JPH0587422A - Cooling panel with frost-preventive coat for evaporator - Google Patents

Abstract

PURPOSE:To obtain an excellent frost-preventive performance by applying a frost-preventive coat containing specified synthetic resins as major components on the surface of aluminum cooling base plates. CONSTITUTION:An evaporator cooling panel 10 is formed of aluminum cooling base plates 1 of aluminum roll-bond panel and the surface is provided with frost-preventive coat 2 containing polyester resin, melamine resin, epoxy resin and fluoride resin as major components. The composition of painting for the frost-preventive coat 2 is, for example, 30wt.% polyester resin varnish, 11wt.% melamine resin varnish, 5wt.% epoxy resin varnish, 7wt.% fluorine resin varnish, 33wt.% coloring pigment, 13wt.% solvent and 1wt.% additives. Thereby, an excellent frost-preventive performance is obtained and foods such as meat, fish, etc., are prevented from sticking on the surface of the cooling panel.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an evaporator, and more particularly to a cooling plate with an anti-icing coating film used for forming an evaporator made of an aluminum roll bond panel.

The cooling plate with an anti-icing coating according to the present invention is used, for example, as a quick freezing plate.

[0003]

2. Description of the Related Art Conventionally, for example, when an evaporator made of aluminum roll bond panel is used as a quick-freezing plate, when food such as meat and fish is placed, these stick to the surface of the freezing plate, Alternatively, if the hand touches the freezing plate when the food placed on the freezing plate is picked up by hand, there is a problem that the hand sticks to the freezing plate and cannot be separated.

Therefore, on the surface of a cooling plate made of an evaporator made of aluminum roll bond panel, conventionally,
An anti-icing coating was provided. As such an anti-icing coating film, one containing a fluororesin as a main component and one containing a special silicone resin as a main component have been known.

[0005]

However, the former former anti-icing coating film composed mainly of a fluororesin has sufficient anti-icing property when applied to an aluminum roll bond panel. In addition, since the workability and abrasion resistance of the coating film are poor, the roll bond panel cannot be bent after coating, and the corrosion resistance to the evaporator is poor.

The conventional anti-icing coating film containing the special silicone resin as the main component has a sufficiently low icing power when applied to an evaporator, and therefore has excellent anti-icing properties. However, due to poor workability during painting, and poor coating quality, especially hardness, workability, and corrosion resistance to the evaporator, it has not yet been adopted, and is currently used for aluminum roll bond panel evaporators. There was a problem that no coating film was found that satisfied the anti-icing property of the cooling plate.

The object of the present invention is to solve the above-mentioned problems of the prior art and to provide a coating film excellent in anti-icing property. For example, when used as a quick freezing plate, foods such as meat and fish are frozen. No sticking to the surface of the plate, or even if your hand touches the freezing plate, it will not stick to the freezing plate, and the anti-icing coating film has excellent corrosion resistance against the aluminum cooling substrate and processability. Cooling with anti-icing coating for evaporator, which is excellent in abrasion resistance and can form an evaporator with a desired shape by sufficiently bending an aluminum roll bond panel after forming a coating. In trying to serve the plate.

[0008]

In order to achieve the above-mentioned object, the present invention provides a surface of an aluminum cooling substrate,
The gist is a cooling plate with an anti-icing coating for an evaporator, which is provided with an anti-icing coating containing a polyester resin, a melamine resin, an epoxy resin, and a fluororesin as main components.

The coating film provided on the surface of the aluminum cooling substrate mainly contains a polyester resin, and is mixed with a melamine resin, an epoxy resin, and a fluororesin (including Teflon) at a predetermined ratio.

Here, the anti-icing coating film contains 25 to 35% by weight of polyester resin, 8 to 14% by weight of melamine resin, 3 to 7% by weight of epoxy resin, and 5 to 9% by weight of fluororesin, as main components. This contains 28 to 38% by weight of color pigment, 10 to 16% by weight of solvent, and 0.5 to 2% by weight of addition aid.

The polyester resin, which is one of the main components of the anti-icing coating film, is added to improve processability, especially bendability and impact resistance. -The roll bond panel can be sufficiently bent to manufacture an evaporator having a desired shape.

The melamine resin is added to improve the baking and hardening effect of the coating film, and crosslinks with the polyester resin and the epoxy resin to facilitate the thermosetting effect.

The epoxy resin is blended in order to impart adhesion and corrosion resistance to the coating film.

The fluororesin is blended to improve the water repellency and the anti-icing property of the coating film.

As the color pigment, for example, a titanium oxide-based white pigment, an iron oxide-based yellow pigment, an iron oxide-based red pigment, a carbon-based black pigment, or the like is used. As the solvent, for example, an aromatic solvent, a ketone solvent or the like is used. Further, in order to form a good coating film, other appropriate addition aids may be used.

[0016]

In the above, the anti-icing coating film provided on the surface of the aluminum cooling substrate mainly contains the polyester resin, and further contains the melamine resin, the epoxy resin, and the fluororesin. Have sex. Therefore, when this cooling plate with an anti-icing coating is used as a quick freezing plate, for example, food such as meat and fish does not stick to the surface of the freezing plate, or even if the hand touches the freezing plate, the frozen plate is frozen. It does not stick to the board. Moreover, the anti-icing coating film has excellent anti-corrosion properties against the cooling board made of aluminum, as well as excellent workability and wear resistance, and the aluminum roll bond panel can be sufficiently bent after forming the coating film. Thus, an evaporator having a desired shape can be manufactured.

[0017]

Embodiments of the present invention will now be described with reference to the drawings together with comparative examples.

Embodiment 1 In FIGS. 1 and 2, a cooling plate (10) with an anti-icing coating film for an evaporator according to the present invention is a cooling plate (1) made of an aluminum roll bond panel, on the surface of which a polyester resin, The anti-icing coating film (2) containing a melamine resin, an epoxy resin, and a fluororesin as main components is provided.

Here, the composition of the coating material for forming the anti-icing coating film (2) is 30% by weight of polyester resin varnish,
Melamine resin varnish 11% by weight, epoxy resin varnish 5
% By weight, 7% by weight of fluororesin varnish, 33% by weight of color pigment, 13% by weight of solvent, and 1% by weight of additive aid.

Comparative Example 1 For comparison, a conventional cooling plate with an anti-icing coating film for an evaporator was prepared. That is, an ice-preventing coating film containing a conventional fluororesin as a main component was formed on the surface of the same aluminum roll bond panel cooling substrate as in Example 1 above.

Here, the composition of the coating material for forming a conventional anti-icing coating film is 50% by weight of a fluororesin varnish, 8% by weight of a blocked isocyanate resin varnish, and a coloring pigment 30.
% By weight, 10% by weight of solvent and 2% by weight of addition auxiliaries.

Further, the cooling plate with the anti-icing coating film (10) according to the present invention and the conventional cooling plate with the anti-icing coating film containing a fluororesin as a main component respectively have workability in forming a coating film. An evaluation test was conducted on the icing power, hardness, workability of the coating film, anticorrosion property against a cooling substrate made of aluminum (salt spray test), and abrasion resistance of the coating film.

[Evaluation Test] First, a paint for forming the anti-icing coating film (2) mainly containing the polyester resin according to the present invention and a conventional anti-icing coating film containing a fluororesin as a main component are formed. The paint for coating was applied to the surface of the test piece of the cooling substrate (1) made of aluminum roll bond panel by electrostatic coating or spray coating, and baked at 175 ° C. for 20 minutes, and compared with Example 1. An aluminum test piece with an anti-icing coating of Example 1 was formed.

Then, these aluminum test pieces with an anti-icing coating film were held at -10 ° C for 2 hours, and then the icing power (kg / m ² ) was measured.

As a result, the icing power of the aluminum test piece with the anti-icing coating film (2) mainly containing the polyester resin according to the present invention of Example 1 was 0.35 kg / m ^2.
It was very low, and therefore it was excellent in anti-icing property.

On the other hand, the icing force of the conventional aluminum test piece with the anti-icing coating film of Comparative Example 1 was 0.
It was as high as 75 kg / m ² and was inferior in the anti-icing property.

The paint for forming the anti-icing coating mainly containing the polyester resin of the present invention in Example 1 had a relatively low viscosity, and thus had very good workability during coating.

The pencil hardness of the coating film was 2H in both Example 1 and Comparative Example 1 and was the same.

Further, the aluminum test pieces with the anti-icing coating film of Example 1 and Comparative Example 1 were subjected to a salt spray test, and the contact angle was measured before and after the test. As a result, before the test, both had almost the same contact angle of 90 °, but there was a significant difference in the contact angle deterioration with time in the salt spray test, for example, in the salt spray test for 240 hours. After that, in the test piece of the present invention of Example 1, the contact angle was 80 °, whereas in the conventional test piece of Comparative Example 1, the contact angle was 7 °.
It was 3 °, and the deterioration over time was greater than that of the present invention.

Further, regarding the aluminum test pieces with the anti-icing coating film of Example 1 and Comparative Example 1,
The coating film was tested for abrasion resistance. That is, these coated aluminum test pieces were put on a Taber abrasion tester (load 1000 g, CS-10, manufactured by Calibraise Wheels), and the abrasion loss (g) after 30 times, 60 times, and 100 times was measured. The contact angle was measured, and the obtained results are shown in Table 1.

[0031]

[Table 1]

As is clear from Table 1, according to the cooling plate with the anti-icing coating of Example 1 which mainly contains the polyester resin of the present invention, the abrasion loss (g) by the abrasion tester is very small, The coating film has excellent wear resistance, and the change in contact angle is small. On the other hand, in the conventional cooling plate with the anti-icing coating film of Comparative Example 1, the abrasion loss of the coating film was large due to the large amount of wear loss (g) by the abrasion tester, and the change in the contact angle was also found in the present invention. It is a big one.

Finally, when a bending test was conducted on the aluminum test pieces with the anti-icing coating film of Example 1 and Comparative Example 1, the test piece according to the present invention of Example 1 had a diameter of 4φ. The conventional test piece of Comparative Example 1 has a diameter of 6φ, and the test piece according to the present invention can be bent more sufficiently than the conventional test piece, and thus has excellent workability.

In the above embodiment, the case where the cooling plate with the anti-icing coating of the present invention is applied to an evaporator comprising a cooling substrate made of an aluminum roll bond panel is shown. In addition, the invention is similarly applied to an evaporator including a so-called tube-on-sheet cooling substrate.

[0035]

As described above, the cooling plate with the anti-icing coating film for the evaporator of the present invention contains the polyester resin, the melamine resin, the epoxy resin, and the fluororesin as the main components on the surface of the aluminum cooling substrate. A film with an anti-icing coating is provided.This coating has excellent anti-icing properties, and when used as a quick freezing plate, for example, foods such as meat and fish are used as the surface of the freezing plate. No sticking, or even if your hand touches the plate, it will not stick to the plate. Moreover, the anti-icing coating film has excellent anti-corrosion properties against the cooling board made of aluminum, as well as excellent workability and wear resistance, and the aluminum roll bond panel can be sufficiently bent after forming the coating film. Thus, it is possible to manufacture an evaporator having a desired shape.

[Brief description of drawings]

FIG. 1 is an enlarged sectional view of an essential part of a cooling plate with an ice-prevention coating for an evaporator showing an embodiment of the present invention.

FIG. 2 is a schematic perspective view of an evaporator made of a cooling plate with an anti-icing coating film according to an embodiment of the present invention.

[Explanation of symbols]

 1 Aluminum cooling substrate 2 Ice-prevention coating mainly containing polyester resin 10 Cooling plate with anti-ice coating for evaporator

Claims (1)

[Claims] 1. A surface of an aluminum cooling substrate (1),
A cooling plate with an anti-icing coating for an evaporator, which is provided with an anti-icing coating (2) containing a polyester resin, a melamine resin, an epoxy resin, and a fluororesin as main components.