CN213573610U - Aluminum metal door and window with good corrosion resistance effect - Google Patents

Abstract

The utility model discloses an aluminium metal door and window that corrosion-resistant effect is good, including the substrate layer, the outside of substrate layer has the enhancement layer through epoxy glue joint, the corrosion resistant layer is scribbled in the outside of enhancement layer, the corrosion resistant layer includes nanometer titanium organic anti-corrosion coating and zirconium titanium alloy coating and polytetrafluoroethylene coating, the outside on corrosion resistant layer is scribbled and is equipped with the wearing layer, the wearing layer includes alumina ceramic coating and the wear-resisting spraying material layer of polyurethane, the enhancement layer includes aramid fiber, and the thickness of enhancement layer is zero seven to zero one time of substrate layer thickness, nanometer titanium organic anti-corrosion coating is located the outside of enhancement layer, zirconium titanium alloy coating is located the outside of nanometer titanium organic anti-corrosion coating. The utility model discloses an effect of corrosion resistant coating and wearing layer has solved current aluminium metal door and window and has had corrosion resistant effect poor, can't satisfy people's user demand, has restricted the problem of its development and popularization.

Description

Aluminum metal door and window with good corrosion resistance effect

Technical Field

The utility model relates to a door and window technical field specifically is an aluminium metal door and window that corrosion-resistant effect is good.

Background

The door and the window are important components in a building enclosure structure system, the door and the window are divided into enclosure components or partition components according to different positions, the door and the window have different design requirements and respectively have the functions of heat preservation, heat insulation, sound insulation, water resistance, fire resistance and the like, new requirements for energy conservation are met, heat lost by door and window gaps in cold regions accounts for about 25% of the total heating heat consumption, the requirement for the sealing performance of the door and the window is important content in energy conservation design, the shape, the size, the proportion, the arrangement, the color, the shape and the like of the door and the window have great influence on the integral shape of a building, and the aluminum door and window appears in the market in order to meet the requirements of people.

The applicant finds that at least the following technical problems exist in the prior art: the existing aluminum metal door and window is poor in corrosion resistance effect, cannot meet the use requirements of people, and is limited in development and popularization, so that the aluminum metal door and window with the good corrosion resistance effect is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a corrosion-resistant effectual aluminium metal door and window to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an aluminium metal door and window that corrosion-resistant effect is good, includes the substrate layer, the outside of substrate layer has connect the enhancement layer through the epoxy glue, the corrosion resistant layer is scribbled in the outside of enhancement layer, the corrosion resistant layer includes nanometer titanium organic anticorrosive coating and zirconium titanium alloy coating and polytetrafluoroethylene coating, the wearing layer is scribbled in the outside of corrosion resistant layer, the wearing layer includes the wear-resistant spraying material layer of alumina ceramic coating and polyurethane.

Preferably, the reinforcing layer comprises aramid fibers, and the thickness of the reinforcing layer is from zero seven to zero one times the thickness of the base layer.

Preferably, the nano titanium organic anticorrosive coating is located on the outer side of the reinforcing layer, the zirconium titanium alloy coating is located on the outer side of the nano titanium organic anticorrosive coating, and the polytetrafluoroethylene coating is located on the outer side of the zirconium titanium alloy coating.

Preferably, the alumina ceramic coating is positioned on the outer side of the corrosion-resistant layer, and the polyurethane wear-resistant spraying material layer is positioned on the outer side of the alumina ceramic coating.

Preferably, the thickness of the corrosion-resistant layer is zero two to zero three times the thickness of the base material layer, and the thickness of the wear-resistant layer is zero one-five to zero two-five times the thickness of the base material layer.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses an effect on corrosion resistant layer, under the cooperation of nanometer titanium organic anticorrosive coating and zirconium titanium alloy coating and polytetrafluoroethylene coating, make this metal door and window possess the effect of the corrosion-resistant protection of three-layer, the purpose that corrosion-resistant effect is good has been reached, effect through the wearing layer, under the cooperation on aluminium oxide ceramic coating and the wear-resisting spraying material layer of polyurethane, make this metal door and window possess the effect of two-layer wear-resisting protection, the purpose that wear-resisting effect is good has been reached, and simultaneously, effectual protection has been played to corrosion resistant layer, through the effect of above structure complex, it is poor to have solved current aluminium metal door and window, can't satisfy people's user demand, the problem of its development and popularization has been restricted.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the corrosion-resistant layer of the present invention;

fig. 3 is a schematic view of the structure of the wear-resistant layer of the present invention.

In the figure: 1. a substrate layer; 2. an enhancement layer; 3. a corrosion resistant layer; 31. nano titanium organic anticorrosive coating; 32. a zirconium titanium alloy coating; 33. a polytetrafluoroethylene coating; 4. a wear layer; 41. an alumina ceramic coating; 42. a wear-resistant polyurethane spraying material layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The utility model discloses a substrate layer 1, enhancement layer 2, corrosion resistant layer 3, the organic anticorrosive coating of nanometer titanium 31, zirconium titanium alloy coating 32, polytetrafluoroethylene coating 33, wearing layer 4, alumina ceramic coating 41 and the wear-resisting spraying material layer 42 part of polyurethane are the parts that general standard spare or field technician know, and its structure and principle all are this technical staff's accessible technical manual and learn or learn through conventional experimental method.

Referring to fig. 1-3, an aluminum metal door and window with good corrosion resistance effect comprises a substrate layer 1, an enhancement layer 2 is bonded on the outer side of the substrate layer 1 through epoxy glue, the enhancement layer 2 comprises aramid fiber, and the thickness of the enhancement layer 2 is from zero seven to one time of the thickness of the substrate layer 1, so that the strength of the metal door and window is improved, the service life of the metal door and window is prolonged, a corrosion-resistant layer 3 is coated on the outer side of the enhancement layer 2, the corrosion-resistant layer 3 comprises a nano titanium organic corrosion-resistant coating 31, a zirconium titanium alloy coating 32 and a polytetrafluoroethylene coating 33, the nano titanium organic corrosion-resistant coating 31 is positioned on the outer side of the enhancement layer 2, the zirconium titanium alloy coating 32 is positioned on the outer side of the nano titanium organic corrosion-resistant coating 31, the polytetrafluoroethylene coating 33 is positioned on the outer side of the zirconium titanium alloy coating 32, under the cooperation of the nano titanium organic corrosion-resistant coating 31, the zirconium titanium alloy coating 32 and the polytetrafluoroethylene coating 33, make this metal door and window possess the effect of three-layer corrosion-resistant protection, the purpose that corrosion-resistant effect is good has been reached, wearing layer 4 is scribbled in the outside of corrosion-resistant layer 3, the thickness of corrosion-resistant layer 3 is two to three times zero point of substrate layer 1 thickness, the thickness of wearing layer 4 is one five to two five times zero point of substrate layer 1 thickness, wearing layer 4 includes aluminium oxide ceramic coating 41 and polyurethane wear-resistant spraying material layer 42, aluminium oxide ceramic coating 41 is located the outside of corrosion-resistant layer 3, polyurethane wear-resistant spraying material layer 42 is located the outside of aluminium oxide ceramic coating 41, through wearing layer 4's effect, under the cooperation of aluminium oxide ceramic coating 41 and polyurethane wear-resistant spraying material layer 42, make this metal door and window possess the effect of two-layer wear-resistant protection, the good purpose of wear-resistant effect has been reached, and simultaneously, effectual protection has been played corrosion-resistant layer 3.

During the use, through the effect of corrosion resistant layer 3, under the cooperation of nanometer titanium organic anticorrosive coating 31 and zirconium titanium alloy coating 32 and polytetrafluoroethylene coating 33, make this metal door and window possess the effect of three-layer corrosion-resistant protection, the good purpose of corrosion resistant effect has been reached, through the effect of wearing layer 4, under the cooperation of aluminium oxide ceramic coating 41 and polyurethane wear-resistant spraying material layer 42, make this metal door and window possess the effect of two-layer wear-resistant protection, the good purpose of wear-resistant effect has been reached, and simultaneously, effectual protection has been played to corrosion resistant layer 3, through the effect of above structure complex, it is poor to have solved current aluminium metal door and window, can't satisfy people's user demand, the problem of its development and popularization has been restricted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an aluminium metal door and window that corrosion-resistant effect is good, includes substrate layer (1), its characterized in that: the outside of substrate layer (1) has enhancement layer (2) through the epoxy glue joint, corrosion resistant layer (3) are scribbled in the outside of enhancement layer (2), corrosion resistant layer (3) are including nanometer titanium organic anticorrosive coating (31) and zirconium titanium alloy coating (32) and polytetrafluoroethylene coating (33), wearing layer (4) are scribbled in the outside of corrosion resistant layer (3), wearing layer (4) are including alumina ceramic coating (41) and wear-resisting spraying material layer (42) of polyurethane.

2. The aluminum metal door and window with good corrosion resistance of claim 1, characterized in that: the reinforcing layer (2) comprises aramid fibers, and the thickness of the reinforcing layer (2) is zero seven to one time of the thickness of the base material layer (1).

3. The aluminum metal door and window with good corrosion resistance of claim 1, characterized in that: the nano titanium organic anti-corrosion coating (31) is located on the outer side of the enhancement layer (2), the zirconium titanium alloy coating (32) is located on the outer side of the nano titanium organic anti-corrosion coating (31), and the polytetrafluoroethylene coating (33) is located on the outer side of the zirconium titanium alloy coating (32).

4. The aluminum metal door and window with good corrosion resistance of claim 1, characterized in that: the aluminum oxide ceramic coating (41) is positioned on the outer side of the corrosion-resistant layer (3), and the polyurethane wear-resistant spraying material layer (42) is positioned on the outer side of the aluminum oxide ceramic coating (41).

5. The aluminum metal door and window with good corrosion resistance of claim 1, characterized in that: the thickness of the corrosion-resistant layer (3) is two to three times of zero point of the thickness of the base material layer (1), and the thickness of the wear-resistant layer (4) is one-five to two-five times of zero point of the thickness of the base material layer (1).

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