CN214994798U - High-strength real stone paint coating - Google Patents

Abstract

The application relates to a real mineral varnish coating of high strength, it includes the outer wall, sets gradually in the putty layer of outer wall, priming paint layer, real mineral varnish layer and finish coat paint layer, is equipped with the buffer layer between priming paint layer and the finish coat paint layer, and the buffer layer is including setting gradually in the elastic coating layer of priming paint layer, bonding layer and dodging the layer. This application has the effect of improving real mineral varnish coating and easily receiving the difference in temperature influence and the problem of crack appears.

Description

High-strength real stone paint coating

Technical Field

The application relates to the field of coating technology, in particular to a high-strength real stone paint coating.

Background

The stone-like paint has strong decoration and thick slurry type paint imitating natural stone, marble and granite. The stone has natural color, has the texture of natural stone, has various line grid designs, can provide pattern structures with various three-dimensional shapes, can show the elegance and the solemn beauty of the whole building visually, and is the best substitute for the dry hanging stone of the outer wall. Therefore, the real stone paint coating is used more frequently, but in some areas with large day-night temperature difference, the real stone paint coating is easy to crack, so that the attractiveness of the coating is influenced, and improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to improve real mineral varnish coating and easily receive the difference in temperature influence and the problem that the crack appears, this application provides a real mineral varnish coating of high strength.

The application provides a real mineral varnish coating of high strength adopts following technical scheme:

the utility model provides a real mineral varnish coating of high strength, includes the outer wall, sets gradually in putty layer, priming paint layer, real mineral varnish layer and finish coat paint layer of outer wall, the priming paint layer with be equipped with the buffer layer between the finish coat paint layer, the buffer layer is including setting gradually in elastic coating layer, the bonding layer of priming paint layer and dodging the layer.

Through adopting above-mentioned technical scheme, when real stone lacquer layer atress deformation because of the difference in temperature, the elastic coating layer in the buffer layer can produce deformation to make real stone lacquer layer obtain the buffering, reduce real stone lacquer layer receive the difference in temperature influence and expend with heat and contract with cold and the cracked possibility of atress, improve real stone lacquer coating and easily receive the difference in temperature influence and appear cracked problem.

Optionally, the elastic coating layer is an inorganic polymer elastic coating layer, the bonding layer is a PE paint layer, and the avoiding layer is a mesh cloth layer.

By adopting the technical scheme, the inorganic high-molecular elastic coating has the advantages of good aging resistance, good heat resistance, large surface hardness and the like, does not produce pollutants, and has environmental protection. PE paints have the advantage of "100% reactivity", i.e.the liquid composition can be converted completely into a solid polymer without the release of by-products under the action of initiators. The mesh cloth has high strength and good alkali resistance, and can enhance the strength of the coating.

Optionally, a plurality of avoidance grooves are formed in the elastic coating layer.

Through adopting above-mentioned technical scheme, dodge the groove and can provide deformation space for the buffer layer, make the buffer layer be difficult for because of the fracture of deformation.

Optionally, a plurality of first bonding grooves are formed in the primer layer, and the elastic coating layer is embedded in the first bonding grooves to increase the contact area of the primer layer and the elastic coating layer.

Through adopting above-mentioned technical scheme, increase through setting up first cohere the groove the priming paint layer with the area of contact of elastic coating layer reduces the possibility that first waterproof layer drops.

Optionally, a leveling layer is arranged between the outer wall and the putty layer.

By adopting the technical scheme, the surface of the outer wall is paved by arranging the leveling layer, so that the putty layer is convenient to lay.

Optionally, a heat insulation layer is arranged between the real stone paint layer and the cover paint layer.

Through adopting above-mentioned technical scheme, it is thermal-insulated through setting up the insulating layer, reduce the great influence to real stone lacquer layer production of the difference in temperature round the clock.

Optionally, glass beads are arranged in the heat insulation layer, and the glass beads are hollow glass beads.

By adopting the technical scheme, the heat insulation effect of the heat insulation layer is enhanced by arranging the hollow glass beads, so that the protection effect of the heat insulation layer is better.

Optionally, the second has been seted up on real stone paint layer and has been cohered the groove, the second glues the groove confession cover finish paint layer embedding in order to increase real stone paint layer with the area of contact on cover finish paint layer.

Through adopting above-mentioned technical scheme, bond the groove increase through setting up the second real stone lacquer layer with the area of contact of insulating layer reduces the possibility that the insulating layer drops, makes more stable setting in real stone lacquer layer of insulating layer.

Optionally, a protective layer is arranged on the finish paint layer, a protrusion is arranged on the protective layer, and a groove for the protrusion to be embedded is formed in the finish paint layer.

Through adopting above-mentioned technical scheme, through setting up the area of connection between protruding and the recess increase finish paint layer and the inoxidizing coating to improve the joint strength between finish paint layer and the inoxidizing coating.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the real stone paint layer is buffered by arranging the buffer layer, so that the possibility that the real stone paint layer is broken due to stress caused by expansion with heat and contraction with cold due to the influence of temperature difference is reduced, and the problem that the real stone paint layer is easy to be influenced by the temperature difference to cause cracks is solved;

2. the heat insulation layer is arranged for heat insulation, so that the influence of large day and night temperature difference on the real stone paint layer is reduced;

3. increase the connection area between cover finish paint layer and the inoxidizing coating through setting up arch and recess to improve the joint strength between cover finish paint layer and the inoxidizing coating.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Description of reference numerals: 1. an outer wall; 2. leveling layer; 3. a putty layer; 4. a primer layer; 5. a buffer layer; 51. an elastic coating layer; 52. an adhesive layer; 53. an avoidance layer; 6. a real stone paint layer; 7. a thermal insulation layer; 8. covering a finish paint layer; 9. a protective layer; 10. an avoidance groove; 11. a first bonding groove; 12. a second bonding groove; 13. a protrusion; 14. and (4) a groove.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses real mineral varnish coating of high strength. Referring to fig. 1, the high-strength real stone paint coating comprises an outer wall 1, and a leveling layer 2, a putty layer 3, a primer layer 4, a buffer layer 5, a real stone paint layer 6, a heat insulation layer 7, a finish paint layer 8 and an protective layer 9 which are sequentially arranged on the outer wall 1.

Referring to fig. 1, a leveling layer 2 is coated on an outer wall 1, the leveling layer 2 is formed by coating cement mortar, and the leveling layer 2 fills the outer wall 1 so as to facilitate the subsequent coating of a putty layer 3. The putty layer 3 is coated on the leveling layer 2, and the putty layer 3 is formed by coating putty powder. The primer layer 4 is coated on the putty layer 3, the primer layer 4 is formed by coating amino alkyd surfacer, and the primer layer 4 can also be formed by coating colorful coating or novel woodware seal primer.

Referring to fig. 1, a buffer layer 5 is disposed on the primer layer 4, and the buffer layer 5 includes an elastic paint layer 51, an adhesive layer 52, and an escape layer 53. The elastic coating layer 51 is coated on the primer layer 4, the elastic coating layer 51 is formed by coating an inorganic polymer elastic coating, the primer layer 4 is provided with a plurality of first bonding grooves 11, the first bonding grooves 11 are used for embedding the elastic coating layer 51 to increase the contact area of the primer layer 4 and the elastic coating layer 51, the first bonding grooves 11 are formed by galling treatment, and the galling treatment is a prior art and is not described herein any more. The adhesive layer 52 is coated on the elastic paint layer 51, and the adhesive layer 52 is a PE paint layer. The avoiding layer 53 is a mesh fabric layer, and the avoiding layer 53 is glass fiber alkali-resistant mesh fabric, and can also be gypsum board mesh fabric.

Referring to fig. 1, the real stone paint layer 6 is coated on the avoidance layer 53, and the real stone paint layer 6 is formed by coating the real stone paint. The heat insulation layer 7 is coated on the real stone paint layer 6, and the heat insulation layer 7 is formed by coating a heat reflection heat insulation material and can also be formed by a polyurethane foam board material. Hollow glass beads are arranged in the heat insulation layer 7. Seted up a plurality of second on the real stone lacquer layer 6 and cohered groove 12, the second coheres groove 12 and supplies insulating layer 7 embedding in order to increase the area of contact of real stone lacquer layer 6 and insulating layer 7, and the second coheres groove 12 and is formed for galling the processing. The finishing paint layer 8 is coated on the heat insulation layer 7, and in the embodiment, the finishing paint layer 8 is formed by coating a real stone finish paint. The protective layer 9 is coated on the covering paint layer 8, and the protective layer 9 is formed by coating polyurethane waterproof paint. A plurality of evenly distributed grooves 14 are formed in the finish paint layer 8, protrusions 13 are arranged on the protective layer 9 corresponding to the grooves 14, and the protrusions 13 are embedded into the grooves 14 to increase the contact area of the finish paint layer 8 and the protective layer 9, so that the connection strength of the finish paint layer 8 and the protective layer 9 is higher.

The implementation principle of this application embodiment a real mineral varnish coating of high strength is: make real stone lacquer layer 6 obtain the buffering through setting up buffer layer 5, make real stone lacquer layer 6 be difficult for breaking because of the tension that the difference in temperature produced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a real mineral varnish coating of high strength, includes outer wall (1), sets gradually in putty layer (3), priming paint layer (4), real mineral varnish layer (6) and finish coat layer (8) of outer wall (1), its characterized in that: priming paint layer (4) with be equipped with buffer layer (5) between cover lacquer layer (8), buffer layer (5) are including setting up in proper order in elastic coating layer (51), bonding layer (52) and dodging layer (53) of priming paint layer (4).

2. The high strength real stone paint coating as claimed in claim 1, wherein: elastic coating layer (51) are inorganic polymer elastic coating layer (51), bonding layer (52) are PE paint layer, dodge layer (53) and be the check cloth layer.

3. The high strength real stone paint coating as claimed in claim 1, wherein: the elastic coating layer (51) is provided with a plurality of avoiding grooves (10).

4. The high strength real stone paint coating as claimed in claim 1, wherein: a plurality of first bonding grooves (11) are formed in the primer layer (4), and the elastic coating layer (51) is embedded into the first bonding grooves (11) to increase the contact area of the primer layer (4) and the elastic coating layer (51).

5. The high strength real stone paint coating as claimed in claim 1, wherein: and a leveling layer (2) is arranged between the outer wall (1) and the putty layer (3).

6. The high strength real stone paint coating as claimed in claim 1, wherein: and a heat insulation layer (7) is arranged between the real stone paint layer (6) and the cover paint layer (8).

7. The high strength real stone paint coating as claimed in claim 6, wherein: the heat insulation layer (7) is internally provided with glass beads which are hollow glass beads.

8. The high strength real stone paint coating as claimed in claim 6, wherein: the second has been seted up on real stone lacquer layer (6) and has been glued groove (12), groove (12) confession is glued to the second heat insulating layer (7) embedding is in order to increase real stone lacquer layer (6) with the area of contact of heat insulating layer (7).

9. The high strength real stone paint coating as claimed in claim 1, wherein: be equipped with inoxidizing coating (9) on cover finish paint layer (8), inoxidizing coating (9) are equipped with arch (13), supply recess (14) of protruding (13) embedding are seted up in cover finish paint layer (8).

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