CN221255821U - Single-layer curved surface cable net curtain wall structure with self-balancing internal force - Google Patents

Abstract

The utility model discloses an internal force self-balancing single-layer curved surface cable net curtain wall structure, which comprises: the curtain wall comprises a curtain wall steel truss, a curtain wall steel truss steel column, a steel column connecting beam, a curtain wall truss horizontal support, a curtain wall truss top beam, a curtain wall truss bottom beam, a curtain wall arc column, a curtain wall bottom ring beam, a curtain wall top ring beam, a steel pull rod, a curtain wall vertical cable and a curtain wall bidirectional inclined cable; according to the utility model, the bidirectional inclined cables of the single-layer curved cable net curtain wall structure are anchored on the curtain wall ring beam and the curtain wall vertical cables supported by the curtain wall steel truss, and the curtain wall vertical cables are connected on the curtain wall arc-shaped columns through the steel pull rods, so that a self-balancing stress system is formed, the whole structure has the stress characteristic of self-balancing cable force, the problem that the main structure is heavy in load due to overlarge counter force of the cable net curtain wall system on the main structure in an actual engineering project can be effectively solved, and the increase of main structure design and construction difficulty and construction period due to the fact that the main structure is anchored by the cable is avoided.

Description

Single-layer curved surface cable net curtain wall structure with self-balancing internal force

Technical Field

The utility model relates to the technical field of constructional engineering, in particular to an internal force self-balancing single-layer curved surface cable net curtain wall structure.

Background

The excellent public building is a business card of a city, is memory of the city, and is an important carrier for enriching city functions, concentrating city spirit and culture. The prosperous development of cities promotes the development of public buildings, the requirements of people on functions and attractiveness of large public buildings are higher and higher, the building curtain wall is new, unique and novel, and is in a changeable shape and a unique color light and shadow design, so that the building facade, the building texture expression and the building aesthetic effect are enriched, the important expression form of modern building elements is provided, and the building curtain wall is a remarkable characteristic of modern buildings. With the increasing update of building materials, the improvement and rapid development of manufacturing processes, advanced building parameterization design, and various novel, unique and complex curtain wall forms are largely emerging. The cable structure has the characteristics of high-efficiency structural performance, simple structure, light weight, small section, light weight, large span and good earthquake resistance, and can furthest reduce the space occupied by a supporting system when applied to a single-layer cable net curtain wall structure, and the structure is simple and light, thereby increasing the permeability of the curtain wall and being popular with architects.

The challenges faced by the design of the support structure of the building curtain wall are to meet the safety, rationality, economy and innovation of the structural design, and meanwhile, the building function and the building design concept are met, so that the attractive and transparent visual effect of the building is realized. The construction of the supporting structure system of the building curtain wall needs to comprehensively consider various factors of the building and the structure, and is an interactive design process of the architect and the architect for cooperation fine design, deliberate thinking and decision making.

At present, in large public buildings built at home and abroad, common curtain wall supporting structures comprise solid web beam columns, plane trusses, space trusses, single ropes, cable nets, cable trusses, cable beam/string structures and the like, glass curtain walls and metal curtain walls are mainly used, the single-layer cable net film structure curtain wall is relatively few, the conventional cable net curtain wall structure needs a main body structure to provide larger supporting boundary conditions, or a rigid member is utilized to balance a part of cable force, pretension construction is needed to be implemented on the main body structure, the conventional cable net curtain wall structure also has higher requirements on pretension tensioning of cables, construction tensioning is needed to be completed by special construction teams, difficulty is higher, construction period is longer, and larger prestress is needed to the main body structure and counter force is too large to influence the main body structure. In order to reduce construction difficulty, shorten construction period, reduce the influence to the main structure, make the cable force anchor of cable net structure on the inside rigid member of structure system, make it form self-balancing atress system, solve cable net curtain wall system and to the too big problem of main structure counter-force, avoid the cable anchor on the main structure and cause main structure design and construction difficulty and increase of time limit for a project, simplify main structure design, need design a self-balancing single-layer curved surface cable net curtain wall structural style in order to satisfy building structure requirement for this.

Disclosure of utility model

The utility model aims to provide a single-layer curved surface cable net curtain wall structure with self-balancing internal force, aiming at the defects of the prior art, so as to solve the problem that the counterforce of the prior cable net curtain wall system to a main body structure is overlarge.

The utility model provides an internal force self-balancing single-layer curved surface cable net curtain wall structure, which comprises: curtain wall steel truss, curtain wall steel truss steel column, steel column connecting beam, curtain wall truss horizontal support, curtain wall truss top beam, curtain wall truss bottom beam, curtain wall arc column, curtain wall bottom ring beam, curtain wall top ring beam, steel pull rod, curtain wall vertical cable and curtain wall bidirectional inclined cable.

The curtain wall steel truss steel column is connected to the reinforced concrete main structure through a steel column connecting beam, the curtain wall steel truss is connected to the curtain wall steel truss steel column, the curtain wall arc column is connected to the curtain wall steel truss, and the curtain wall truss horizontal support is connected between the curtain wall arc column and the curtain wall steel truss steel column; the curtain wall top ring beams are connected to two sides of the curtain wall truss top cross beam and are positioned above the curtain wall arc-shaped columns, and the curtain wall bottom ring beams are connected to two sides of the curtain wall truss bottom cross beam and are positioned below the curtain wall arc-shaped columns; the two-way inclined cable and the vertical cable of the curtain wall form a curved surface two-way crossed cable net structure together, two ends of the two-way inclined cable of the curtain wall are anchored and fixed on a curtain wall bottom ring beam and a curtain wall top ring beam, and the middle of the curved surface two-way crossed cable net structure is anchored and fixed on a curtain wall arc column through a steel pull rod by the vertical cable of the curtain wall; the curtain wall bottom ring beam, the curtain wall top ring beam and the curtain wall arc column form a cable net steel frame structure, and a single-layer curved surface cross cable net structure is formed by pretensioning the curtain wall bidirectional inclined cables and the curtain wall vertical cables.

Further, two end parts of the curtain wall vertical cable and the curtain wall bidirectional inclined cable are respectively provided with a double-lug plate fixed anchor, and single-lug plates are welded on the curtain wall bottom ring beam and the curtain wall top ring beam; the double-lug-plate fixed anchorage is connected with the single lug plate on the curtain wall bottom ring beam and the curtain wall top ring beam through pin shafts.

Further, a single lug plate is welded on the curtain wall arc-shaped column, and one end of the steel pull rod is connected with the single lug plate welded on the curtain wall arc-shaped column through a U-shaped adapter and a pin shaft; the other end of the steel pull rod is provided with a steel pull rod double-lug-plate fixed anchor, and the steel pull rod double-lug-plate fixed anchor is connected with a single-lug plate welded on a cable clamp of a curtain wall vertical cable through a pin shaft.

Further, screw rod adjusting type anchorage devices are arranged on the two-way inclined ropes of the curtain wall.

Further, the screw rod adjusting type anchorage device is positioned at the middle section of the bidirectional inclined cable crossing grid of the curtain wall.

The utility model has the following beneficial effects: according to the single-layer curved surface cable net curtain wall structure with self-balancing internal force, the bidirectional inclined cables of the single-layer curved surface cable net curtain wall structure are anchored on the curtain wall ring beam and the curtain wall vertical cables supported by the curtain wall steel truss, and the curtain wall vertical cables are connected to the arc-shaped columns of the curtain wall through the steel pull rods, so that a self-balancing stress system is formed, the whole structure has the stress characteristic of self-balancing cable force, the problem that the main structure is heavy in load due to overlarge counter force of the cable net curtain wall system on the main structure in an actual engineering project can be effectively solved, and the increase of main structure design and construction difficulty and construction period due to the fact that the main structure is anchored by the cable is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a typical cross section of a steel truss support of an internal force self-balancing single-layer curved cable net curtain wall structure;

FIG. 2 is a schematic diagram of the cable net structure of an internal force self-balancing single-layer curved cable net curtain wall structure;

FIG. 3 is a schematic view of a partial arrangement of steel tie rods of an internal force self-balancing single-layer curved cable net curtain wall structure;

FIG. 4 is a view of a two-way diagonal cable node of a curtain wall top ring beam and curtain wall of an internal force self-balancing single-layer curved cable net curtain wall structure;

FIG. 5 shows a curtain wall bottom ring beam and curtain wall bidirectional inclined cable node of an internal force self-balancing single-layer curved cable net curtain wall structure;

FIG. 6 shows a curtain wall truss top cross beam and curtain wall vertical cable node of an internal force self-balancing single-layer curved cable net curtain wall structure;

FIG. 7 shows a curtain wall truss bottom cross beam and curtain wall vertical cable node of an internal force self-balancing single-layer curved cable net curtain wall structure.

Illustration of: 1-a curtain wall steel truss; 2-a curtain wall steel truss steel column; 3-steel column connecting beams; 4-horizontal support of curtain wall truss; 5-a curtain wall truss top beam; 6, a curtain wall truss bottom cross beam; 7-arc columns of curtain walls; 8-a curtain wall bottom ring beam; 9-curtain wall top ring beams; 10-steel tie rod; 11-curtain wall vertical ropes; 12-a curtain wall bidirectional inclined rope; 13-binaural plate fixed anchor; 14-screw adjusting anchorage; 15-U-shaped adapter; 16-steel pull rod double-lug plate fixed anchorage; 17-pin shafts; 18-monaural board.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments. It should be noted that the following detailed description is illustrative and is intended to provide further explanation of the utility model. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs.

Spatially relative terms, such as "above … …," "above … …," "upper surface on … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Exemplary embodiments according to the present application will now be described in more detail with reference to the accompanying drawings. These exemplary embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It should be appreciated that these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of these exemplary embodiments to those skilled in the art, that in the drawings, thicknesses of layers and regions are exaggerated for clarity, and identical reference numerals are used to denote identical devices, and thus descriptions thereof will be omitted.

In order to reduce construction difficulty, shorten construction period and reduce the influence of cable force on the prestress of a main body structure, the utility model designs the single-layer curved surface cable-net curtain wall structure with self-balanced internal force.

Referring to fig. 1 to 7, an embodiment of the present utility model provides an internal force self-balancing single-layer curved cable net curtain wall structure, which includes: curtain wall steel truss 1, curtain wall steel truss steel column 2, steel column connecting beam 3, curtain wall truss horizontal support 4, curtain wall truss top beam 5, curtain wall truss bottom beam 6, curtain wall arc column 7, curtain wall bottom ring beam 8, curtain wall top ring beam 9, steel pull rod 10, curtain wall vertical cable 11, curtain wall bidirectional inclined cable 12, double-lug plate fixed anchor 13, screw adjusting anchor 14, U-shaped adapter 15, steel pull rod double-lug plate fixed anchor 16, pin shaft 17 and single-lug plate 18.

Wherein, curtain steel truss steel column 2 passes through steel column tie beam 3 to be connected on the reinforced concrete major structure that left side and bottom black region show in fig. 1, and curtain steel truss 1 connects on curtain steel truss steel column 2, and curtain arc post 7 is connected on curtain steel truss 1, and curtain truss horizontal support 4 is connected between curtain arc post 7 and curtain steel truss steel column 2. Curtain wall top ring beam 9 is connected to two sides of curtain wall truss top beam 5 and is located above curtain wall arc column 7, and curtain wall bottom ring beam 8 is connected to two sides of curtain wall truss bottom beam 6 and is located below curtain wall arc column 7.

Specifically, a curved surface bidirectional cross cable net structure is formed by the curtain wall bidirectional inclined cable 12 and the curtain wall vertical cable 11, two ends of the curtain wall bidirectional inclined cable 12 are anchored and fixed on the curtain wall bottom ring beam 8 and the curtain wall top ring beam 9, and the curtain wall vertical cable 11 is anchored and fixed on the curtain wall arc column 7 through a steel pull rod 10 in the middle of the curved surface bidirectional cross cable net structure. The curtain wall bottom ring beam 8, the curtain wall top ring beam 9 and the curtain wall arc column 7 form a cable net steel frame structure, and a single-layer curved surface cross cable net structure is formed by pretensioning the curtain wall bidirectional inclined cables 12 and the curtain wall vertical cables 11.

The two end parts of the vertical cable 11 and the bidirectional inclined cable 12 are respectively provided with a double-lug plate fixed anchor 13, and a single-lug plate 18 is welded on the bottom ring beam 8 and the top ring beam 9 of the curtain wall; the double-lug-plate fixed anchor 13 is connected with a single lug plate 18 on the curtain wall bottom ring beam 8 and the curtain wall top ring beam 9 through a pin shaft 17.

If the bidirectional inclined cable 12 of the curtain wall is longer, the screw adjusting type anchorage 14 is arranged at the middle part of the cable to divide the cable length into more uniform sections for cable tensioning adjustment control, and the principle of arranging the screw adjusting type anchorage 14 is that the screw adjusting type anchorage 14 is positioned at the middle section of the bidirectional cross cable net grid to form a uniform and attractive building sequence. The middle of the curtain wall vertical rope 11 is not provided with a screw adjusting type anchorage device 14.

When the two-way inclined cable 12 of curtain wall spans greatly, the cable net deforms greatly, and the rigidity of the cable structure must be improved when the structural performance target requirement is met, so that the cable diameter and the cable pretension force are increased, the increase of the cable force can directly lead to the increase of the load of the curtain wall bottom ring beam 8, the load of the curtain wall top ring beam 9 and the load of the curtain wall arc column 7, the construction difficulty and the construction cost are increased, and meanwhile, the permeation and light effects of the building curtain wall can be influenced. Based on the above, the number of supporting structures of the bidirectional inclined cables 12 of the curtain wall needs to be increased, supporting points are evenly added in the middle of the bidirectional inclined cables 12 of the curtain wall to reduce the span of cable nets, the cable nets are flexible structures, and compared with the cable structures, the steel structures are rigid structures, if the bidirectional inclined cables of the curtain wall are directly connected with arc-shaped columns of the curtain wall, the middle part of each cable net is locally provided with a convex sharp corner discontinuity, and the building effect is affected. In order to meet the building effect, the structural stress system is improved, the arc-shaped column 7 of the curtain wall is retracted for a certain distance, and the vertical cable 11 and the steel pull rod 10 of the curtain wall are added.

The arc-shaped column 7 of the curtain wall is welded with a single lug plate 18, and one end of the steel pull rod 10 is connected with the single lug plate 18 welded on the arc-shaped column 7 of the curtain wall through a U-shaped adapter 15 and a pin shaft; the other end of the steel pull rod 10 is provided with a steel pull rod double-lug plate fixed anchor 16, and the steel pull rod double-lug plate fixed anchor 16 is connected with a single-lug plate 18 welded on a cable clamp of the curtain wall vertical cable 11 through a pin shaft. The curtain wall bottom ring beam 8, the curtain wall top ring beam 9 and the curtain wall arc column 7 form a cable net steel frame structure, and a single-layer curved surface cross cable net structure is formed by pretensioning a curtain wall bidirectional inclined cable 12 and a curtain wall vertical cable 11.

When the cable net is pretensioned, cable force parts of the two-way cable 12 of the curtain wall and the vertical cable 11 of the curtain wall are transferred to the bottom ring beam 8 of the curtain wall and the top ring beam 9 of the curtain wall, other part of cable force is transferred to the arc-shaped column 7 of the curtain wall through the steel pull rod 10, internal force generated by the bottom ring beam 8 of the curtain wall and the top ring beam 9 of the curtain wall is transferred to the bottom beam 6 of the curtain wall and the top beam 5 of the curtain wall, internal force generated by the bottom beam 6 of the curtain wall and the top beam 5 of the curtain wall is transferred to two ends of the arc-shaped column 7 of the curtain wall, and the internal force forms a self-balancing stress system through the arc-shaped column 7 of the curtain wall, so that the whole structure has the stress characteristic of cable force self-balancing. The cable force transmission path generated by the pretension of the single-layer curved cable net structure is formed into an internal force self-balancing structure stress system through the curtain wall bottom ring beam 8, the curtain wall top ring beam 9, the curtain wall truss bottom cross beam 6, the curtain wall truss top cross beam 5 and the curtain wall arc column 7.

Each curtain wall steel truss 1 forms a space steel truss system through a curtain wall truss horizontal support 4, a curtain wall annular steel beam, each curtain wall steel truss 1 is connected with a reinforced concrete structure body through a curtain wall truss steel column 2, and a steel column connecting beam 3. The single-layer curved surface cable net structure and the curtain wall steel truss form a curtain wall lateral force resisting structure system together, resist the action of structural external force together and transfer the external force to the reinforced concrete structure main body.

In summary, the structure of the single-layer curved cable net curtain wall provided by the embodiment of the utility model has reasonable design, the curtain bottom ring beam, the curtain top ring beam and the curtain arc column form a cable net steel frame structure, the curtain bi-directional inclined cables and the vertical cables form a single-layer curved surface cross cable net structure through pretension, the cable force transmission path generated by pretension of the single-layer curved surface cable net structure passes through the curtain bottom ring beam, the curtain top ring beam, the curtain truss bottom beam, the curtain truss top beam and the curtain arc column, and the stress system of the inner force self-balancing structure is the structure of the single-layer curved surface cable net curtain wall with self-balancing inner force, so that the problems of large main structure load, complex design and poor economy caused by excessive reaction force of the cable net curtain wall system to the main structure in actual engineering projects can be effectively solved, the increase of main structure design and construction difficulty and construction period caused by cable anchoring the main structure can be avoided, the actual application of engineering is solved, and a solution is provided for realizing building effect, building body shape and ensuring reasonable stress of the structure.

In addition, when the span of the cable net is larger, the cable net is larger in deformation, the supporting point of the cable net structure can be increased by arranging the steel pull rod and the vertical cable, the cable pretension force can be effectively reduced, the cable diameter can be reduced, and the problem that the middle part of the cable net is locally provided with a convex sharp corner and discontinuous due to the fact that the cable flexible structure is connected with the middle supporting point of the steel rigid structure can be effectively solved, so that the building effect is influenced. For the oversized span of the cable net, the cable net supporting points are to be added, and a solution is provided. For a large-scale curved surface cable net curtain wall structure, the structure system is provided, the effects of building permeability and lightness can be better realized, the construction difficulty is effectively reduced, the construction period is shortened, a large amount of manpower and equipment resources are required to be consumed in construction tensioning, the influence of cable internal force on a main structure is effectively reduced, and the structure system is economical and reasonable.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the application described herein may be capable of being practiced otherwise than as specifically illustrated and described.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. An internal force self-balancing single-layer curved surface cable net curtain wall structure, which is characterized by comprising: the curtain wall comprises a curtain wall steel truss (1), a curtain wall steel truss steel column (2), a steel column connecting beam (3), a curtain wall truss horizontal support (4), a curtain wall truss top beam (5), a curtain wall truss bottom beam (6), a curtain wall arc column (7), a curtain wall bottom ring beam (8), a curtain wall top ring beam (9), a steel pull rod (10), a curtain wall vertical cable (11) and a curtain wall bidirectional inclined cable (12);

The curtain wall steel truss steel column (2) is connected to the reinforced concrete main body structure through a steel column connecting beam (3), the curtain wall steel truss (1) is connected to the curtain wall steel truss steel column (2), the curtain wall arc column (7) is connected to the curtain wall steel truss (1), and the curtain wall truss horizontal support (4) is connected between the curtain wall arc column (7) and the curtain wall steel truss steel column (2);

The curtain wall top ring beams (9) are connected to two sides of the curtain wall truss top cross beam (5) and are positioned above the curtain wall arc-shaped columns (7), and the curtain wall bottom ring beams (8) are connected to two sides of the curtain wall truss bottom cross beam (6) and are positioned below the curtain wall arc-shaped columns (7);

The two-way inclined cable (12) and the vertical cable (11) of the curtain wall jointly form a curved surface two-way crossed cable net structure, two ends of the two-way inclined cable (12) of the curtain wall are anchored and fixed on the bottom ring beam (8) and the top ring beam (9) of the curtain wall, and the middle of the curved surface two-way crossed cable net structure is anchored and fixed on the arc-shaped column (7) of the curtain wall through a steel pull rod (10) by the vertical cable (11) of the curtain wall; the curtain wall bottom ring beam (8), the curtain wall top ring beam (9) and the curtain wall arc column (7) form a cable net steel frame structure, and the curtain wall bidirectional inclined cables (12) and the curtain wall vertical cables (11) form a single-layer curved surface cross cable net structure through pretension.

2. The single-layer curved cable net curtain wall structure with self-balancing internal force according to claim 1, wherein two end parts of the curtain wall vertical cable (11) and the curtain wall bidirectional inclined cable (12) are respectively provided with a double-lug plate fixed anchor (13), and a single-lug plate (18) is welded on the curtain wall bottom ring beam (8) and the curtain wall top ring beam (9); the double-lug-plate fixed anchor (13) is connected with a single lug plate (18) on the curtain wall bottom ring beam (8) and the curtain wall top ring beam (9) through a pin shaft (17).

3. The single-layer curved cable net curtain wall structure with self-balancing internal force according to claim 2, wherein a single-lug plate (18) is welded on the arc-shaped column (7) of the curtain wall, and one end of the steel pull rod (10) is connected with the single-lug plate (18) welded on the arc-shaped column (7) of the curtain wall through a U-shaped adapter (15) and a pin shaft; the other end of the steel pull rod (10) is provided with a steel pull rod double-lug-plate fixed anchor (16), and the steel pull rod double-lug-plate fixed anchor (16) is connected with a single-lug plate (18) welded on a cable clamp of a curtain wall vertical cable (11) through a pin shaft.

4. A single-layer curved cable net curtain wall structure with self-balancing internal force as claimed in claim 3, wherein screw adjusting anchors (14) are arranged on the curtain wall bidirectional inclined cables (12).

5. An internal force self-balancing single layer curved cable net curtain wall structure according to claim 4, wherein the screw adjusting anchor (14) is located at the middle section of the cross grid of the curtain wall bidirectional inclined cables (12).