DE809831C - Electrical resistance - Google Patents

Description

Electrical Resistance The invention relates to electrical resistors for any purpose, the main characteristic of which is that as an effective resistance material mainly metal phosphates are used, which are applied in thin layers to metal parts are. These metal phosphates are used in a manner similar to that used for obtaining anti-rust coatings already known method, preferably by immersing the metallic resistance carrier in suitable solutions, generated on the latter.

Iron sheets are preferably used as the support for the resistance layer used, which it due to the good thermal conductivity of the metal compared to the Phosphate layers enable the heat loss occurring in the latter to be used well dissipate cooled surface. Instead of iron sheets, if necessary also other metallic bodies, in particular iron powder or iron grains, as carriers the actual resistance material.

To achieve high resistance values, a larger one is expedient Number of resistance carriers, e.g. iron sheets, connected in series, So layered to form so-called resistance columns, which are under the appropriate Pressure to be held together. This can improve heat dissipation through Convection and radiation between the normal resistance sheets at small intervals Panes with a larger area can be layered. Depending on the required load capacity of the resistors can be longer resistance columns made of sheet metal with correspondingly thin ones Layers of lower resistance or of those with thicker layers of high Resistance can be formed. The layer thickness and the resistance of the layer can changed in a simple manner by shorter or longer duration of treatment, that is Already in the manufacture largely adapted to the intended use will.

The resistance value of the resistance columns can also be measured in the company of the invention can be easily changed by changing the on the pillar exerted pressure or with the help of sliding contacts and the like. For the former Case it is advisable to use the individual sheets to achieve a sufficient To deform the spring action somewhat from the start; also in the second case, especially if very thin carrier sheets are used, a practically stepless one Achieve regulation. With heavily stressed resistance columns where the pressure not be changed, as can be done to achieve a control effect should, are used for pressing expediently strong bolts, which are inside the resistance column are arranged and have approximately the same coefficient of thermal expansion as this itself. This ensures that even with sharp changes in temperature the column the pressure remains practically the same and relative movements of the layers against each other and the resulting changes in the resistance value to a large extent be avoided.

Instead of sheet metal, iron powder is used as a carrier for the resistance material Forming phosphor layers are used, this can also be layered to form columns when larger resistance values are to be achieved.

Some embodiments of electrical resistors according to Invention are shown in the drawing in purely schematic form and below briefly described.

The resistor according to FIG. I consists of layers stacked to form a column i Sheets of the same base area, each coated with a phosphate layer. the The size of the resistance can be adjusted in a manner known per se with the aid of a sliding contact 2 can be changed.

In the embodiment of Figure 2 are between the smaller Sheets 3 at suitable intervals sheets 4 switched from a larger area, the at the same time serve to regulate the resistance with the aid of a contact spring 5. the individual sheet metal disks coated with phosphate sit on an insulating tube 6 and are pressed together by a bolt 7.

Fig. 3 shows a resistance, which by changing the on the column applied pressure is adjustable. The column is alternately off for this purpose straight disks 8 and slightly curved disks 9 composed so that they by greater or lesser pressure on the end plates io more or less resilient can be strongly compressed. The whole column is in a sleeve ii made of insulation material built-in.

Fig. 4 finally shows a resistor made of phosphated There is iron powder 12, which is also in a sleeve 13 made of insulation material is pressed together between two conductive plates 14 under appropriate pressure.

Claims (12)

PATENT CLAIMS: i. Electrical resistance, characterized in that the essentially effective resistance material consists of metal phosphate layers which are applied to metal parts. 2. Electrical resistance according to claim i, characterized in that it consists of a resistance column (i) stacked on top of one another, consists of sheets coated with metal - phosphate layers. 3. Electrical resistance according to Claim i and 2, characterized in that the resistance column consists of different composed of strong phosphate layers. 4. Electrical resistance according to claim i to 3, characterized in that all Sheets or a large part of them by means of sliding contacts (2) for making contact can be used. 5. Electrical resistance according to claim i to 4, characterized characterized in that to increase the resilience of the sheet metal (3) composed Resistance column laminated with sheets (4) with a larger base area at small intervals by which the heat-emitting surface is increased. 6. Electrical resistance according to claim 5, characterized in that the larger sheets (4) at the same time as Serve contact carriers. 7. Electrical resistor according to claim i to 6, characterized characterized in that the metal sheets of the resistance column are arranged in the interior thereof Longitudinal bolts (7) are compressed, whose coefficient of thermal expansion is that comes as close as possible to the column itself. B. Electrical resistance according to claim i to 7, characterized in that the pressure of the column for regulating the resistance value is changeable in the company. G. Electrical resistance according to Claim 8, characterized in that characterized in that the column consists of sheet metal resiliently deformable by axial pressure (9) is composed. ok Electrical resistor according to Claim i, characterized in that that it consists of iron powder (x2) coated with metal-phosphate layers is. ii. Electrical resistor according to Claim io, characterized in that the Iron powder between two conductive plates (i4) in a sleeve (i3) made of electrically non-conductive material is included. 12. Process for the preparation of Resistors according to Claims i to 9, characterized in that the phosphate layer in a manner known per se by immersing the metallic resistance parts in a phosphate solution is generated. 13- method according to claim 12, characterized in, that the size of the resistance value by changing the thickness of the phosphate layer corresponding to a more or less long duration of phosphating as required is regulated.