SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a metal weather-resistant board or weather-resistant tile are poor, life is short with the metal veneer corrosion resistance who solves the steel construction building enclosure that exists among the prior art use, the problem of extravagant metal resource. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.
The utility model provides a metal weather-resistant plate or weather-resistant tile, including the metal level, compound through PE (Polyethylene) polymer adhesive film the modified ASA (acrylic Styrene acrylate copolymer, acrylate rubber body and Acrylonitrile, Styrene graft copolymer) high-rubber powder weather-resistant anticorrosive film or PVDF (vinylidene fluoride, polyvinylidene fluoride) fluorine carbon film or PMMA (Polymethyl methacrylate), of metal level upper surface is in through the compound of PE polymer adhesive film PET (Polyethylene terephthalate) aluminium foil complex film or PVC (Polyvinyl chloride ) membrane under the metal level.
Preferably, a PE protective layer is further arranged on the surface, away from the metal layer, of the modified ASA high-glue-powder weather-resistant anticorrosive film or the PVDF fluorocarbon film compounded on the upper surface of the metal layer.
Preferably, the PE protective layer is naturally vacuum-adsorbed and compounded on the modified ASA high-rubber-powder weather-resistant anticorrosive film or the PVDF fluorocarbon film or the PMMA.
Preferably, the modified ASA high-glue powder weather-resistant anticorrosive film or the PVDF fluorocarbon film or the PMMA, and the PET aluminum foil composite film or the PVC film are compounded on the PE high-polymer adhesive film through adhesives.
Preferably, the PE polymer adhesive film is compounded on the metal layer by heating at a high temperature.
Preferably, the adhesive is a polyurethane solvent glue.
Preferably, the metal layer is made of a high-strength galvanized plate.
Preferably, the metal layer is made of an aluminum plate or a copper plate.
Preferably, the modified ASA high-glue-powder weather-resistant anticorrosive film or the PVDF fluorocarbon film or the PMMA and the PET aluminum foil composite film or the PVC film are matched with the shape and size of the outline of the metal layer.
Preferably, the metal weather-resistant plate or tile is embossed with a wave structure, a raised structure or a texture structure.
The utility model discloses a metal weather-resistant plate or weather-resistant tile, including the metal level, compound weather-resistant anticorrosive film of modified ASA high glue powder or PVDF fluorine carbon film or PMMA at the metal level upper surface through PE polymer bonding film, compound at metal level lower surface PET aluminium foil complex film or PVC membrane through PE polymer bonding film. The modified ASA high-glue-powder weather-resistant anticorrosive film or PVDF fluorocarbon film or PMMA and PET aluminum foil composite film or PVC film has corrosion resistance, can effectively prevent corrosive media or oxidative media from corroding the middle metal layer, and is compounded on the metal layer through the PE high-polymer adhesive film, so that the anticorrosive effect is achieved, and the service life of the metal layer is greatly prolonged. By the arrangement, the problems that in the prior art, a metal veneer used for the steel structure building enclosure is poor in corrosion resistance, short in service life and capable of wasting metal resources are solved.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
The purpose of the present embodiment is to provide a metal weather-resistant plate or tile, which solves the problems of poor corrosion resistance, short service life and metal resource waste of a metal veneer used for steel structure building enclosure in the prior art.
Hereinafter, embodiments will be described with reference to the drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.
Referring to fig. 1, in the present embodiment, the metal weather-resistant plate or tile includes a metal layer 4, a modified ASA high-glue weather-resistant anticorrosive film 2 or a PVDF fluorocarbon film or PMMA laminated on the upper surface of the metal layer 4 through a PE high-polymer adhesive film 3, and a PET aluminum foil composite film 5 or a PVC film laminated on the lower surface of the metal layer 4 through the PE high-polymer adhesive film 3. The metal layer 4 is a high-strength galvanized plate or an aluminum plate or a copper plate. Specifically, the modified ASA high-rubber-powder weather-resistant anticorrosive film 2, the PVDF fluorocarbon film, the PMMA, the PET aluminum foil composite film 5 and the PVC film have good chemical corrosion resistance, and the PVDF fluorocarbon film also has high temperature resistance, oxidation resistance and weather resistance; the modified ASA high-glue-powder weather-resistant anticorrosive film 2 also has good weather resistance, so that the metal layer compounded with the modified ASA high-glue-powder weather-resistant anticorrosive film 2 can cope with the influence brought by climate change and can resist the damage of light, cold, hot, wind, rain, bacteria and the like to the metal layer; the PET aluminum foil composite film 5 also has a good light reflecting effect and can play a role in heat insulation. Wherein, the modified ASA high-glue powder weather-proof anticorrosive film 2 or the PVDF fluorocarbon film or the PMMA film is selected from any one of the three to be compounded on the upper surface of the metal layer 4, and the PET aluminum foil composite film 5 or the PVC film is selected from any one of the two to be compounded on the lower surface of the metal layer 4. In other embodiments, the five films have corrosion resistance, so that the five films with corrosion resistance can be combined on the metal layer 4 at will, and the purpose of preventing the metal layer 4 from being corroded can be achieved.
The modified ASA high-glue-powder weather-resistant anticorrosive film 2 or PVDF fluorocarbon film or PMMA and the PET aluminum foil composite film 5 or PVC film have corrosion resistance, can effectively prevent corrosive media or oxidative media from corroding the middle metal layer 4, and are compounded on the metal layer 4 through the PE high-polymer adhesive film 3, so that the anticorrosive effect is achieved, and the service time of the metal layer 4 is greatly prolonged. By the arrangement, the problems that in the prior art, a metal veneer used for the steel structure building enclosure is poor in corrosion resistance, short in service life and capable of wasting metal resources are solved.
As an optional embodiment, a PE protective layer 1 is further disposed on the surface of the modified ASA high-glue weather-resistant anticorrosive film 2 or PVDF fluorocarbon film or PMMA compounded on the upper surface of the metal layer 4 away from the metal layer 4. The PE protective layer 1 is made of a PE protective film, the PE protective film is good in weather resistance, not prone to corrosion and pollution, the metal layer 4 can be protected from being scratched in the transportation and use processes, and the original smooth and bright surface is kept.
Specifically, the PE protective layer 1 is compounded on the modified ASA high-rubber-powder weather-resistant anticorrosive film 2 or the PVDF fluorocarbon film or the PMMA through natural vacuum adsorption, namely, the PE protective film is adhered to the modified ASA high-rubber-powder weather-resistant anticorrosive film or the PVDF fluorocarbon film or the PMMA through the self-adhesion of the PE protective film.
One of the modified ASA high-glue-powder weather-resistant anticorrosive film 2 or the PVDF fluorocarbon film or the PMMA and one of the PET aluminum foil composite film 5 or the PVC film are compounded on the PE high-polymer adhesive film 3 through adhesives. The adhesive may be a polyurethane solvent glue, but is not limited to a polyurethane solvent glue. In other embodiments, the PE polymer adhesive film 3 may be adhered to itself by its own adhesiveness or may be adhered to itself by heating at a high temperature.
The PE polymer adhesive film 3 is compounded on the metal layer 4 by high-temperature heating, namely, after the film layers are pre-bonded, the pre-metal layers 4 of the film layers which are pre-compounded are bonded together under the high-temperature heating state.
In order to carry out all-round anticorrosion on the metal layer 4, the shape and the size of the modified ASA high-glue-powder weather-resistant anticorrosive film 2 or the PVDF fluorocarbon film or the PMMA, and the shape and the size of the PET aluminum foil composite film 5 or the PVC film are matched with the shape and the size of the outline of the metal layer 4.
The metal weather-resistant plate or the weather-resistant tile is pressed with a wave structure, a convex structure or a grain structure. And shearing, folding and pressing different convex structures or wave structures by pressing equipment according to different application places and different requirements. For example, the decorative plate is pressed into a wall surface shape and a tile surface shape for use, and can also be pressed into different lines, and the bulges are used as modeling to enable the decorative plate to have decoration.
The metal weather-resistant plate or the weather-resistant tile is specifically explained by combining the above embodiments, and the metal weather-resistant plate or the weather-resistant tile comprises a metal layer 4, a modified ASA high-glue-powder weather-resistant anticorrosive film 2 or a PVDF fluorocarbon film or PMMA which is compounded on the upper surface of the metal layer 4 through a PE high-polymer adhesive film 3, and a PET aluminum foil composite film 5 or a PVC film which is compounded on the lower surface of the metal layer 4 through the PE high-polymer adhesive film 3. The metal layer 4 is made of high-strength galvanized sheet or aluminum sheet or copper sheet. The modified ASA high-glue-powder weather-resistant anticorrosive film 2 or the PVDF fluorocarbon film or the PMMA compounded on the upper surface of the metal layer 4 is further provided with a PE protective layer 1 on the surface, which is far away from the metal layer 4, and the PE protective layer 1 is adsorbed on the modified ASA high-glue-powder weather-resistant anticorrosive film 2 or the PVDF fluorocarbon film or the PMMA through natural vacuum. The modified ASA high-glue-powder weather-resistant anticorrosive film 2 or the PVDF fluorocarbon film or the PMMA and the PET aluminum foil composite film 5 or the PVC film are compounded on the PE high-polymer adhesive film 3 through adhesives, and the PE high-polymer adhesive film 3 is compounded on the metal layer 4 through high-temperature heating. The modified ASA high-glue-powder weather-resistant anticorrosive film 2 or PVDF fluorocarbon film or PMMA and PET aluminum foil composite film 5 or PVC film are matched with the shape and size of the outline of the metal layer 4. The metal weather-resistant plate or the weather-resistant tile is pressed with a wave structure, a convex structure or a grain structure.
According to the arrangement, the corrosion of a corrosive medium or an oxidative medium to the middle metal layer 4 is blocked by compounding the modified ASA high-glue-powder weather-resistant anticorrosive film 2 or the PVDF fluorocarbon film or the PMMA on the upper surface of the metal layer 4 and compounding the PET aluminum foil composite film 5 or the PVC film on the lower surface of the metal layer 4, so that the problems of poor corrosion resistance, short service life and metal resource waste of the metal veneer used for steel structure building enclosure in the prior art are solved.
It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments. The utility model provides a plurality of schemes contain the basic scheme of itself, mutual independence to restrict each other, but it also can combine each other under the condition of not conflicting, reaches a plurality of effects and realizes jointly.
The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.