DE672768C - Rolling mill with drive controlled automatically by photoelectric cells - Google Patents

Description

It has already been proposed to automatically control the working machines of rolling mills with the aid of photoelectric cells as a function of the position of the rolling stock to be processed. The known directional electric cells, which have been developed for the control of other work processes, did not lead to a satisfactory result in their application in the field of rolling mill control, because the rolling stock itself, as long as it is glowing, also influences the exposure state of the light cell. Attempts have been made to counter this by making the Liclitzelle only dependent on the exposure from the glowing rolling stock, but this does not solve the problem either, because the rolling stock cools down during the rolling process and the light cell can no longer be exposed . Another suggestion consisted in choosing light cells with particular sensitivity to blue radiation, ie for radiation which is not contained in the radiation emanating from the rolling stock. However, compared to the commonly used red-sensitive cells, for example the cesium cells, blue-sensitive light cells have the disadvantage that their sensitivity is significantly lower. Even the proposal to retain the red-sensitive cells and to amplify the auxiliary light sources used for exposure in such a way that the radiation emanating from the rolling stock no longer has any noticeable influence on the cells does not achieve the goal; because if you increase the light intensity of a source of illumination, ie the temperature of the filament of an incandescent lamp, it is not the red radiation that increases, but the blue radiation. The increase in light intensity remains practically ineffective for the red-sensitive cell.

According to the invention, one and the same spatial position of the rolling stock is different from two photoelectric cells are monitored, one of which is a special light source is assigned, while the lighting state of the other is only dependent on the rolling stock, so that the control process is triggered with certainty, regardless of the iob generated by the rolling stock Exposure of the cell is sufficient or not to trigger a control process, the two photoelectric cells intended to trigger the same control process are. In the case of the invention, the control of the roller train is controlled by two parallel-connected light electronics.

*) The patent seeker stated as the inventor:

Dipl.-Ing. Heinrich Schezve in Berlin-Charlottenburg.

Irish cells made dependent- The invention also uses a photoelectric Cell, which is only dependent on the lighting from the rolling stock, and also a second photoelectric cell to which a special auxiliary light source is assigned, whose beam path can be interrupted by the rolling stock. Both cells will dimensioned in their area of action in such a way that the areas of sensitivity correspond to each other cover, and you get a control that remains effective, regardless of whether the rolling stock is glowing or not during the work process. As long as the rolling stock at the beginning of the work process If the cell is still glowing, the cell whose exposure status is due to the radiation works of the rolling stock, while after the rolling stock has cooled down, i.e. after the natural radiation of the rolling stock has ceased, the other cell takes over the control.

A particularly useful embodiment of the invention is shown in the drawing explained in its application to the control of a trio rolling mill. The rocker tables 1 and 2 of the rolling mill are raised and lowered by the electric motors 3 and 4, which are automatically controlled depending on the position of the rolling stock 5. For this purpose, two photoelectric cells 6 and 7 are used, which via amplification devices 8 and 9 to two relays 10 and 11 are connected. The working contacts of the two relays are connected in parallel in the control circuit of the two motors 3 and 4. The cell 7 is only from the exposure dependent on the rolling stock 5, while the cell 6 has a special light source 12 zugeord-4.0 net is. The cell 6 and the light source 12 are arranged so that the rolling stock 5 during the working process between the beam path Can interrupt light source and cell.

Assuming that - the control circuit the motors 3 and 4 should be switched on as soon as the rolling stock 5 enters the radiation area of the two cells 6 and 7, the arrangement works as follows: At the beginning of the work process, the rolling stock is initially still glowing, and the Cell 6 remains unaffected, even if the rolling stock is in the beam path between the Light source 12 and cell 6 enters; because the radiation interrupted by the rolling stock the light source 12 is due to the natural radiation of the rolling stock replaced. The normally open contact of the relay ι ο remains interrupted. The cell 7, however, works together with its relay 11 in such a way that the relay is his Normally open contact closes as soon as the cell is exposed. This cell addresses as soon as the rolling stock 5 is in its radiation range arrives; the relay 11 closes the control circuit of the motors 3 and 4. It it should be mentioned that a switching device 13 is connected in this control circuit, - On the one hand, the tilting tables and roller tables are only reversed after they have passed through of the rolling stock takes place through the radiation area and, on the other hand, the correct direction of rotation the motors is adjusted.

As soon as the rolling stock 5 has cooled down in the course of the work process and its luminosity has lost, cell 7 takes the place of cell 6; because now will the exposure by the light source 12 is interrupted as soon as the rolling stock 5 enters the beam path occurs between the light source 12 and the cell 6. In this case, too, will result the parallel connection of the two relays. 10 and 11 of the control circuits of the motors 3 and 4 closed.

According to the invention, the two cells 6 and 7 are matched to one another in such a way that that their areas of action overlap, that is, in the transition stage from the glowing to the cold state of the rolling stock both cells 6 and 7 bring the relays assigned to them to respond. There go the working contacts of the relays are connected in parallel, is the controllability of the arrangement permanently secured.

The invention is of particularly important importance for the automatic control of Rolling mills. However, their application is not limited to rolling mills. The same arrangement of cells Rather, it can be used wherever it is a matter of a work process automatically dependent on the movement of an object make, which can influence the photoelectric cell through its own radiation. Takes assume, for example, that a light cell arrangement is used to count moving objects, the safety of the controller may be disturbed if by accident reflective surfaces of the objects to be counted light in the direction of the cells is reflected. The invention remedies this and makes the control arrangement independent of such phenomena.

Claims (2)

Patent claims: i. Rolling mill with drive automatically controlled by photoelectric cells, in which a control process is triggered ¹ in a certain spatial position of the rolling stock relative to the cells, in particular for rolling stock that changes its luminous intensity during the rolling process. in addition the experiences, characterized in that one and the same spatial position of the Rolled stock is monitored by two different photoelectric cells to which one is assigned a special light source, during the lighting state the other is only dependent on the rolling stock, so that the control process is triggered with certainty regardless of whether the exposure of the cell generated by the rolling stock for the triggering of a control process is sufficient or not, the two photoelectric cells are intended to trigger the same control process. 2. Rolling mill according to claim i, characterized in that the working contacts the relays assigned to the photoelectric cells rivet in parallel in the Control circuit are connected, with the cell, which is only dependent on the rolling stock, the Relay contact operated during exposure, e.g. B. closes while the other cell the Relay contact operated when the irradiation is stopped. 1 sheet of drawings