EP0755172A2 - Metallic elements, especially an electric heater, for a water conducting metallic part of a water heated heating apparatus - Google Patents

Abstract

The heating element has a number of heating rods (5) projecting from a housing (1) containing an adjustable thermostat for regulating the water temp and fitted into a metal boiler housing provided with a corrosion protection coating, e.g. an enamel. The heating rods are made of a metal with a higher potential in the electrochemical series than the metal of the boiler housing, the outer surfaces (6) of the heating rods coming into contact with the water provided with an electrically insulating protective coating, e.g. a lacquer or plastics coating.

Description

The invention relates to a metallic built-in part, in particular an electric radiator, for a water-carrying metal component, in particular a steel tank, a water heating system, preferably a domestic hot water boiler, provided with a protective layer against corrosion, for example enamelling, the metallic built-in part having a higher potential for the electrochemical series than the metal component owns.

Service water boilers made of steel are provided on the inside with a protective layer against corrosion, which must be free of physiologically questionable substances and resistant to acid. As a rule, this protective layer consists of enamelling, but other materials, for example plastic, can also be used.

Regardless of the material used, the protective layer always has imperfections, for example pores, bubbles or the like, which do not adequately protect the steel. The water, which is always provided with admixtures and therefore forms an electrolyte solution, now causes corrosion of the steel container in the area of these defects by means of an electrochemical reaction, namely anodic dissolution of the steel and cathodic electron absorption by means of the electrolyte. This initially creates crater-shaped depressions in the area of the aforementioned defects, which lead to the perforation of the wall of the steel container and thereby render it unusable. In order to avoid this, it is already known to provide cathodic corrosion protection. This consists in arranging a so-called sacrificial anode inside the steel container, which is conductively connected to the steel container and which either consists of a material that has a lower potential in the electrochemical series than the steel, for example a magnesium alloy, or that is generated by external current is fed accordingly. This sacrificial electrode forms the negative pole of a natural electrolytic cell in which a current flows to the steel container to be protected, thereby preventing its corrosion. The sacrificial electrode gradually wears off when the protective current is released and must then be replaced.

Service water boilers and thus the service water in them are often heated by electric heaters. These electric radiators have a metallic built-in part that projects into the interior of the domestic water boiler. If such metallic built-in parts are connected to the steel container in an electrically conductive manner, any existing cathodic corrosion protection becomes ineffective, since these metallic built-in parts generally have a higher potential for the electrochemical voltage series than the steel jacket of the domestic hot water boiler, for example because they are made of Stainless steel. It is therefore necessary to install such a metallic built-in component, insulated in service water boilers with cathodic corrosion protection, against a metal-conducting connection to the wall of the steel container and to a protective conductor connected to this wall, which is a mandatory requirement of the electrical supply companies. For this purpose, it has already been proposed to carry out the installation via a two-part installation body, for example a flange, nipple or the like, one part being fastened to the metal installation part and the other part for installation in the metal container, in particular service water boiler, for example by means of a threaded flange. An electrically insulating intermediate piece, for example a washer, a seal or a plastic turned part, is arranged between the two parts of this installation body, by means of which electrical insulation is brought about between the metal installation part and the metal container.

A further possibility of providing such electrical insulation between the metal container and the metallic installation part is then to cast the metal installation part in the region of the fastening with the metal container into a plastic part which is provided, for example, with a fastening flange for fastening to the metal container.

The problem now is that the metallic installation part, in particular an electric radiator, must be connected to the protective conductor, so that even with electrical insulation between the metal container and the metallic installation part via the protective conductor or the equipotential bonding of the electrical house installation, an electrically conductive one Connection is established.

In order to eliminate this problem, it has already been proposed to reconnect the metal built-in component, which is installed in an electrically insulated manner, that is to say, for example, the metal jacket of an electric heating element, to the steel container via a defined balancing resistance of, for example, 600 ohms.

The known designs mentioned have the disadvantage that on the one hand they require additional components and / or complicated mechanical solutions and on the other hand they do not always guarantee a flawless protective measure.

The object of the present invention is to avoid the disadvantages mentioned and to provide a metallic built-in part, in particular an electric radiator of the type described at the outset, which can be installed in a water-bearing metal part without additional measures, even if it has a cathodic corrosion protection, with a sacrificial anode. To achieve this object, the invention proposes that the metallic built-in part is provided with an electrically insulating protective layer on its outside coming into contact with the water. This insulating protective layer largely prevents the flow of currents in the water forming an electrolytic solution and ensures that the Cathodic corrosion protection is not significantly disturbed by attaching the metallic installation part in the metal component. Due to the completely electrically insulating protective layer covering the metal built-in part on the outside, this metal built-in part becomes potential-free and thus has no influence on the electrolytic currents in the water forming an electrolytic solution, which is located in the metal container, so that the cathodic corrosion protection continues to be effective . Of course, this coating of the metallic installation part can also be provided with imperfections. However, the fact that the metallic built-in part has a higher potential of the electrochemical series than the metal component, because it is made of stainless steel, for example, and the areas of these imperfections are extremely small, both individually and in total, to prevent water from forming in the electrolyte solution a current flows which causes significant corrosion of the metal component in the area of its defects.

The metallic installation part can, for example, be provided on the outside with a coating, in particular with a dip coating, which forms the electrically insulating protective layer, but it can also be provided with a coating, for example a plastic coating, which e.g. is applied electrostatically.

Other types of protective layers are of course also possible, for example an electrically insulating coating.

The metallic built-in part designed according to the invention is suitable not only for arrangement in metal containers, for example in service water boilers made of steel, but also in metal pipes through which water flows, in which the service water is heated in a continuous process. Other areas of application for hot water heating are also possible.

In the drawing, an embodiment of a metallic built-in part according to the invention consisting of an electric heater is shown in side view.

This metallic built-in part consists of a housing 1, in which electrical control devices, in particular also a thermostat that can be set by means of a rotary knob 2, for regulating the hot water temperature, are provided. The power supply takes place via a connecting line 3.

The housing 1 has a connection piece 4 with a screw thread, via which the electric heater can be screwed into a corresponding hole or sleeve in the steel wall of a domestic hot water boiler. The inside of the hot water boiler is provided with a protective layer against corrosion, for example enamelling, and inside the hot water boiler there is cathodic corrosion protection in the form of a sacrificial anode.

Heater rods 5 and a metallic protective tube 7 for the temperature sensor of the electrical control devices project into the interior of the housing 1 Hot water boiler. The heating rods 5 consist of several metal tubes, which have the current-carrying heating coils in their interior. The outside 6 of the heating rods 5 and the protective tube 7 are provided with an electrically insulating coating which, for example, consists of a coating, in particular a dip coating, or a powder coating or the like. consists.

Claims (4)

Metallic built-in part, in particular an electric radiator for a water-carrying metal part, in particular a steel tank, a water heating system, preferably a domestic hot water boiler, provided with a protective layer against corrosion, for example enamelling, the metallic built-in part (5) having a higher potential of the electrochemical series than the metal part characterized in that the metallic installation part (5) is provided with an electrically insulating protective layer on its outside (6) which comes into contact with the water. Built-in part according to claim 1, characterized in that it is provided on its outside (6) with a coating, in particular with a dip coating. Built-in part according to claim 1, characterized in that it is provided on its outside (6) with a coating, for example a plastic coating. Installation part according to claim 1, characterized in that its outside (6) is provided with an electrically insulating coating.

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