1, the width of the abutting block is W11, and the width of the contact block is W12; the length of the second limiting block is L2; the opening length of the limiting clamping groove is L3, and the width of the limiting clamping groove is W3; l1 is more than L3 and is more than or equal to L2; and w11=w3 > W12.

In some embodiments, the first stop block includes a contact block, an interference block, a first mounting ramp, and a third mounting ramp; the second limiting block comprises a second installation inclined plane and a fourth installation inclined plane; the first limiting block is of an L-shaped structure; the abutting block is fixedly arranged on one side of the contact block and is used for abutting against the limiting edge; the length of the first limiting block is L1, the width of the abutting block is W11, and the width of the contact block is W12; the length of the second limiting block is L2, and the width of the second limiting block is W2; the opening length of the limiting clamping groove is L3, and the width of the limiting clamping groove is W3; l1 > L3; l2 > L3; w11=w12+w2=w3; the first installation inclined surface is arranged on the surface of the contact block opposite to the second limiting block; the second installation inclined surface is arranged on the surface, opposite to the first limiting block, of the second limiting block; the first installation inclined plane and the second installation inclined plane are mutually matched, and concave parts are respectively formed on the abutting block and the second limiting block, so that the second limiting block is conveniently inserted into the limiting clamping groove; the third installation inclined surface is arranged on the surface of the abutting block opposite to the second limiting block; the fourth installation inclined surface is arranged on the surface, opposite to the first limiting block, of the second limiting block; and the third installation inclined plane and the fourth installation inclined plane are mutually matched, so that the second limiting block is conveniently installed on the first limiting block.

In some embodiments, the first stopper includes a first recess; the second limiting block comprises a second concave position; and the first concave position is matched with the second concave position to form the second through groove.

In some embodiments, the first stopper further comprises a baffle; the baffle extends towards the second limiting block; and the baffle can be used to interfere with the limit edge.

In some embodiments, a positioning ferrule is also included; the curtain wall cross beam further comprises a positioning cavity; and the positioning inserting cores can be simultaneously inserted into the positioning cavities of the adjacent curtain wall cross beams, so that the adjacent curtain wall cross beams are connected.

In some embodiments, the first connection assembly further comprises a press block and a press cover; the pressing block can be fixed on the curtain wall cross beam, and a space capable of accommodating the edge of the curtain wall glass is formed in the curtain wall cross beam; and the gland is matched with the pressing block.

In some embodiments, the first connection assembly further comprises a sleeve; the sleeve includes internal threads; the pull rod comprises a plurality of branch rods; the branch rod comprises external threads which are matched with the internal threads; and adjacent sub-rods can be fixedly connected by the sleeve.

Compared with the prior art, the exposed frame inhaul cable glass curtain wall structure of the embodiment of the application comprises a curtain wall beam and a first connecting component. The first connecting component comprises a pull rod, a supporting plate and a limiting structure. The pull rod can be fixed on a building, the curtain wall beam is provided with a through groove for the pull rod to pass through, after the pull rod passes through the curtain wall beam, the supporting plate arranged on the pull rod axially limits the curtain wall beam relative to the pull rod, and the limiting structure fixed in the limiting clamping groove of the curtain wall beam radially limits the curtain wall beam relative to the pull rod, so that the curtain wall beam is fixed with the building through the first connecting component, and curtain wall glass can be fixed between the upper and lower adjacent curtain wall beams. The first connecting component is simple in structure and easy to install, and site construction is facilitated.

Drawings

Fig. 1 is a schematic structural view of an embodiment of a clear frame dragline glass curtain wall structure according to an example of the present application.

Fig. 2 is a partial enlarged view at a of fig. 1.

Fig. 3 is a schematic side view of an embodiment of a clear frame dragline glass curtain wall structure of an example of the present application.

Fig. 4 is a partial enlarged view at B of fig. 3.

Fig. 5 is a partial enlarged view at C of fig. 3.

Fig. 6 is a schematic structural diagram of a first connection assembly according to an embodiment of the present application.

Fig. 7 is a schematic installation view of the first connection assembly of fig. 6.

FIG. 8 is a schematic view of the first connection assembly of FIG. 6 mounted to a cross beam of a curtain wall.

FIG. 9 is a schematic side view of the first connection assembly of FIG. 6 mounted to a curtain wall cross beam.

Fig. 10 is a schematic structural view of another implementation of the first connection assembly according to the embodiment of the present application.

Fig. 11 is a schematic structural view of another implementation of the first connection assembly according to the embodiment of the present application.

Fig. 12 is a schematic structural view of another implementation of the first connection assembly according to the embodiment of the present application.

FIG. 13 is a schematic view of another embodiment of a first connection assembly according to the present application

Fig. 14 is a schematic structural view of an implementation of the stud connector of the present embodiment.

FIG. 15 is a schematic view of the installation of the stud connector and curtain wall cross member of FIG. 14.

Fig. 16 is a schematic installation view of a side plate of the column connector of fig. 14.

Fig. 17 is a schematic view of the installation of the column connector and column of fig. 14.

FIG. 18 is a schematic structural view of an embodiment of a curtain wall cross beam of an example of the present application.

FIG. 19 is a schematic side view of the second connector assembly of FIG. 17 mounted to a curtain wall cross beam.

FIG. 20 is a schematic view of an embodiment of the first and second connector assemblies of the present embodiment mounted to the same curtain rail.

The reference numerals are as follows: 100-curtain wall glass, 200-building, 300-curtain wall beam, 301-first through slot, 302-limit clamping slot, 303-locating cavity, 304-limit edge, 305-mounting cavity, 306-side plate, 400-first connecting component, 401-pull rod, 402-support plate, 403-limit structure, 4031-second through slot, 40311-first concave position, 40312-second concave position, 4032-first limit block, 40321-baffle, 4033-second limit block, 4034-first mounting inclined plane, 4035-second mounting inclined plane, 4036-third mounting inclined plane, 4037-fourth mounting inclined plane, 4038-fifth mounting inclined plane, 4039-limit block cavity, 404-press block, 405-press cover, 406-fixing support, 407-sleeve, 500-second connecting component, 501-column, 502-column connector, 5021-mounting insert, 2-sleeve insert, and 600-locating insert.

Detailed Description

The technical scheme of the present application will be further described with reference to the accompanying drawings.

Fig. 1-13 illustrate a exposed frame stay glass curtain wall structure for fixedly connecting a curtain wall glass 100 to a building 200, including a curtain wall cross beam 300 and a first connection assembly 400, in accordance with an embodiment of the present application. Specifically, the first connection assembly 400 includes a tension bar 401 fixable to the building 200, a pallet 402 fixed to the tension bar 401, and a limit structure 403. When installed, the tie rod 401 is fixed to the building 200, the tie rod 401 passes through the first through slot 301 of the curtain wall beam 300, and then the curtain wall beam 300 contacts the pallet 402, so that the pallet 402 fixed to the tie rod 401 can support the curtain wall beam 300, and the axial position (Z direction as shown in fig. 8) of the curtain wall beam 300 relative to the tie rod 401 is limited. The limiting structure 403 includes a second through slot 4031 adapted to both the first through slot 301 and the pull rod 401. During installation, the limiting structure 403 is clamped in the limiting clamping groove 302 of the curtain wall beam 300, the pull rod 401 passes through the through grooves 301 and 4031 of the curtain wall beam 300 and the limiting structure 403, the first radial position (X direction shown in fig. 8) of the curtain wall beam 300 relative to the pull rod 401 is limited by mutual interference of the pull rod 401 and the first through groove 301, and the limiting structure 403 fixed on the curtain wall beam 300 can limit the curtain wall beam 300 and particularly limit the second radial position (Y direction shown in fig. 8) of the curtain wall beam 300 relative to the pull rod 401. The curtain wall cross beam 300 is fixedly installed on the tie rod 401 by the cooperation of the tie rod 401, the pallet 402 and the limit structure 403 of the first connection assembly 400, thereby achieving a fixed connection with the building 200. The first connecting assembly 400 is simple in structure, convenient and quick to install, and particularly, high-altitude operation is required for curtain wall installation and construction, and compared with other curtain wall installation assemblies, the first connecting assembly 400 is simple in structure, and manufacturing materials and cost are saved.

In some embodiments, as shown in FIG. 1, the open frame lasso glass curtain wall structure of the present embodiments further includes a positioning insert 600, while the curtain wall cross beam 300 includes a positioning cavity 303 as shown in FIGS. 3, 7-18. The positioning insert 600 can be inserted into the adjacent curtain wall cross beams 300 at the same time, so that the positions of the adjacent curtain wall cross beams 300 are adapted, the positioning function is achieved, the connection strength of the adjacent curtain wall cross beams 300 can be enhanced, and the safety of the whole curtain wall system is improved.

In some embodiments, as shown in FIGS. 6-13, the curtain wall cross beam 300 also includes a mounting surface and a spacing edge 304. The mounting surface is opposite to the building 200, and a limit edge 304 is provided on the mounting surface of the curtain wall beam 300 to form a limit clip groove 302. The limiting structure 403 includes a first limiting block 4032 and a second limiting block 4033, and a second through slot 4031 for the pull rod 401 to pass through is formed between the first limiting block 4032 and the second limiting block 4033 after being mounted in an adapting manner. During installation, the first limiting block 4032 is firstly clamped into the limiting clamping groove 302 of the curtain wall cross beam 300, then the pull rod 401 is clamped into the first through groove 301 of the curtain wall cross beam 300 from the through groove opening of the curtain wall cross beam 300, and then the second limiting block 4033 is clamped into the limiting clamping groove 302 of the curtain wall cross beam 300, so that the pull rod 401 can be limited in the second through groove 4031 of the limiting structure 403. Finally, the bolt assembly can be utilized to pass through the limiting through holes of the first limiting block 4032 and the second limiting block 4033 to fix the two together in the limiting clamping groove 302 of the current beam. The position of the limiting structure 403 in the limiting slot 302 can be limited by the limiting edge 304.

In some embodiments, as shown in fig. 6-13, the first stopper 4032 includes a first concave portion 40311, and the second stopper 4033 includes a second concave portion 40312, and the first concave portion and the second concave portion are adapted to form a second through slot 4031. The width of the second through groove 4031 in the insertion direction of the pull rod 401 (e.g., Y direction in fig. 8) is required to be identical to the diameter of the pull rod 401, so that the interference limit of the limit structure 403 and the pull rod 401 in the insertion direction of the pull rod 401 (e.g., Y direction in fig. 8) can be ensured. That is, the sum of the widths of the first concave portion 40311 and the second concave portion 40312 in the insertion direction (e.g., Y direction of fig. 8) of the tension rod 401 needs to be identical to the diameter of the tension rod 401. And the lengths of the first concave portion 40311 and the second concave portion 40312 in the direction perpendicular to the insertion direction of the tension rod 401 (e.g., the X direction of fig. 8) are equal to or greater than the diameter of the tension rod 401. When the length of the second concave portion 40312 is greater than the diameter of the pull rod 401, the possibility that the second limiting block 4033 is interfered when being pressed can be reduced.

In some embodiments, as shown in fig. 6-13, both the first recess 40311 and the second recess 40312 may be half holes that conform to the diameter of the pull rod 401.

In some embodiments, as shown in fig. 10, the first limiting block 4032 includes a contact block and an abutting block, where the abutting block is fixedly disposed on one side of the abutting block and is used to abut against the limiting edge 304. The widths of the contact block and the abutting block are different, so that the first limiting block 4032 is of an L-shaped structure. Specifically, the first limiting block 4032 has a length L1, the second limiting block 4033 has a length L2, the limiting slot 302 has an opening length L3, L1 > L3, the abutting block has a width W11, and the limiting slot 302 has an opening width W3, w11=w3. During installation, the side of the contact block of the first limiting block 4032 is placed into the limiting clamping groove 302, and then a pushing force towards the direction of the contact block (the direction X1 shown in fig. 10) is applied to the first limiting block 4032, so that the first limiting block 4032 moves towards the side of the contact block, and the whole first limiting block 4032 can be smoothly placed into the limiting clamping groove 302. Then, a pushing force towards the direction of the abutting block (X2 direction shown in fig. 10) is applied to the first limiting block 4032, so that the first limiting block 4032 moves towards the abutting block until the abutting block abuts against the limiting edge 304 of the limiting slot 302, and thus the radial position (Y direction shown in fig. 10) of the first limiting block 4032 relative to the pull rod 401 is fixed. The curtain rail 300 is then placed onto the tie rod 401 such that the tie rod 401 fits with the curtain rail 300 and the first stop block 4032. Then, the second limiting block 4033 is placed in the limiting slot 302, so that the second limiting block 4033 contacts with the contact block and the contact block, and then the bolt assembly passes through the limiting through holes of the first limiting block 4032 and the second limiting block 4033 to fix the two together in the limiting slot 302 of the current beam. The length of the second limiting block 4033 is smaller than or equal to the opening length of the limiting clamping groove 302, namely L2 is smaller than or equal to L3, so that the second limiting block 4033 is convenient to insert.

In some embodiments, as shown in fig. 10, the length of the second limiting block 4033 is L2, the width of the contact block is W12, when the length of the second limiting block 4033 is equal to the opening length of the limiting slot 302, that is, l2=l3, the sum of the width of the contact block and the width of the second limiting block 4033 is greater than the opening width of the limiting slot 302, that is, w12+w2 > W3, so that one side of the second limiting block 4033 can be guaranteed to abut against the limiting edge 304, and thus, the radial displacement (X direction as shown in fig. 10) of the whole limiting structure 403 relative to the pull rod 401 is further limited, and the fixing strength of the limiting structure 403 in the limiting slot 302 is improved.

In some embodiments, as shown in fig. 11, the first limiting block 4032 has an L-shaped structure, and the length thereof is L1. The second limiting block 4033 has a length L2, and the limiting slot 302 has an opening length L3. The length of the first limiting block 4032 and the length of the second limiting block 4033 are both greater than the length of the opening of the limiting clamping groove 302, namely, L1 is greater than L3, and L2 is greater than L3. Thus, when the first stopper 4032 and the second stopper 4033 are inserted into the limiting slot 302, the first stopper 4032 and the second stopper 4033 are both partially abutted against the limiting edge 304, so that the radial position (Y direction as shown in fig. 11) of the limiting structure 403 relative to the pull rod 401 is fixed. Specifically, the first limiting block 4032 includes a contact block and an abutting block, where the abutting block is fixedly disposed on one side of the contact block and is used for abutting against the limiting edge 304. The second limiting block 4033 is adapted to the first limiting block 4032 and the limiting edge 304, such that the second limiting block 4033 is respectively abutted against the abutting block, the contact block and the limiting edge 304. Meanwhile, in order to facilitate the insertion of the second stopper 4033 into the stopper clamping groove 302, a first mounting inclined surface 4034 and a third mounting inclined surface 4036 are provided on the side of the first stopper 4032 opposite to the second stopper 4033, and a second mounting inclined surface 4035 and a fourth mounting inclined surface 4037 are provided on the side of the second stopper 4033 opposite to the first stopper 4032. Thus, opposite concave portions are formed on the sides of the first stopper 4032 and the second stopper 4033 away from the interference block, so that interference of the first stopper 4032 to the second stopper 4033 can be reduced when the second stopper is inserted. And the sides of the first limit block 4032 and the second limit block 4033 close to the abutting blocks are respectively provided with a convex part and a concave part which are mutually matched. During installation, the first limiting block 4032 is inserted into the limiting clamping groove 302, the abutting block abuts against the limiting edge 304, and then the curtain wall beam 300 is placed on the pull rod 401, so that the pull rod 401 is matched with the curtain wall beam 300 and the first limiting block 4032. Next, the second stopper 4033 is inserted obliquely into the stopper clamping groove 302, and then the second stopper 4033 is pressed against the first stopper 4032. Finally, the bolt assembly passes through the limiting through holes of the first limiting block 4032 and the second limiting block 4033 to fix the two together in the limiting clamping groove 302 of the current beam.

In some embodiments, as shown in fig. 12, to further facilitate the installation of the second stopper 4033, a fourth installation bevel 4037 is provided on the side of the second stopper 4033 opposite the first stopper 4032 near the interference block, and the first stopper 4032 is provided with a bevel that does not fit with the fourth installation bevel 4037, such that when the first stopper 4032 and the second stopper 4033 are installed together, a stopper cavity 4039 is formed therebetween. The presence of the stopper cavity 4039 reduces the likelihood that the second stopper 4033 will interfere when the second stopper 4033 is pressed against the first stopper 4032, allowing it to be more easily pressed against the first stopper 4032.

In some embodiments, as shown in fig. 12, a baffle 40321 facing the second limiting block 4033 is further disposed on the abutting block of the first limiting block 4032 with an L-shaped structure. The setting of baffle 4039 can make things convenient for constructor to pass first stopper 4032 in spacing draw-in groove 302, and baffle 40321 can contradict on spacing edge 304 simultaneously, makes things convenient for constructor to the location of first stopper 4032.

In some embodiments, as shown in fig. 13, the number of the abutting blocks is two, and the abutting blocks are respectively disposed at two sides of the contact block, so that the first limiting block 4032 forms a concave structure. The abutting blocks at two sides of the contact block are respectively in contact with the limiting edge 304 for limiting, and compared with the arrangement of the single-side abutting block, the two-side abutting block further improves the fixing strength of the first limiting block 4032 relative to the radial position (the Y direction shown in fig. 10) of the pull rod 401. During installation, one side of the first limiting block 4032 is placed into the limiting clamping groove 302, then thrust is applied to the first limiting block 4032, and the abutting block on one side is pushed to be in contact with the limiting edge 304. Then, the other side of the first limiting block 4032 is placed into the limiting slot 302, and then a pushing force is applied to the first limiting block 4032, so that the abutting blocks at two sides are contacted with the limiting edge 304, and the whole first limiting block 4032 can be smoothly placed into the limiting slot 302. Then, the second limiting block 4033 is placed in the limiting slot 302, so that the second limiting block 4033 contacts with the contact block and the contact block, and then the bolt assembly passes through the limiting through holes of the first limiting block 4032 and the second limiting block 4033 to fix the two together in the limiting slot 302 of the current beam.

In some embodiments, as shown in fig. 12, to facilitate the insertion of the first stopper 4032 into the stopper slot 302, the first stopper 4032 is provided with a fifth mounting inclined surface 4038 on the side near the stopper slot 302, and the mounting inclined surface 4038 is designed such that the first stopper 4032 forms a recess on the side near the stopper slot 302, thereby facilitating the insertion of the first stopper 4032 into the stopper slot 302.

In some embodiments, as shown in FIGS. 1-20, the cross-section of the curtain wall cross-beam 300 is triangular and includes a first angled surface, a second angled surface, and a mounting surface that are connected in pairs. The first inclined plane and the second inclined plane form an included angle facing to the outside. The arrangement enables the curtain wall beam 300 to resist positive and negative wind pressure, enables the curtain wall beam 300 to be more stable, solves the defect of large deformation of the single-cable curtain wall, reduces the creep of the single-cable curtain wall structure, prolongs the service life and safety performance of the curtain wall, reduces the maintenance difficulty of the curtain wall, and saves the maintenance cost of the curtain wall.

In some embodiments, as shown in FIGS. 16-17, the curtain wall cross beam 300 also includes side panels 306 mounted to the sides. The side plates 306 can shield the cavities 303 and 306, so that the internal structure of the curtain wall beam 300 is not easy to expose from the appearance, and meanwhile, the side plates 306 have a decorative function and are more attractive.

In some embodiments, as shown in fig. 2 and 9, the first connection assembly 400 further includes a press block 404, which forms a space with the curtain wall cross beam 300 to receive the edge of the curtain wall glass 100 when the press block 404 is fixed to the curtain wall cross beam 300, so that the curtain wall glass 100 can be fixedly mounted to the curtain wall cross beam 300.

In some embodiments, as shown in fig. 2 and 9, the first connection assembly 400 further includes a gland 405 that mates with the press block 404, the gland 405 pressing against the press block 404 and concealing the press block 404 for decorative purposes.

In some embodiments, as shown in fig. 3, the first connection assembly 400 further includes a fixed mount 406 that is securable to a structural beam of the building 200. The tie bar 401 may be fastened to the fixing support 406 by a bolt assembly, thereby achieving the fixation with the building 200.

In some embodiments, as shown in FIG. 5, axial retention of the tie rod 401 to the curtain wall cross beam 300 may also be achieved by a sleeve 407. Specifically, external threads are provided at the locations where the tie rods 401 are required to mount the curtain rail 300, while the sleeves 407 are provided with mating internal threads. During installation, after the pull rod 401 is inserted into the curtain wall beam 300, constructors adjust the sleeves 407 positioned on the upper side and the lower side of the curtain wall beam 300, so that the sleeves 407 on the upper side and the lower side face the curtain wall beam 300 respectively and compress the curtain wall beam 300, and the axial limit of the curtain wall beam 300 relative to the pull rod 401 is realized. By the design, the curtain wall beam 300 can bear acting forces on the upper side and the lower side simultaneously, and compared with a structure with single-side stress, the structure with stress on the two sides can improve the stability of connection. Secondly, through the relative position of the on-site adjustment sleeve 407 and the pull rod 401, the axial position of the curtain wall beam 300 on the pull rod 401 has a certain adjustable space, and on-site construction is further facilitated.

In some embodiments, the pull rod 401 may be a single rod or may be formed by connecting multiple sections of split rods. The first coupling assembly 400 then includes a sleeve 407 that connects the different branches. Specifically, the sleeve 407 and the branch rod are provided with internal threads and external threads which are mutually matched, and when connected, two ends of the sleeve 4013 are respectively connected with adjacent branch rods.

In some embodiments, as shown in fig. 1-20, the open frame lasso glass curtain wall structure of embodiments of the present application further includes a positioning ferrule 600 and a second connection assembly 500. The second connection assembly 500 includes a column 501 and a column connector 502 that are securable to the building 200. Specifically, the curtain wall cross beam 300 may be fixedly connected to the upright 501 via the upright connector 502, thereby achieving a fixed connection to the building 200. For a system including the first and second connection assemblies 400 and 500, the curtain wall transom 300 at different lateral positions is fixedly coupled to the building 200 by the first and second connection assemblies 400 and 500, respectively. By inserting the positioning insert 600, the curtain wall cross beam 300 fixed by the second connecting assembly 500 can also perform radial limiting (Y direction shown in fig. 8) relative to the tie rod 401 on the curtain wall cross beam 300 fixed by the first connecting assembly 400 positioned at the same horizontal position, thereby further increasing the connection strength of the system.

In some embodiments, as shown in fig. 1 and 14-19, the post connector 502 includes a ferrule 5022 and a mounting ferrule 5021. In mounting, the mounting plate of the mounting ferrule 5021 can be fixedly connected to the ear plate of the post 501 by a bolt assembly. The sleeve core 5022 is sleeved on the installation lock pin 5021, and the bolt component can pass through the sleeve core 5022 and the through groove of the installation lock pin 5021 to fixedly connect the sleeve core 5022 and the installation lock pin 5021. The curtain wall beam 300 includes a mounting cavity 305 capable of accommodating the column connector 502, and the sleeve core 5022 and the mounting insert core 5021 are inserted into the mounting cavity 305 of the curtain wall beam 300 along the insert core clamping groove of the curtain wall beam 300, so that the curtain wall beam 300 is fixedly connected with the column 501 through the column connector 502

In some embodiments, as shown in fig. 1 and 20, the first connection assembly 400 and the second connection assembly 500 may be mounted on the same curtain rail 300 at the same time. This design allows the curtain rail 300 to maintain synchronous settlement deformation at the same level. Specifically, even the curtain wall transom 300 fixedly connected to the building 200 through the second connection assembly 500 is provided with the first connection assembly 400 so that it can maintain synchronous settlement deformation with other curtain wall transoms 300 positioned at the same horizontal position but fixedly connected to the building 200 only with the first connection assembly 400, thereby reducing deformation of the entire curtain wall system.

Claims (10)

1. The utility model provides a bright frame cable glass curtain wall structure for on curtain wall glass (100) fixed connection building (200), its characterized in that: comprises a curtain wall beam (300) and a first connecting component (400); the curtain wall cross beam (300) comprises a first through groove (301) and a limit clamping groove (302); the first through slot (301) comprises a through slot opening; the first connecting assembly (400) comprises a pull rod (401), a supporting plate (402) and a limiting structure (403); the limiting structure (403) comprises a second through groove (4031);

the pull rod (401) can be fixedly connected to the building (200);

the pull rod (401) is matched with the first through groove (301) so that the pull rod (401) can be clamped into the first through groove (301) from the opening of the through groove, and the first through groove (301) limits the first radial position of the curtain wall cross beam (300) relative to the pull rod (401);

the supporting plate (402) is fixedly arranged on the pull rod (401), and the supporting plate (402) can be in interference with the curtain wall beam (300), so that the axial position of the curtain wall beam (300) relative to the pull rod (401) is limited; and

the second through slot (4031) is adapted to the pull rod (401) such that the pull rod (401) may pass through the second through slot (4031), and the limit structure (403) is adapted to the limit clamping slot (302) such that the limit structure (403) may be fixed in the limit clamping slot (302), thereby limiting the second radial position of the curtain wall cross beam (300) relative to the pull rod (401).

2. The exposed frame stay glass curtain wall structure of claim 1, wherein: the curtain wall cross beam (300) further comprises a mounting surface and a limiting edge (304); the limiting structure (403) comprises a first limiting block (4032) and a second limiting block (4033); the first limiting block (4032) comprises a first limiting through hole; the second limiting block (4033) comprises a second limiting through hole;

the mounting surface is opposite the building (200);

the limiting edge (304) is arranged on the mounting surface to form the limiting clamping groove (302);

the bolt component can pass through the first limiting through hole and the second limiting through hole to fix the first limiting block (4032) and the second limiting block (4033) together; and

when the limiting structure (403) is in the limiting clamping groove (302), the limiting edge (304) is abutted against the limiting structure (403).

3. The exposed frame stay glass curtain wall structure of claim 2, wherein: the first limiting block (4032) comprises a contact block and an abutting block;

the first limiting block (4032) is of an L-shaped structure;

the abutting block is fixedly arranged on one side of the contact block and is used for abutting against the limiting edge (304);

the length of the first limiting block (4032) is L1, the width of the abutting block is W11, and the width of the contact block is W12;

the length of the second limiting block (4033) is L2;

the opening length of the limiting clamping groove (302) is L3, and the width of the limiting clamping groove is W3;

l1 is more than L3 and is more than or equal to L2; and

W11＝W3＞W12。

4. the exposed frame stay glass curtain wall structure of claim 2, wherein: the first limiting block (4032) comprises a contact block, a collision block, a first installation inclined surface (4034) and a third installation inclined surface (4036); the second limiting block (4033) comprises a second mounting inclined surface (4035) and a fourth mounting inclined surface (4037);

the first limiting block (4032) is of an L-shaped structure;

the abutting block is fixedly arranged on one side of the contact block and is used for abutting against the limiting edge (304);

the length of the first limiting block (4032) is L1, the width of the abutting block is W11, and the width of the contact block is W12;

the length of the second limiting block (4033) is L2, and the width of the second limiting block (4033) is W2;

the opening length of the limiting clamping groove (302) is L3, and the width of the limiting clamping groove is W3;

L1＞L3；

L2＞L3；

W11＝W12+W2＝W3；

the first mounting inclined surface (4034) is arranged on the surface of the contact block opposite to the second limiting block (4033);

the second mounting inclined surface (4035) is arranged on the surface of the second limiting block (4033) opposite to the first limiting block (4032);

the first mounting inclined surface (4034) and the second mounting inclined surface (4035) are mutually matched, and concave parts are respectively formed on the abutting block and the second limiting block (4033), so that the second limiting block (4033) is conveniently inserted into the limiting clamping groove (302);

the third installation inclined surface (4036) is arranged on the surface of the abutting block opposite to the second limiting block (4033);

the fourth mounting inclined surface (4037) is arranged on the surface of the second limiting block (4033) opposite to the first limiting block (4032); and

the third mounting ramp (4036) and the fourth mounting ramp (4037) are mutually adapted so as to facilitate the mounting of the second stopper (4033) onto the first stopper (4032).

5. The exposed frame stay glass curtain wall structure of claim 2, wherein: the first limiting block (4032) comprises a contact block, a collision block, a first installation inclined surface (4034) and a third installation inclined surface (4036); the second limiting block (4033) comprises a second mounting inclined surface (4035) and a fourth mounting inclined surface (4037);

the first limiting block (4032) is of an L-shaped structure;

the abutting block is fixedly arranged on one side of the contact block and is used for abutting against the limiting edge (304);

the length of the first limiting block (4032) is L1, the width of the abutting block is W11, and the width of the contact block is W12;

the length of the second limiting block (4033) is L2, and the width of the second limiting block (4033) is W2;

the opening length of the limiting clamping groove (302) is L3, and the width of the limiting clamping groove is W3;

L1＞L3；

L2＞L3；

W11＝W12+W2＝W3；

the first mounting inclined surface (4034) is arranged on the surface of the contact block opposite to the second limiting block (4033);

the second mounting inclined surface (4035) is arranged on the surface of the second limiting block (4033) opposite to the first limiting block (4032);

the first mounting inclined surface (4034) and the second mounting inclined surface (4035) are mutually matched, and concave parts are respectively formed on the abutting block and the second limiting block (4033), so that the second limiting block (4033) is conveniently inserted into the limiting clamping groove (302); and

the fourth mounting inclined surface (4037) is arranged on the surface of the second limiting block (4033) opposite to the first limiting block (4032), so that a limiting block cavity (4039) is formed between the fourth mounting inclined surface (4037) and the first limiting block (4032), and the second limiting block (4033) is conveniently mounted on the first limiting block (4032).

6. The exposed frame stay glass curtain wall structure of claim 2, wherein: the first limiting block (4032) comprises a first concave position (40311); the second limiting block (4033) comprises a second concave position (40312); and

the first recess (40311) is adapted to the second recess (40312) to form the second through slot (4031).

7. The exposed frame stay glass curtain wall structure of claim 2, wherein: the first limiting block (4032) further comprises a baffle (40321);

the baffle (40321) extends towards the second limiting block (4033); and

the baffle (40321) may be configured to interfere with the stop edge (304).

8. The open frame stay glass curtain wall structure of any one of claims 1-7, wherein: also includes a positioning ferrule (600); the curtain wall cross beam (300) further comprises a positioning cavity (303); and

the positioning inserts (600) can be simultaneously inserted into the positioning cavities (303) of adjacent curtain wall cross beams (300) so as to connect the adjacent curtain wall cross beams (300).

9. The open frame stay glass curtain wall structure of any one of claims 1-7, wherein: the first connecting assembly (400) further comprises a pressing block (404) and a pressing cover (405);

the pressing block (404) can be fixed on the curtain wall cross beam (300) and forms a space for accommodating the edge of the curtain wall glass (100) on the curtain wall cross beam (300); and

the gland (405) is adapted to the press block (404).

10. The open frame stay glass curtain wall structure of any one of claims 1-7, wherein: the first connection assembly (400) further comprises a sleeve (407); -the sleeve (407) comprises an internal thread; the pull rod (401) comprises a plurality of sub-rods; the branch rod comprises external threads which are matched with the internal threads; and

adjacent said partial rods may be fixedly connected by said sleeve (407).

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