CN217630693U - Glass curtain wall of one-way cable point glass system - Google Patents

Abstract

The utility model discloses a glass curtain wall of a one-way cable point glass system, which comprises a point glass curtain wall, a clamp for clamping and fixing the point glass curtain wall, and a vertical cable and a steel assembly; two ends of a vertical guy cable are fixed between adjacent large structural beams, and the vertical guy cable passes through the clamp and is fixedly connected with the clamp; the steel assembly is fixed on each interlayer small structural beam and is framed outside the vertical inhaul cable and the clamp. The utility model can limit the swing deformation of the stay cable, resist wind load and ensure the enough strength of the curtain wall; meanwhile, only one stay cable is arranged, the curtain wall has extremely good permeability, the material cost can be saved, the construction difficulty is low, and the construction cost is low.

Description

Glass curtain wall of one-way cable point glass system

Technical Field

The utility model belongs to the technical field of glass curtain wall, especially, relate to an one-way cable point glass system glass curtain wall.

Background

The point type inhaul cable curtain wall has the advantages of being large in span, simple in structure, good in permeability and the like, and is favored by a plurality of users. With the increasing application of point type guy cable curtain walls in engineering, higher requirements are placed on curtain walls during partial building design. However, the common guy cable curtain wall is of a net structure formed by guys in the vertical and horizontal directions, and is not light and beautiful enough and has insufficient permeability; meanwhile, the manufacturing cost of the net-shaped inhaul cable structure is higher, and the material cost is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a better one-way cable point glass system glass curtain wall of permeability.

The glass curtain wall of the one-way cable point glass system provided by the utility model comprises a point glass curtain wall, a clamp for clamping and fixing the point glass curtain wall, and a vertical cable and a steel assembly; two ends of a vertical guy cable are fixed between adjacent large structural beams, and the vertical guy cable passes through the clamp and is fixedly connected with the clamp; the steel assembly is fixed on each interlayer small structural beam and is framed outside the vertical inhaul cable and the clamp to limit the swinging deformation of the inhaul cable.

In one embodiment of the glass curtain wall, the vertical inhaul cable comprises an inhaul cable, a lock head, an inhaul cable adjusting end, a high-strength pin shaft and an ear plate; the lock head is an irregular sleeve, and two ends of the inhaul cable are respectively connected and fixed on the lock head; the top end of the adjusting end of the inhaul cable is a threaded pipe, the lock head is sleeved on the threaded pipe, the tail end of the inhaul cable is in an inverted U shape, the inhaul cable is clamped on two sides of the lug plate, and the inhaul cable is hinged and fixed with the lug plate through a high-strength pin shaft.

In an embodiment of the glass curtain wall, the ear plate is fixed on the steel embedded plate embedded in the large structural beam through fusion welding with a double groove.

In an embodiment of the glass curtain wall, the point type glass curtain wall is clamped and fixed by the clamp, a cylinder extending outwards is fixed at one end of the clamp, and the vertical stay cable is fixedly connected with the cylinder.

In one embodiment of the glass curtain wall, the steel assembly comprises a steel adaptor, a steel pipe, a reinforcing frame and a long steel frame; the two steel adaptor pieces are respectively fixed at the upper end and the lower end of the outer side of the interlayer small structural beam; the two steel adapters clamp the steel pipe, and the fasteners penetrate through the steel adapters and the steel pipe to fix the steel adapters and the steel pipe into a whole; the reinforcing frame is fixedly connected with two ends of the steel pipe, is framed around the vertical inhaul cable and the clamp and limits the swinging deformation of the vertical inhaul cable and the clamp; the long steel frame is connected to the two sides of the reinforcing frame.

In one embodiment of the glass curtain wall, the steel adaptor is two L-shaped stacking pieces, and the steel tube is clamped between the left and right sides of the steel adaptor and fixed by a fastener; the steel adapter is fixed on the embedded part pre-embedded in the interlayer small structural beam through three-side girth welding of the welding line.

In one embodiment of the glass curtain wall, the reinforcing frame is a U-shaped body which is formed by combining and splicing a plurality of steel plates and is sealed at the upper and lower parts, is framed around the vertical stay cables and the clamps, and is padded with stainless steel gaskets and rubber gaskets at the positions which are in contact with the vertical stay cables; the two sides of the U-shaped body are provided with the long steel frames which are fixed through fireproof glue, and the long steel frames connect the U-shaped bodies on the same layer.

In one embodiment of the glass curtain wall, fireproof rock wool with equal height is arranged on the inner side of the steel tube of the steel assembly and is fixed with the small interlayer structural beam through a steel plate.

In one embodiment of the glass curtain wall, two channel aluminum are fixed between the upper and lower reinforcing frames of the steel assembly, and are arranged on two sides of the vertical stay cable in a back-to-back manner; the outer sides of the two groove aluminum are fixedly connected with a backing plate.

The utility model can limit the swinging deformation of the stay cable, resist wind load and ensure the enough strength of the curtain wall by arranging the vertical stay cable and adding the interlayer steel assembly; meanwhile, only one vertical stay cable is arranged, the curtain wall has extremely good permeability, the material cost can be saved, the construction difficulty is low, and the construction cost is low.

Drawings

Fig. 1 is a schematic view of a vertical cable structure according to an embodiment of the present invention.

Fig. 2 is a side view of the structure of fig. 1.

Fig. 3 is a schematic view of the installation structure of the vertical guy cable on the large structural beam.

Fig. 4 is a schematic structural view of the jig.

Fig. 5 is a schematic top view of fig. 4.

Fig. 6 is a side view of the structure of fig. 4.

Fig. 7 is a schematic view of an installation structure of a vertical inhaul cable and a steel structural member on an interlayer small structural beam.

Fig. 8 isbase:Sub>A schematic cross-sectional view taken transversely atbase:Sub>A-base:Sub>A in fig. 7.

Fig. 9 is a schematic vertical cross-sectional view at B-B in fig. 7.

Fig. 10 is a schematic vertical cross-sectional view at C-C in fig. 9.

Fig. 11 is a cross-sectional view taken along line D-D in fig. 9.

Fig. 12 is a schematic cross-sectional view taken transversely at E-E of fig. 7.

Detailed Description

The glass curtain wall of the one-way cable point glass system disclosed by the embodiment comprises a vertical cable 1, a clamp 2, a point type glass curtain wall 3 and a steel assembly 4.

The vertical guy cable 1 penetrates through the clamp 2 and is fixedly connected with the clamp, and the point type glass curtain wall 3 is clamped and fixed by the clamp; the steel assembly 4 is framed outside the vertical inhaul cable and the clamp, and the inhaul cable is limited from swinging and deforming.

As can be seen by combining the figures 1, 2 and 3, two ends of the vertical guy cable 1 are fixed between the adjacent large structural beams, and the vertical guy cable comprises a guy cable 11, a lock head 12, a guy cable adjusting end 13, a high-strength pin shaft 14 and an ear plate 15.

The lock head 12 is an irregular sleeve, and two ends of the inhaul cable 11 are respectively connected and fixed on the lock head; the top end of the inhaul cable adjusting end 13 is a threaded pipe, a lock head is sleeved on the threaded pipe, the tail end of the inhaul cable adjusting end is inverted U-shaped, the inhaul cable adjusting end is clamped on two sides of an ear plate 15 and is hinged and fixed with the ear plate through a high-strength pin shaft 14. The ear plate 15 is fixed on a steel embedded plate embedded in the large structural beam through fusion welding with a double groove.

The position of the lock head 12 on the cable adjusting end 13 can be adjusted through rotation so as to control the overall tightness of the vertical cable.

As can be seen from fig. 4, 5 and 6, the clip 2 holds and fixes the point type glass curtain wall 3, and one end of the clip is fixed with a cylinder extending outwards. The cylinder is divided into two sections, and two semicircular sections are respectively arranged at two ends of the cylinder and can be spliced into a whole. The vertical inhaul cable 1 is fixedly connected with the clamp 2 through a cylinder.

As shown in fig. 7, a steel composite 4 is fixed to each inter-floor small structural beam, which includes a steel pipe 41, a steel adaptor 42, a reinforcing frame 43, a long steel frame 44, a channel aluminum 45, and a backing plate 46.

The section of the steel pipe 41 is square, the length of the steel pipe is slightly smaller than the distance between two adjacent clamps, the steel pipe is clamped and fixed by two steel adapters 42 and leans against the rear end of the one-way inhaul cable 1. The inner side of the steel pipe is provided with fireproof rock wool with the same height as the steel pipe, and the fireproof rock wool is fixed with the small interlayer structural beam through a steel plate.

As shown in fig. 8, the steel adaptor 42 is two L-shaped pieces, which are used to clamp the steel pipe 41 left and right, and the bolt is inserted through the steel adaptor and the steel pipe to fix them.

Two embedded parts are embedded in the outer side of the interlayer small structural beam close to the upper end and the lower end respectively, and the two steel adapters 42 are fixed on the embedded parts respectively through welding seam three-edge girth welding.

As can be seen from fig. 9, 10 and 11, the two reinforcing frames 43 are fixedly connected to the upper and lower ends of the steel pipe 41. The reinforcing frame 43 is a U-shaped body which is formed by combining and splicing a plurality of steel plates and is sealed up and down, and is framed around the vertical inhaul cable 1 and the clamp 2 to limit the swinging deformation of the vertical inhaul cable; and a stainless steel gasket and a rubber gasket are padded at the contact position of the vertical inhaul cable.

The two sides of the reinforcing frame 43 are provided with long steel frames 44 which are fixed through fireproof glue and connect the adjacent reinforcing frames at the same height.

As shown in fig. 12, two channel aluminums are fixed between the upper and lower reinforcing frames of the steel assembly 4, and are arranged on two sides of the vertical cable 1 in an opposite manner. And backing plates are fixedly connected to the outer sides of the two grooves of aluminum, are thick aluminum single plates, and are sprayed with powder.

When the curtain wall is installed, embedded parts are embedded in the large structural beam and the small structural beam between layers, two ends of the vertical stay cable are fixed on the embedded parts at the corresponding positions of the large structural beam, and the position of the rotary lock head is adjusted to control the vertical stay cable to be in proper tightness. The clamp firstly clamps the point type glass curtain wall and then is fixed on the vertical stay cable. And finally, framing the steel assembly around the clamp, and fixing the steel assembly on the small structure beam between layers through the steel pipe to finish the installation.

The curtain wall has the advantages that by arranging the vertical stay cables and adding the interlayer steel assembly, the swing deformation of the stay cables can be limited, the wind load can be resisted, and the strength of the curtain wall is ensured to be sufficient; meanwhile, only one vertical stay cable is arranged, the curtain wall has extremely good permeability, the material cost can be saved, the construction difficulty is low, and the construction cost is low.

Claims (9)

1. The utility model provides an one-way cable point glass system glass curtain wall, it includes point type glass curtain wall and with its centre gripping fixed anchor clamps, its characterized in that: the cable also comprises a vertical inhaul cable and a steel assembly;

two ends of a vertical guy cable are fixed between adjacent large structural beams, and the vertical guy cable passes through the clamp and is fixedly connected with the clamp; the steel assembly is fixed on each interlayer small structural beam and is framed outside the vertical inhaul cable and the clamp to limit the swinging deformation of the inhaul cable.

2. The glass curtain wall of the one-way cable point glass system of claim 1, characterized in that: the vertical inhaul cable comprises an inhaul cable, a lock head, an inhaul cable adjusting end, a high-strength pin shaft and an ear plate;

the lock head is an irregular sleeve, and two ends of the inhaul cable are respectively connected and fixed on the lock head; the top end of the adjusting end of the inhaul cable is a threaded pipe, a lock head is sleeved on the threaded pipe, the tail end of the inhaul cable is in an inverted U shape, the inhaul cable is clamped on two sides of the lug plate, and the inhaul cable is hinged and fixed with the lug plate through a high-strength pin shaft.

3. The glass curtain wall of the one-way cable point glass system of claim 2, characterized in that: and the ear plates are fixed on the steel embedded plates embedded in the large structural beam in a pre-embedding manner through fusion welding with double grooves.

4. The glass curtain wall of the one-way cable point glass system of claim 3, characterized in that: the point type glass curtain wall is clamped and fixed by the clamp, a cylinder extending outwards is fixed at one end of the clamp, and the vertical stay cable is fixedly connected with the cylinder.

5. The glass curtain wall of the one-way cable point glass system of claim 4, characterized in that: the steel assembly comprises a steel adaptor, a steel pipe, a reinforcing frame and a long steel frame;

the two steel adapters are respectively fixed at the upper end and the lower end of the outer side of the interlayer small structural beam; the two steel adapters clamp the steel pipe, and the fastener penetrates through the steel adapters and the steel pipe to fix the steel adapters and the steel pipe into a whole; the reinforcing frame is fixedly connected with two ends of the steel pipe, is framed around the vertical inhaul cable and the clamp and limits the swinging deformation of the vertical inhaul cable and the clamp; the long steel frame is connected to the two sides of the reinforcing frame.

6. The glass curtain wall of the one-way cable point glass system of claim 5, wherein: the steel adaptor is two L-shaped code pieces which oppositely clamp the steel pipe left and right and are fixed through a fastener; the steel adapter is fixed on the embedded part pre-embedded in the interlayer small structural beam through three-side girth welding of the welding line.

7. The glass curtain wall of the one-way cable point glass system of claim 6, wherein: the reinforcing frame is formed by combining and splicing a plurality of steel plates into a U-shaped body with the upper and lower sealed ends, is framed around the vertical inhaul cable and the clamp, and is padded with a stainless steel gasket and a rubber gasket at the position in contact with the vertical inhaul cable; the two sides of the U-shaped body are provided with the long steel frames which are fixed through fireproof glue, and the long steel frames connect the U-shaped bodies on the same layer.

8. The glass curtain wall of the one-way cable point glass system of claim 7, wherein: the steel composite member's steel pipe inboard is provided with the equal high thickness fire prevention rock wool to it is fixed with little structural beam between the layer through the steel sheet.

9. The glass curtain wall of the one-way cable point glass system of claim 8, wherein: two channel aluminum are fixed between the upper reinforcing frame and the lower reinforcing frame of the steel assembly, and are arranged on two sides of the vertical inhaul cable in a back-to-back manner; and backing plates are fixedly connected to the outer sides of the two channel aluminum.

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