Travertine curtain wall connecting system
Technical Field
The utility model relates to a building curtain technical field, concretely relates to hole stone curtain wall connected system.
Background
The stone curtain wall has a history of use for many years as a form of curtain wall, and is widely applied to outer facades of various buildings. In the stone curtain wall field, general stone curtain wall all uses granite as the face, but granite plate colour difference is big, the line sense is mediocre, can't be the outer facade prominent quality of modern building.
Travertine (a scientific name called Travertine, Travertine) is a porous limestone. Travertine, which is a land phase sedimentary rock, is a deposit of calcium carbonate. Pores are sometimes generated in the deposition process, the main component of the sediment is calcium carbonate which is easily dissolved and corroded by water, so that a plurality of natural irregular holes are generated in the sediments.
The travertine has a plurality of natural irregular holes, is mostly beige, has mild color sense, rich texture and clear stripes, and can promote the decorated buildings to have strong culture and historical charm. Travertine is a new decorative material in recent years, and is widely applied to indoor walls, indoor floors and the like.
The travertine has uniform lithology, fine and soft texture, small hardness, high water absorption, easy mining, easy processing and easy transportation; the gap structure of the travertine makes the travertine have better sound insulation and heat insulation performance.
Since the travertine surface has a very rough texture, it gives a rough original feeling, and such texture is also the very characteristic. Many architects often choose travertine as a raw material when making the texture of the exterior of a building. However, due to the characteristics of soft texture and small hardness of the travertine, the travertine cannot be applied to a large area in the outer vertical surface of the building all the time, and a novel travertine curtain wall connecting system needs to be designed in order to realize the popularization and the use of the travertine building material in the field of curtain walls.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is: the travertine curtain wall connecting system solves the problem that travertine building materials cannot be popularized and applied to building curtain walls in a large area due to the characteristics of soft texture, small hardness and the like.
In order to achieve the above object, the utility model adopts the following technical scheme:
a travertine curtain wall connecting system comprises a steel keel, travertine components, a long notch formed in each travertine component, an aluminum alloy auxiliary frame fixedly connected with the long notch through a connecting adhesive, an aluminum alloy pressing plate arranged in each aluminum alloy auxiliary frame and used for pressing the aluminum alloy auxiliary frame tightly, a polyurethane heat-insulating layer adhered to the travertine components through an adhesive, and foam rods and sealants filled between gaps of the two travertine components; wherein the aluminum alloy pressing plate is fixed on the steel keel through a screw.
Further, a rubber insulating pad is arranged between the aluminum alloy auxiliary frame and the steel keel.
Furthermore, the inner side and the outer side of the polyurethane heat-insulating layer are also provided with non-woven fabrics.
Further, the aluminum alloy subframe is arranged along the circumference of the travertine member through length.
Furthermore, the aluminum alloy pressing plates are uniformly distributed on the steel keel and are provided with a plurality of aluminum alloy pressing plates.
Furthermore, the aluminum alloy auxiliary frame is formed by vertically butting and combining two C-shaped structures with opposite openings.
Furthermore, the connecting viscose is filled in the part of the aluminum alloy auxiliary frame connected with the travertine member.
Preferably, the connecting adhesive is stone dry-hanging AB adhesive.
Furthermore, polyurethane heat preservation filler is filled in the aluminum alloy auxiliary frame.
Compared with the prior art, the utility model discloses following beneficial effect has:
(1) the utility model discloses a set up the polyurethane heat preservation through bonding on the travertine component, fix the aluminum alloy subframe on the steel joist through the mode that the aluminum alloy clamp plate distance compressed tightly, under the condition that the travertine component produced temperature stress by the temperature influence, can realize the removal that shifts in the plane, eliminate the produced stress of temperature influence, simultaneously, each adapting unit promotes the shock resistance of travertine curtain wall; the setting of polyurethane heat preservation, the part can play heat retaining effect, simultaneously because the characteristic of polyurethane heat preservation itself, when the hole stone component receives external effort, the accessible polyurethane heat preservation carries out the buffering of effort and absorbs, avoid the damage of external effort to the hole stone component, furtherly, bond the non-woven fabrics net in the inside and outside both sides of polyurethane heat preservation, can prevent to fall after the hole stone component is broken, it is little to have solved hole stone building materials hardness itself, the soft shortcoming of texture, establish the basis for the popularization of hole stone building as building curtain.
(2) The utility model discloses a setting of polyurethane heat preservation, the foam stick of filling between two hole stone component gaps to and the polyurethane heat preservation filler of filling in the vice frame of aluminum alloy, constituted the insulation construction layer of whole curtain system, realized building heat retaining function, also played syllable-dividing function simultaneously.
(3) The utility model discloses still be provided with the insulating pad of rubber between vice frame of aluminum alloy and steel joist, avoided different metals to produce electrochemical reaction, prevented galvanic corrosion.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Wherein, the names corresponding to the reference numbers are:
the concrete insulation board comprises 1-travertine members, 2-aluminum alloy auxiliary frames, 3-aluminum alloy pressing plates, 4-screws, 5-connecting viscose glue, 6-polyurethane insulation layers, 7-sealant, 8-rubber insulation pads, 9-steel keels, 10-foam rods, 11-non-woven fabric nets, 12-polyurethane insulation fillers and 13-adhesive.
Detailed Description
The present invention will be further described with reference to the following description and examples, which include but are not limited to the following examples.
As shown in fig. 1:
the utility model provides a travertine curtain wall connected system for solve the travertine building materials and can't promote the problem of being applied to in the building curtain by a large scale because characteristics such as soft texture, hardness are little, include steel joist 9 in its system, travertine component 1, longwall mouth has been seted up to travertine component 1, connect aluminum alloy subframe 2 in the longwall mouth, aluminum alloy subframe 2's cross-section comprises two C type structures that the opening is opposite butt joint combinations from top to bottom, the position of aluminum alloy subframe 2 and travertine component 1 and longwall mouth contact all pours into and connects viscose 5, realize the fixed connection between aluminum alloy subframe 2 and the travertine component 1, preferentially, it hangs AB glue futilely to select the stone material for use to connect viscose 5, promote the connection steadiness between aluminum alloy subframe 2 and the travertine component.
The aluminum alloy auxiliary frame 2 is fixed on the steel keel 9 in a crimping mode, and the specific implementation mode is as follows: set up aluminum alloy pressing plate 3, aluminum alloy pressing plate 3 pushes down aluminum alloy auxiliary frame 2 to fix aluminum alloy pressing plate 3 on steel joist 9 through screw 4, realize that aluminum alloy auxiliary frame 2 and steel joist 9 are connected fixedly, screw 4 is preferred stainless steel coiled head self-tapping from boring the nail. Because the aluminum alloy subframe 2 is fixed on the steel keel in a crimping mode, when the travertine plate is influenced by temperature to generate temperature stress, the stress can enable the travertine plate to displace on the plane, so that the temperature stress is eliminated, and the travertine member is prevented from being damaged under the action of the temperature stress. In order to improve the connection stability between the aluminum alloy auxiliary frame and the travertine member, the aluminum alloy auxiliary frame 2 is arranged along the whole periphery of the travertine member 1, and a plurality of aluminum alloy pressing plates 3 are arranged at equal intervals to improve the connection stability between the aluminum alloy auxiliary frame 2 and the steel keel 2; simultaneously in order to avoid producing electrochemical reaction between the different metals, still be provided with rubber insulation pad 8 between aluminum alloy auxiliary frame 2 and steel joist 9, rubber insulation pad 8 has avoided the direct contact between aluminum alloy auxiliary frame 2 and the steel joist 9, has stopped to take place electrochemical corrosion between aluminum alloy auxiliary frame 2 and the steel joist 1, has improved structural strength and life.
In order to realize the buffer of the external action of the travertine component and overcome the defects of soft texture and small hardness of the travertine component, a polyurethane heat-insulating layer 6 is bonded on the inner side of the travertine component 1 through a bonding agent 13; meanwhile, in order to prevent the broken travertine members from falling, non-woven fabrics 11 are bonded on the inner side and the outer side of the polyurethane heat-insulating layer 6.
In order to improve the heat and sound insulation function of the travertine building curtain wall, a polyurethane heat-insulating filler 12 is filled in the cavity of the aluminum alloy auxiliary frame 2; the foam rod 10 and the sealant 7 are filled between the gaps of the two travertine members 1, and the sealant 7 realizes the waterproof of the gaps; the polyurethane heat-insulating layer 6, the foam rod 10 and the polyurethane heat-insulating filler 12 form a heat-insulating structure layer of the whole curtain wall system, so that the heat-insulating function of a building is realized, and the sound-insulating function is also realized.
The above embodiment is only one of the preferred embodiments of the present invention, and should not be used to limit the protection scope of the present invention, but all the insubstantial changes or modifications made in the spirit and the idea of the main design of the present invention, the technical problems solved by the embodiment are still consistent with the present invention, and all should be included in the protection scope of the present invention.