CN205687857U - Container coating structure - Google Patents

Abstract

The utility model discloses a kind of container coating structure, aim to provide a kind of well-insulated container coating structure, its drip irrigation device is by arranging the heat insulation enamelled coating of organosilicon in container coating structure, frozen products insulated container is made to pass through organosilicon thermal insulating coating in use by extraneous shield heat away, so that the cold storage effect of frozen products insulated container is unaffected so that the cold storage effect of frozen products insulated container is more preferably.

Description

Container coating structure

Technical field

This utility model relates to coatings art, particularly to a kind of container coating structure.

Background technology

Coating, is that coating once applies obtained solid-state continuous film, be in order to reach to protect, insulate, the purpose such as decoration, Coat the plastic sheet on the matrixes such as metal, fabric, plastics.Coating can be gaseous state, liquid, solid-state, generally according to needs The substrate of spraying determines kind and the state of coating.

At present, the surface spraying of container is all to use paint spraying, i.e. sprays certain thickness oil at container surface Lacquer coat, to prevent container from getting rusty during transport and use, and container is in transport process, is susceptible to knock Touching, container is protected by the painting layer that therefore skin of paint is also required to when colliding with by high intensity simultaneously.

But when transporting frozen products insulated container, although the strong painting layer of this anti-impact force can be to cold preservation collection Protective effect well is played in vanning, but owing to frozen products insulated container need to carry out cold preservation, this paint to the article in container Coating can not be effectively prevented heat and enter frozen products insulated container so that the cold storage effect of frozen products insulated container declines, thus to cold The article hidden impact.

Utility model content

The purpose of this utility model is to provide a kind of container coating structure, and it has well-insulated advantage.

Above-mentioned technical purpose of the present utility model has the technical scheme that

A kind of container coating structure, including coating the prime coat of container outer surface, prime coat is coated with every Thermosphere, thermal insulation layer is coated with anticorrosive coat, and anticorrosive coat is coated with top coat layer.

It is arranged such so that frozen products insulated container, after using this coating structure, has excellent while ensureing antiseptic property Elegant heat-proof quality so that more preferably, extraneous heat is difficult to impact cold storage effect the cold storage effect of frozen products insulated container.

Arrange further: prime coat is epoxy zinc rich primer layer.

It is arranged such, due to the characteristic of epoxy zinc-rich self so that whole prime coat has more preferably adhesive force, more firm Solid coat on frozen products insulated container outer surface, difficult drop-off so that the performance of whole coating structure is more preferably.

Arrange further: thermal insulation layer is the heat insulation enamelled coating of organosilicon.

It is arranged such, due to the resistance to elevated temperatures that organosilicon self is outstanding so that the heat-proof quality of organosilicon is the most splendid, from And container coating structure heat more preferably effectively to external world is stopped, thus more efficiently ensure that cold preservation collection The cold storage effect of vanning.

Arrange further: anticorrosive coat is epoxy micaceous iron anticorrosion enamelled coating.

Being arranged such, epoxy micaceous iron intermediate coat is with Lycoperdon polymorphum Vitt micaceous iron oxide as pigment, with epoxy resin as base material, and polyamides Polyimide resin is the composition two canned cold curing epoxy coatings such as firming agent, due to micaceous iron oxide and the superior function of epoxy resin, Paint film is tough and tensile so that whole anticorrosive coat has more preferably antiseptic property so that frozen products insulated container is preferably protected.

Arrange further: top coat layer is acrylic acid top-coat layer.

It is arranged such so that top coat layer has more preferably colour retention and workability so that container coating structure exists During preparation convenient, also make the overall performance of container coating structure more preferably, simultaneously because acrylic acid characteristic makes face Enamelled coating has enhanced water resistance and high resistance to acids and bases, makes frozen products insulated container be not easily susceptible to when transporting corrode.

Arrange further: prime coat thickness is 60 μm～80 μm.

Being arranged such, this thickness range of prime coat is that the single of epoxy zinc rich primer most preferably sprays thickness, at this priming paint In the range of layer thickness, prime coat has more preferably adhesive force, also makes spraying cost lower simultaneously.

Arrange further: insulation thickness is 35 μm～45 μm.

Being arranged such, this thickness range of thermal insulation layer is that the single of organosilicon thermal insulating coating most preferably sprays thickness, at this priming paint In the range of layer thickness, thermal insulation layer has more preferably heat-proof quality, also makes spraying cost lower simultaneously.

Arrange further: anticorrosive coat thickness is 50 μm～60 μm.

Being arranged such, this thickness range of anticorrosive coat is that the single of epoxy micaceous iron corrosion resistant coating most preferably sprays thickness, at this end In the range of thickness of paint layer, anticorrosive coat has more preferably anti-corrosion life, also makes spraying cost lower simultaneously.

Arrange further: top coat layer thickness is 45 μm～55 μm.

Being arranged such, this thickness range of top coat layer is that the single of acrylic acid top-coat most preferably sprays thickness, at this prime coat In thickness range, top coat layer has more preferably protective value, and protective value is more lasting, also makes spraying cost lower simultaneously.

In sum, this utility model has the advantages that by prime coat, thermal insulation layer, anticorrosive coat, top coat layer It is used in combination so that container coating structure is while having preferable effect of heat insulation, it may have the most waterproof, corrosion-resistant Effect, and have employed less material usage while effect of heat insulation ensureing, greatly reduce container coating and tie The manufacturing cost of structure, the service life simultaneously also making container coating structure is longer, and safety is higher.

Accompanying drawing explanation

Fig. 1 is the structural representation of container coating structure in embodiment 1.

In figure, 1, prime coat；2, thermal insulation layer；3, anticorrosive coat；4, top coat layer.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

Embodiment 1: a kind of container coating structure, as it is shown in figure 1, include that the epoxy coating container outer surface is rich Yellow zinc chromate primer paint layer, the thickness of epoxy zinc rich primer layer is set to 60 μm～80 μm；Be coated with on epoxy zinc rich primer layer organosilicon every Hot enamelled coating, the thickness of the heat insulation enamelled coating of organosilicon is set to 35 μm～45 μm；It is coated with epoxy micaceous iron on the heat insulation enamelled coating of organosilicon to prevent Rotten enamelled coating, the thickness of epoxy micaceous iron anticorrosion enamelled coating is set to 50 μm～60 μm；It is coated with acrylic acid on epoxy micaceous iron anticorrosion enamelled coating Top coat layer, the thickness of acrylic acid top-coat layer is set to 45 μm～55 μm.

Epoxy zinc rich primer be with epoxy resin, zinc powder, as primary raw material, the composition such as thickening agent, filler, auxiliary agent, solvent Sapecial coating product, its antiseptic property excellence, good mechanical property, attached work power are strong, have electric conductivity and cathodic protection effect.One Road film forming, at more than 75um, can be used as precoated prime for workplace.Its thick film welds when 15-25um, does not affect welding performance, This product also can use as the anti-corrosive primer of various tubing, gas chamber.

The structure of organosilicon is: high-octane polysiloxane backbone is shielded by methyl sufficient on Si atom；C-H without Polarity, makes intermolecular interaction the faintest；Si-O bond distance is longer, and Si-O-Si key bond angle is big；Si-O key is to have 50% The covalent bond (covalent bond has directivity, and ionic bond is non-directional) of ionic bond feature.Owing to this architectural feature makes organosilicon There is the characteristic such as hydrophobic, difficult combustion.

Epoxy micaceous iron intermediate coat is with Lycoperdon polymorphum Vitt micaceous iron oxide as pigment, and with epoxy resin as base material, polyamide is The composition two canned cold curing epoxy coatings such as firming agent.Due to micaceous iron oxide and the superior function of epoxy resin, paint film is tough and tensile, There are good adhesive force, pliability, wearability and closed performance etc..The intermediate layer of high-performance anti-corrosive primer can be made, such as epoxy Iron oxide red primer, epoxy zinc rich primer, inorganic zinc primer, to protect priming paint paint film, strengthen the protective value of whole coating.Epoxy cloud Ferrum intermediate coat is double-component, and composition one is by epoxy resin, and micaceous iron oxide, rust resisting pigment, organic solvent are formulated；Composition two For firming agent.Wherein composition one is 100:10 with the weight ratio of composition two.

Acrylic acid top-coat is a kind of acrylic acid economical exterior wall paint, has good colour retention and workability.For room External wall provides protection and the effect of decoration, it is possible to as the finish paint of embossment figure layer system.It is suitable for being coated on indoor and outdoor coagulation Soil and wall.It also is used as the finish paint of low-corrosiveness finishing system simultaneously.Suitable priming paint, surface of steel plate should be first coated before application Should first coat anti-corrosive primer, concrete surface should not have stronger alkalescence, PH ＜ 10, and first to coat oiliness seal coat, with Time be coated with surface and must be dried, clean, without greasy dirt and other attachments.

The above embodiments are only that it is not to restriction of the present utility model, ability to explanation of the present utility model The present embodiment can be made after reading this specification by field technique personnel as required does not has the amendment of creative contribution, but As long as all being protected by Patent Law in right of the present utility model.

Claims (9)

1. a container coating structure, it is characterised in that: include the prime coat (1) coating container outer surface, described Prime coat (1) on be coated with thermal insulation layer (2), described thermal insulation layer (2) is coated with anticorrosive coat (3), described anticorrosive coat (3) On be coated with top coat layer (4).

Container coating structure the most according to claim 1, it is characterised in that: described prime coat (1) is that epoxy is rich Yellow zinc chromate primer paint layer.

Container coating structure the most according to claim 1, it is characterised in that: described thermal insulation layer (2) is organosilicon Heat insulation enamelled coating.

Container coating structure the most according to claim 1, it is characterised in that: described anticorrosive coat (3) is epoxy cloud Ferrum anticorrosion enamelled coating.

Container coating structure the most according to claim 1, it is characterised in that: described top coat layer (4) is acrylic acid Top coat layer.

Container coating structure the most according to claim 2, it is characterised in that: described prime coat (1) thickness is 60 μ M～80 μm.

Container coating structure the most according to claim 3, it is characterised in that: described thermal insulation layer (2) thickness is 35 μ M～45 μm.

Container coating structure the most according to claim 4, it is characterised in that: described anticorrosive coat (3) thickness is 50 μ M～60 μm.

Container coating structure the most according to claim 5, it is characterised in that: described top coat layer (4) thickness is 45 μ M～55 μm.