DE578152C - Photoelectric device with several photoelectric electrodes in a vacuum vessel - Google Patents

Description

The invention relates to a photoelectric Device with several photoelectric electrodes in a vacuum vessel. In some devices, for example photoelectrically controlled machines for sorting tinplate, it is necessary to to use a plurality of photoelectric surfaces so that a plurality of points of the surfaces to be examined can be checked at the same time. So far there have been a large number of devices of this type used by photoelectric cells connected in series. If all cells were hit by the light, they turned out to be conductive. But it was If even a single cell was not sufficiently illuminated, there was an interruption of the current flow.

The use of a variety of cells

ao has a number of shortcomings. In many cases the tubes are not completely uniform; furthermore, the multitude of connecting lines from cell to cell could be considerable Capacity as well as dissipation losses ver-causes; also is the structural arrangement, many closely spaced cells difficult.

The invention aims to remedy these deficiencies. She uses a photoelectric Device with several photoelectric electrodes in a vacuum vessel. According to According to the invention, each electrode is on one side as an anode surface and on the back designed as a cathode surface that is sensitive to electric power. The electrodes are thus connected in series in the cell. When making such a composite Cell, the individual surfaces can be made extremely uniform. Capacitance and dissipation losses are reduced and the arrangement is that simplest imaginable.

The invention is illustrated below with reference to the drawing, for example. In this shows

Fig. Ι a view of a tube according to the invention; the glass container is in the cut, the internal elements, however, are shown in elevation.

Fig. 2 is the associated top view and

Fig. 3 is a section along line III-III of Fig. 2.

The tube of Fig. 1 consists of a glass container 10 with a pinch foot 11 on which a long, preferably also made of glass support 12 is seated. This owns a plurality of straight, lateral, sleeve-like projections 13 and 14, which are to both

Sides of the part 12 are arranged in a comb-like manner and offset from one another. . A plurality of photoelectric surfaces of them become solid and isolated from one another supported, for example in the following manner. A support wire 15 is melted into each of the glass mounts and extends downwards enough, then bent at right angles, parallel to the socket and at the back of the photoelectric surface 16 is attached. The latter is expediently given an obtuse-angled shape, with its upper part supported by one of the holding socket parts 13, 14 from each side of the holder 12 is. The holder 12 isolates the elec- trod one another. In addition, they are arranged at a short distance from one another. At 21 a feed line 20 enters the tube. It is connected to an electrode 22 which acts only as an anode. The other line 23 leads through the pinch foot 11 and the holder 12 and is at the end 24 of the holder with the last photoelectric electrode connected by a connecting wire 25. For the sake of simplicity of manufacture, a disk 26 is expedient Attached to the end of the holder 12, on which one or more small cesium bodies 27 are located.

The electrodes are preferably photoelectrically sensitive on one side by the following method made. Its inner surface, one leg of which runs obliquely to the side wall of the tube, is coated with silver. This area is created after a small amount of oxygen has been introduced into the tube by applying a high-frequency current oxidized. The oxygen is then removed and the cesium evaporated in a known manner. The cesium then beats itself only on the silver oxide surface of the electrodes. The tube is then melted shut. The first electrode 22 does not need to be coated because it is connected to the positive Feed line 20 is connected to the tube and only acts as an anode.

The tube is thus made with a plurality of electrodes, which linearly a are little distant from one another and are also isolated from one another. Light falls on them Cesium surface 17 of the electrodes, a current is applied to the external connection lines 20.23 is applied to the tube, go through the tube, but only if

all cells are hit by light. The cesium sends electrons to the uncovered Backside 18 of the neighboring electrode with the result that the current from the Back of an electrode, which acts as an anode, to the cesium-covered surface of the neighboring electrode passes, which then acts as a cathode; in other words, each electrode acts on the photoelectrically sensitive one Surface as cathode and on the uncoated side as anode. Thus becomes a Current from a source connected to connection lines 20 and 23 into the first electrode 22 flow in and from the rear or anode to the next Electrode flow when it has been exposed or made sensitive. The appendix of the one electrode limb in the direction of the adjacent inner surface of the Tube prevents electrons from bypassing any electrode directly to the skip the next.

However, if one of the electrodes is not exposed or made sensitive, it will be no electrons from their photosensitive coated side to the neighboring electrode let get; as a result, the conductive path through the tube is also interrupted and the whole tube will not be conductive. So if only one electrode is not conductive is, the whole tube will not be conductive. Only the first electrode 22 is due their special position in the sequence of electrodes not sensitive to photoelectricity, and what has been said for the other electrodes in this regard does not apply to them only Electrode 22 acting as an anode.

This type of device is of particular advantage in systems in which the Imperfection at any point on a surface requires that this surface be automatic is removed from the manufacturing process. The means of removing such Surface can be arbitrary.

Claims (1)

^Claim : 1o ° Photoelectric device with several photoelectric electrodes in one Vacuum vessel, characterized in that each electrode (16) on the one Side as anode surface (18) and on the back as photoelectric cathode surface (17) is formed. 1 sheet of drawings