CN217917098U - High-hardness waterproof corrosion-resistant nano coating structure - Google Patents

Abstract

The utility model discloses a waterproof corrosion-resistant nanometer coating structure of high rigidity, including core structure and outer protective layer, the outer protective layer parcel is at the surface of core structure, and the inside of outer protective layer comprises stereoplasm structural covering, compound waterproof covering and corrosion-resistant covering jointly, and stereoplasm structural covering parcel is at the surface of compound waterproof covering, and the internal surface of corrosion-resistant covering cladding at compound waterproof covering, the inside of stereoplasm structural covering is provided with nanometer dope layer, wear-resistant coating and stereoplasm alloy layer respectively, the inside of compound waterproof covering comprises nanometer waterproof layer, PVC waterproof layer and high-density waterproof fibre layer jointly, the inside of corrosion-resistant covering comprises nickel plating covering, alloy covering and carbon fibre covering jointly. The utility model discloses a be provided with compound outer protective layer structure, possess excellent high hardness performance, waterproof performance and corrosion resisting property, and then can provide good safety protection effect for the core structure.

Description

High-hardness waterproof corrosion-resistant nano coating structure

Technical Field

The utility model relates to a nanometer protection architecture technical field specifically is a waterproof corrosion-resistant nanometer coating structure of high rigidity.

Background

The nano coating refers to an advanced process of a nano nontoxic coating and a nano coating technology with high technological content. The high-tech nano coating is non-toxic and harmless, and can slowly release a substance to degrade indoor formaldehyde, xylene and other harmful substances. All the traditional surface coating technology can be used or slightly modified to realize the nano material composite coating.

The existing nano coating structure has a single protection function, the safety protection performance is not perfect enough, and a good and comprehensive protection effect cannot be provided for a core structure, so that the market needs to develop a novel high-hardness waterproof corrosion-resistant nano coating structure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a waterproof corrosion-resistant nanometer coating structure of high rigidity to solve the present nanometer coating structure safeguard function that proposes in the above-mentioned background art comparatively single, the safety protection performance is perfect inadequately, can't provide the problem of good comprehensive protection effect for the core structure.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a waterproof corrosion-resistant nanometer coating structure of high rigidity, includes core structure and outer protective layer, outer protective layer parcel is at the surface of core structure, and the inside of outer protective layer comprises stereoplasm structural covering, compound waterproof covering and corrosion-resistant covering jointly, and stereoplasm structural covering parcel is at the surface of compound waterproof covering, and the internal surface at compound waterproof covering is wrapped up in to corrosion-resistant covering, the inside of stereoplasm structural covering is provided with nanometer dope layer, wear-resistant coating and stereoplasm alloy layer respectively, the inside of compound waterproof covering comprises nanometer waterproof layer, PVC waterproof layer and high-density waterproof fibre layer jointly, the inside of corrosion-resistant covering comprises nickel plating covering, alloy covering and carbon fibre covering jointly.

Preferably, the nano-coating layer is coated on the outer surface of the wear-resistant coating, and the wear-resistant coating is coated on the outer surface of the hard alloy layer.

Preferably, the nano waterproof layer is coated on one side surface of the PVC waterproof layer.

Preferably, the high-density waterproof fiber layer is coated on the surface of the other side of the PVC waterproof layer.

Preferably, the nickel-plated cladding layer is coated on one side surface of the alloy cladding layer, and the carbon fiber cladding layer is coated on the other side surface of the alloy cladding layer.

Preferably, the hard structure cladding, the composite waterproof cladding and the corrosion-resistant cladding are of an integrally formed structure.

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

(1) The interior of the outer protective layer is composed of a hard structure cladding, a composite waterproof cladding and a corrosion-resistant cladding, a nano coating layer, a wear-resistant coating and a hard alloy layer are respectively arranged in the hard structure cladding, the hard structure cladding is coated with the wear-resistant coating and the nano coating layer, and the alloy layer with high structural hardness is pressed, so that the overall hardness of the outer protective layer is improved, and the friction, collision and deformation are prevented;

(2) The composite waterproof coating is internally formed by a nano waterproof layer, a PVC waterproof layer and a high-density waterproof fiber layer, and is formed by pressing by adopting a multilayer waterproof sealing structure, so that the permeation of water molecules can be effectively blocked, and a good waterproof and anti-permeation effect is achieved;

(3) The corrosion-resistant coating is internally composed of a nickel-plated coating, an alloy coating and a carbon fiber coating, and the nickel-plated coating, the alloy coating and the carbon fiber coating have excellent corrosion resistance and cannot cause corrosion damage after long-term use.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the inner structure of the outer protective layer of the present invention;

FIG. 3 is a schematic view of the internal structure of the hard cladding according to the present invention;

FIG. 4 is a schematic view of the internal structure of the composite waterproof covering of the present invention;

fig. 5 is a schematic diagram of the internal structure of the corrosion-resistant cladding of the present invention.

In the figure: 1. an outer protective layer; 2. a core structure; 3. a hard structural cladding; 4. a composite waterproof coating; 5. a corrosion-resistant cladding; 6. a nano-coating layer; 7. a wear-resistant coating; 8. a hard alloy layer; 9. a nano waterproof layer; 10. a PVC waterproof layer; 11. a high-density waterproof fiber layer; 12. plating a nickel cladding; 13. an alloy cladding; 14. and (5) carbon fiber cladding.

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.

Referring to fig. 1-5, the present invention provides an embodiment: the utility model provides a waterproof corrosion-resistant nanometer coating structure of high rigidity, including core structure 2 and outer protective layer 1, outer protective layer 1 parcel is at core structure 2's surface, outer protective layer 1's inside is by hard structure covering 3, compound waterproof covering 4 and corrosion-resistant covering 5 constitute jointly, hard structure covering 3 parcel is at compound waterproof covering 4's surface, corrosion-resistant covering 5 cladding is at compound waterproof covering 4's internal surface, hard structure covering 3's inside is provided with nanometer dope layer 6 respectively, wear-resistant coating 7 and hard alloy layer 8, compound waterproof covering 4's inside is by nanometer waterproof layer 9, PVC waterproof layer 10 and high-density waterproof fiber layer 11 constitute jointly, corrosion-resistant covering 5's inside is by nickel plating covering 12, alloy covering 13 and carbon fibre covering 14 constitute jointly.

Further, the nano-coating layer 6 is coated on the outer surface of the wear-resistant coating layer 7, and the wear-resistant coating layer 7 is coated on the outer surface of the hard alloy layer 8.

Further, the nano waterproof layer 9 is coated on one side surface of the PVC waterproof layer 10.

Further, the high-density waterproof fiber layer 11 is coated on the other side surface of the PVC waterproof layer 10.

Further, the nickel plating cladding 12 is coated on one side surface of the alloy cladding 13, and the carbon fiber cladding 14 is coated on the other side surface of the alloy cladding 13.

Furthermore, the hard structure cladding 3, the composite waterproof cladding 4 and the corrosion-resistant cladding 5 are integrally formed.

The working principle is as follows: when the waterproof coating is used, the outer protection layer 1 is wrapped on the outer surface of the core structure 2, the inner part of the outer protection layer 1 is formed by the hard structure cladding 3, the composite waterproof cladding 4 and the corrosion-resistant cladding 5 together, the hard structure cladding 3 is wrapped on the outer surface of the composite waterproof cladding 4, the corrosion-resistant cladding 5 is wrapped on the inner surface of the composite waterproof cladding 4, the nano coating layer 6, the wear-resistant coating 7 and the hard alloy layer 8 are arranged inside the hard structure cladding 3 respectively, the hard structure cladding 3 is wrapped by the wear-resistant coating and the nano coating layer 6, meanwhile, the alloy layer with high structural hardness is used for pressing, the overall hardness performance of the outer protection layer is improved, friction, collision and deformation are prevented, the composite waterproof cladding 4 is formed by the nano waterproof layer 9, the PVC waterproof layer 10 and the high-density waterproof fiber layer 11 together, the composite cladding waterproof 4 is arranged inside the outer protection layer is formed by pressing through the multiple layers of waterproof sealing structures, water molecules can be effectively blocked, a good waterproof and permeation-proof effect is achieved, the corrosion-resistant cladding 5 is formed by the nano cladding 12, the alloy cladding 13 and the carbon fiber cladding 14 together, and the corrosion-resistant cladding can not be damaged after long-term use.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a waterproof corrosion-resistant nanometer coating structure of high rigidity, includes core structure (2) and outer protective layer (1), its characterized in that, outer protective layer (1) parcel is at the surface of core structure (2), and the inside of outer protective layer (1) comprises stereoplasm structure covering (3), compound waterproof covering (4) and corrosion-resistant covering (5) jointly, and stereoplasm structure covering (3) parcel is at the surface of compound waterproof covering (4), and corrosion-resistant covering (5) cladding is at the internal surface of compound waterproof covering (4), the inside of stereoplasm structure covering (3) is provided with nanometer dope layer (6), wear-resistant coating (7) and hard alloy layer (8) respectively, the inside of compound waterproof covering (4) comprises nanometer waterproof layer (9), PVC waterproof layer (10) and high secret waterproof fibre layer (11) jointly, the inside of corrosion-resistant covering (5) comprises nickel plating covering (12), alloy covering (13) and carbon fibre layer (14) jointly.

2. The high-hardness waterproof corrosion-resistant nano-coating structure according to claim 1, wherein: the nano-coating layer (6) is coated on the outer surface of the wear-resistant coating (7), and the wear-resistant coating (7) is coated on the outer surface of the hard alloy layer (8).

3. The high-hardness waterproof corrosion-resistant nano-coating structure according to claim 1, wherein: the nanometer waterproof layer (9) is coated on one side surface of the PVC waterproof layer (10).

4. The high-hardness waterproof corrosion-resistant nano-coating structure according to claim 1, wherein: the high-density waterproof fiber layer (11) is coated on the surface of the other side of the PVC waterproof layer (10).

5. The high-hardness waterproof corrosion-resistant nano-coating structure according to claim 1, wherein: the nickel-plated cladding (12) is coated on one side surface of the alloy cladding (13), and the carbon fiber cladding (14) is coated on the other side surface of the alloy cladding (13).

6. The high-hardness waterproof corrosion-resistant nano-coating structure according to claim 1, wherein: the hard structure cladding (3), the composite waterproof cladding (4) and the corrosion-resistant cladding (5) are of an integrally formed structure.

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