CH682258A5 - - Google Patents

Description

1

CH 682 258 A5

2

Description

The present invention relates to a new copper heat exchanger for wall boilers which, being effectively protected from the corrosive phenomena due to acid condensates and high temperatures, allows the achievement of high yields and a longer life of the exchanger itself.

The invention also relates to the specific process for applying such a coating on the exchanger to be protected.

From the state of the art coatings are already known which are used for the protection of the heat exchanger of wall boilers, which are generally made of silicone resins pigmented with aluminum.

The aforesaid known aluminum-silicone coatings are effectively protective against high temperatures but have the drawback that they are not equally effective against condensation due to the chemical nature of the aluminum pigment which, as known, is easily attackable by acid solutions and therefore perishable with consequent loss of the barrier effect against corrosion of the underlying copper.

On the other hand, the current tendency to make high-performance wall boilers emphasizes the problem of corrosion of the copper of the heat exchanger for acid condensates, enhancing the aforementioned lack of known coatings.

The object of the present invention is precisely to remedy the aforementioned drawback and therefore to provide a coating for the copper heat exchanger of wall boilers which, in addition to being resistant to the high temperatures typical of modern wall boilers, creates an effective highly anticorrosive barrier and therefore protective against acid condensates particularly abundant in high efficiency wall boilers.

This is substantially achieved by replacing the aforementioned aluminum pigment with other protective pigments inert to the aggressive action of acid condensates, i.e. a mixture of iron oxide and graphite, which in addition to the aforementioned advantages, also gives the coating and consequently the exchanger a black color which increases and promotes heat exchange.

Ultimately, the protective coating for the copper heat exchanger of wall boilers, said coating being constituted by a silicone resin, is characterized by the fact that it contains as a pigment a mixture of iron oxide and graphite.

On the other hand, as experimentally found, the effectiveness of such a protective coating is strictly bound, given the complex geometry of the exchanger, and a particular application procedure by immersion which provides well-defined operating parameters.

More specifically, the process for applying the aforementioned coating on the copper heat exchanger of wall boilers, said process being by immersion, is characterized in that it comprises the steps of regulating the viscosity of the coating, by means of appropriate dilution with solvent, within a range of 40-55 seconds in the cup

FORD n.4, to maintain the exchanger to be protected in the coating bath at the aforementioned viscosity and moved for a time between 20 and 30 seconds, to carry out the drying of the coating layer applied to the exchanger for a time of not less than 30 minutes in air and finally carrying out the polymerization of the aforesaid coating layer in an oven at 100 * 190 ° C for a time of not less than 30 minutes.

In particular, exceptionally good results were obtained experimentally for an effectively protected and therefore long-lasting copper exchanger by immersing the exchanger for 20 seconds in a bath of iron and graphite silicone resin having a viscosity of 42 seconds in a FORD cup. n.4, in drying or drying the coating layer applied to the exchanger for 30 minutes and finally polymerizing the above coating layer in the oven for 30 minutes at 165 ° C.

Claims (3)

claims 1. Copper heat exchanger for wall boilers, characterized in that it is protected with a coating of a silicone resin which contains a mixture of iron oxide and graphite as pigment. 2. Procedure for applying a protective coating on the copper heat exchanger of wall boilers according to claim 1, characterized in that it comprises the subsequent steps of regulating the viscosity of the coating, by diluting with solvent, within the range of 40 -55 seconds in the FORD n.4 cup, to keep the exchanger to be protected in the coating bath at the aforementioned viscosity and moved for a time between 20 and 30 seconds, to carry out the drying of the coating layer applied to the exchanger for a time not less than 30 minutes in air and finally to carry out the polymerization of the aforesaid coating layer in the oven at a temperature comprised between 100 and 190 ° C for a time of not less than 30 minutes. 3. Procedure for applying a protective coating to claim 2 on the copper heat exchanger of wall boilers, characterized in that it consists of immersing the copper exchanger for 20 seconds in a bath of said coating diluted to a viscosity 42 seconds in the FORD n.4 cup, in drying the coating layer applied to the exchanger for 30 minutes in the air and finally polymerizing the above coating layer in the oven for 30 minutes at 165 ° C. 5 10 15 20 25 30 35 40 45 50 55 60 65 2