DE615754C - Relay arrangement, in particular light relay arrangement, with an amplifier tube fed from the network with anode alternating voltage and in-phase grid alternating voltage controlled by a variable resistance element with a rectifying effect - Google Patents

Description

The invention relates to relay arrangements, in particular light relay arrangements, namely to those that are fed with an anode alternating voltage from the mains and through a variable resistance element with rectifier effect as a control element, in particular a photoelectric element, with in-phase grid alternating voltage controlled amplifier tube included.

The invention is directed to making the device so that the arrangements receive a particularly high sensitivity (responsiveness). The invention consists in that in the feed circuit of the control element between the pole placed on the grid of the amplifier tube .Steuerorganes and one pole of its voltage source a resistor with a capacitor is connected in series so that the resistance is closer to this pole of the control element than the capacitor.

The invention will be explained in more detail with reference to the preferred shown in Figs Embodiments of the invention.

The arrangements shown are fed with alternating current, for example with the aid of the transformer i, which has a primary winding 2 and the secondary side of which has the three windings 4, 5 and 6. The winding 4 supplies the voltage for the control element 7, the winding 5 supplies the heating current for the cathode of the amplifier tube 8 (electron redness), and the winding ¹ 6 supplies the voltage for the anode circuit in which the load is switched on. The control element 7 can be any variable resistance element with a rectifying effect. In the illustrated embodiments, a photocell is selected as such a resistance element, which is connected to the secondary winding 4 by the lines 9 and 10, so that a circuit is created which has the capacitance 11, which can be, for example, 0.0002 jiF, and the resistance 12, which is on the order of 10 to 12 megohms, for example. The cathode of the tube 7 is connected to the resistor 12. The cathode 14 of the amplifier 8 is connected to via the center point of the winding 5

the adjustable contact 15 of the potentiometer 16, which bridges the winding 4 and is grounded at one end. The output circuit of the amplifier 8 contains the Transformer winding 6 and the winding of relay 20. The control grid 17 of the amplifier tube 8 is with the aforementioned consisting of the capacitor 11 and the resistor 12 Series connection connected via terminal 18. The connection between the control grid 17 and the connection 18 is made via a resistor 19, which can be as high as several megohms.

The amplifier tube 8 has a rectifying effect. As a result, current flows in the anode circuit 20 only during that half-cycle in which the anode is positive with respect to the cathode; ie current can only flow in this half-wave. This half-width will be referred to as the positive half-wave in the following. The winding 4 is wound in the same way as the winding 6 so that the polarity of its ends corresponds to the polarity of the corresponding ends of the winding 6. If the resistance of the control element 7 is infinite, that is, if no light falls on the photocell, the grid 17 receives no positive charge from the winding 4 during the positive half-cycle and remains so negative that the current necessary to trigger the relay 20 is not can flow. If the resistance of the tube 7 is reduced when light falls on the photocell 7, the grid 17 is made less negative or more positive by an amount which is proportional to the reduced resistance of the cell 7. The amplifier tube 8 consequently carries a current which corresponds to the reduction in the resistance of the cell 7 or the amount of light falling on the cell. During each negative half cycle, when the polarity of the voltage of the winding 4 is reversed, the grid is made positive as a result of its connection via the resistors 19 and 12 and via the capacitance 11 to the left end of the winding 4, which at that time is positive. Since the grid 17 is positive with respect to the cathode 14, a grid current flows through the resistors 19 and 12 during the negative half-wool and charges the capacitors 11 until the grid and cathode have practically the same potential. If the current is reversed again at the end of this half-cycle, the capacitance 11 is initially discharged via the resistor 12 and the cell 7, since the cathode of the cell 7 is connected to the resistor 12. Without the resistor 12, the potential of the point 18 and thus the potential of the grid 17 would follow the potential of the plate of the capacitance connected to it during the time of the discharge of the same. As a result, the anode current (in the positive half-wave) would be shifted by the time in which the grid is positively charged in order to cause the onset of the current used to actuate the relay 20 as a result of the positive charging. It has now been found that, by providing the resistor Ϊ2 between the capacitance 11 and the terminal 18, it can be achieved that the anode current of the tube 8 starts earlier in each positive half-cycle in the desired manner. The discharge current of the capacitor 11 causes an ohmic voltage drop at the resistor 12 and thereby makes the connection point 18 and thus the grid 17 less negative or more positive, so that the current required to operate the relay begins to flow earlier in each positive half-cycle. If the leads 9 and 10 to the element 7 are so long that there is a relatively large capacitance between the leads themselves and between the cathode lead 9 and the earth (indicated by the capacitances 22 and 23 shown in dashed lines), it has turned out to be 9 "it has been found expedient to use the resistor 19 in the lead to the grid in order to limit the grid current which charges these lines. If the lines are short, however, the resistor 19 and the earth connection can be omitted.

In the somewhat modified embodiment according to Fig. 2, the rest of the 1, the control element 7 is between point 18 and connected to the center point of the secondary winding 6. The arrangement according to the Fig. 2 works in the same way as the arrangement according to Fig. 1.

Claims (3)

Patent claims: I. Relay arrangement, in particular light relay arrangement, with no feeds amplifier tube with anode alternating voltage and through a variable resistance element with rectifying Effect, especially a photo-electric organ, controlled equal- phase grid alternating voltage, characterized in that in the supply circuit of the control element (7) between the the "" grille (17) of the amplifier tube (8) placed pole of the control element and one pole of its voltage source (16) a resistor (12) -with a condenser- Sator (ι ι) is connected in series that the resistor (12) is closer to this pole of the control element (7) than the capacitor (11). 2. Relay arrangement according to claim 1, characterized in that between the grid (17) of the amplifier tube (8) and the pole connected to this of the control member (7), a resistor (19) is arranged. 3. Relay arrangement according to claim 1 and 2, characterized in that the the amplifier tube (8) controlling element (7) with its not on the grid (17) lying pole at a point of the anode alternating voltage (6) for the amplifier tube (8) is connected between the cathode (14) of this tube and the the anode-side end of the anode voltage (6) lies. 1 sheet of drawings