DEP0048655DA - Resistance photocell - Google Patents

Description

In the previous designs of resistance photocells, which use bodies made of glass, slate, porcelain and similar materials as a carrier for the photosensitive layer, it is particularly difficult to create a connection between the electrodes and the photosensitive layer that meets all of the requirements during manufacture as in the Use of the cells is sufficient. In the event that the electrodes are fused, the required smooth transition of the photo layer can only be achieved imperfectly by using conductive intermediate layers. Large-area electrodes are very difficult to attach to the most common glass supports, since cracks in the glass can easily occur.

In contrast, the invention provides a ceramic body with burnt-in metallic electrodes and a smooth, expediently glazed surface between them as the carrier for the light-sensitive layer. Now the resistive photolayer applied to the carrier and the electrodes that conduct the current form a solid unit with one another, which excludes disturbances in the current conduction when the cell is in operation. The application of the photo layer does not present any difficulties, since there are no restrictive conditions with regard to its heat treatment in the case of the heat-insensitive ceramic carrier. Another- On the other hand, the transition point from the burned-in metal electrodes to the ceramic surface can be designed to be completely smooth, so that in connection with the intended smooth surface structure in the space between the electrodes for the light-sensitive layer, a stepless, smooth base is created which, in the required manner, makes the crystallites of the photomass a cohesive one Can form a layer of uniform thickness and primarily ductile layers, such as a lead sulfide layer in particular, ensure adequate adhesion.

Ceramic bodies with metal layers burnt in at a distance from one another, e.g. for capacitors, are already known. However, they are used there in the form of a hollow cylinder as sealing insulators for the introduction of the power supply lines and the metal supports are merely fasteners.

Preference is given to noble metals as electrode material in the photocell according to the invention, but also base metals such as copper, which can then be provided with a coating of the most favorable electrode material, e.g. with a hard chrome layer, by galvanic means or by vapor deposition. Non-metallic, electrically conductive coatings, for example made of graphite, can also be applied to the burned-in metal electrodes.

As the embodiment of a photocell according to the invention shown in Figs. 1 and 2 of the drawing in longitudinal section and in plan view (without photo layer) shows, the ceramic carrier 1 is expediently provided with through-holes 3 at the points of the electrodes 2, which in continuation the surface electrodes are also metallized. The holes with their metal covering are used for anchoring and soldering of lead wires 4, as shown in Fig. 1 on the left, or of connector pins 5 as shown on the right. Other suitable recesses on the ceramic carrier, such as edge notches with electrode extensions reaching into them, also fulfill the same purpose. The light-sensitive layer 6 (Fig. 1) is applied in a manner known per se to the smooth surface of the electrodes 2 and the ceramic parts located between them.

Claims (2)

1.) Resistance photocell, characterized in that the carrier for the light-sensitive layer consists of a ceramic body of a type known per se with burnt-in metallic electrodes and a smooth, expediently glazed surface between them. 2.) Photo cell according to claim 1, characterized in that the ceramic carrier for anchoring the power supply lines is provided with recesses into which the burnt-in metallic electrodes continue.