DE1110780B - Induction heater - Google Patents

Description

Induction heating device The invention relates to an induction heating device, in which one or more inductor units vertically or diagonally one above the other are arranged and with a potting compound around, -ossen or with a protective layer are surrounded. Such induction heating devices are known per se. You wise generally an elongated cylinder, oval or flat shape and are so arranged vertically or obliquely one above the other that through them the to be treated Can walk through it well. They are particularly used in inductive paint drying, inductive tinning of metallic strips or the like. The strips are over Rolls fed to the active space of the inductor units, pass through this space and are in it according to the treatment to a certain temperature by the Heated effect of the currents induced in them.

It has now been shown that, especially with larger systems, this Kind of undesirable phenomena occur at the beginning of the heat treatment due to the moisture condensation of the interior surrounded by the inductor occurs. The inductor is mostly water-cooled; thus has its encapsulated casing initially also a temperature that corresponds to the coolant. By the If the tape is heated, the space surrounding it will also be heated, which means that it is not only the moisture adhering to the tape, but also the moisture in the air, which is located in the active inductor space, at the cold points on the inner wall of the inductor units precipitates, there leads to the formation of drops and the resulting drops either fall on the already heated strip or in facilities below it, For example, tinning baths, paint vats or in the painting machine. These However, phenomena are for a regulated and operationally safe course of treatment work extremely annoying. It happens very often that condensation was caused by the dripping Water parts of the tape must be discarded, as z. B. the applied paint does not adhere properly to these points or the tin plating has flaws.

To avoid these disadvantages, an induction heating device consisting of one or more inductor units is proposed according to the invention, which is characterized in that the outer edges of the end surfaces of the inductor units are lower than the inner edges to form an outwardly sloping downward surface. When several inductor units are arranged one above the other, according to a development of the invention, the outer edges of the two inductor end faces of each inductor unit can be lower than the inner edges of each inductor unit. The inductor units are to be arranged at such a distance from one another that gaps running all around are created between them at an angle to their outer circumference. Such an arrangement is particularly useful in the case of relatively large induction heating devices that run several meters upwards. A groove running all around, preferably made of plastic or potting compound, can be arranged below the lowermost inductor unit. As a result of this measure, the water droplets that form in each inductor unit due to condensation at the lower end are caused by the bevel of the end faces to run to the outer circumference of the inductor unit and there to drip into the channel below the lowest inductor unit, where they are collected and therefore can cause no harm.

In a further embodiment of the invention it is proposed to curve the end faces of the inductor units and to arrange the inductor units one above the other at a distance so that between them there are curved gaps extending from the interior of the inductor units to the outside. It is also possible to design the end faces between two inductor units each so that they enclose an angle with one another. In this way, gaps are created which are open in the shape of a wedge towards the outer circumference. Even with curved end surfaces of the inductor units, these can be curved differently in such a way that gaps are created which have larger openings on the outer circumference than on the inner circumference.

It is of course also possible, in addition, within the individual Provide inductor units sloping outward channels.

Using the example of a preferred embodiment, the figures should the induction heating device according to the invention are explained in more detail.

Fig. 1 shows a vertical longitudinal section through an induction heating device shown in principle, and Figs. 2 and 3 show partial longitudinal sections through an induction heating device according to Fig. 1 with different gap designs.

In Fig. 1 , several inductor units 1, which consist of the turns of the induction coil 2 and the casting compound 3 cast around these turns, are arranged vertically one above the other. The metallic strip 4 to be treated runs through the active area of these inductor units in the direction of the arrows. According to the invention, the outer edges 5 of the end surfaces 6 are lower than the inner edges 5 '. As a result, the end faces 6 run obliquely downwards outwards. The inductor units 1 are arranged one above the other at such a distance that gaps 7 running all around and running obliquely downward from the inside to the outside are formed. Below the lowermost inductor unit there is a groove 8 running all around, into which the water droplets 9 formed by condensation on the inner surface of the inductor units can run off. The channel 8 can of course be provided with a drainage opening, not shown, in order to prevent overflow in the event of a heavy accumulation of liquid.

In Fig. 2, the end surfaces 6 and 6 ' between two inductor units are designed so that they form an angle with one another. This angle is expediently chosen so large that the inner opening of the gap 7 initially exerts a capillary effect on the drops arriving from above, as a result of which they are drawn into the gap. On the outer circumference of the inductor units, the gap has a larger opening in order to ensure that the droplets flow off easily.

In FIG. 3 , the end surfaces 6, 6 ′ run between two inductor units in a curved shape in order to enable the water droplets to run into the gap 7 more easily and more evenly. Of course, use can also be made here of the arrangement according to FIG . h., the internal openings of the column 7 can be larger than the outer open- ings be the periphery of the unit inductors.

Claims (2)

PATENT CLAIMS-1. Induction heating device, consisting of a or several inductor units arranged vertically or diagonally one above the other, which are poured with a potting compound or surrounded with a protective layer and have a cylindrical, oval or flat shape through which the to be treated Runs through well, especially for drying paint or tinning metallic Ribbons, characterized in that the outer edges of the end faces of the or of the inductor units to form an outwardly sloping downward The area is lower than the inner edges. 2. induction heating device according to claim 1, characterized in that if a plurality of Indüktoreinheiten one above the other, the outer edges of the two lower Induktorendflächen Lie gen g than the inner edges, and that the unit inductors are spaced apart a distance such that between them obliquely downwardly to their outer circumference are created all around running gaps. 3. Induction heating device according to claim 1 and 2, characterized in that below the lowermost inductor unit a groove running all around, preferably made of plastic or potting compound, is arranged. 4. Induction heating device according to claim 1, 2 and 3, characterized in that the end surfaces of the inductor units extend aekrümmt and the inductor units are arranged one above the other at a distance that from the inside to the outside are formed running curved Spalie. 5. Induction heating device according to claim 1, 2 and 3, characterized in that the end surfaces between each two inductor units form an angle with one another in such a way that the wedge-shaped open gaps arise towards the outer unifang. 6. Induction heating device according to claim 4, characterized in that between each two inductor units, the end surfaces are curved differently in such a way that curved gaps are formed which have larger openings on the outer circumference than on the inner circumference of the inductor units.