DE828749C - Time switch device - Google Patents

Description

Time switch device The invention relates to a time switch device, which makes it possible to periodically alternate two operations from the prescribed To control duration or an operation and a break, each of a prescribed duration. In the previously known devices serving these purposes, an electric motor is used or a relay is used to drive a clock wheel train. Should be with such a Device the length of the duration of the operation to be controlled or the between If the pause between two work steps is to be changed, this must be done by offsetting by cams on a gear or by adjusting the gear at a standstill go yourself. This work is difficult and cumbersome. Another shortcoming of the known devices is that during the work break, the gear train means a spring must be brought back to the zero point, whereby with high switching frequency a disproportionately rapid wear of the gear train is caused. Necessary here Repairs to be carried out can usually only be carried out in the factory.

The object of the invention is to remedy these shortcomings by creating to fix a timer without using a gear train. The inventive The device consists of a relay responding to the direction of the current (polarized Relay) with switching tongue connected to one pole of the power source, on the one hand one or more active circuits, on the other hand, the two current branches alternate of the winding of its own relay controls, with these two branches each one Variable resistor and each one or a common discharge device are assigned, so that the periods of time during which the reed in periodic change the assumes both operating positions, changed by changing the control resistors can be. The discharge device consists, for example, of one in a common Branch of the two current branches lying glow lamp and one upstream Capacitor. The active circuit (s) and the relay circuit can use the relay tongue be connected together to one pole of the power source. The inventive Device can be switched to semi-automatic operation, such that the Commissioning or decommissioning of an active circuit by means of a manual or foot switch and only the reverse circuit automatically via the polarized Relay. Finally, the device according to the invention can operate on its own be switchable by foot or hand switch.

The figure shows an exemplary embodiment in the form of a circuit diagram of the subject matter of the invention. At one pole of the network i is a line 2, which branches off at 3. One branch leads to one via a variable resistor4 Point 5, on the one hand to a capacitor 6, on the other hand to a glow lamp 7 is connected. The latter lies in the circle of the winding 8 of a polarized one Relay; the other end of the winding is connected to a point 9, which connected via point i o to a contact i i of the tongue 12 of the polarized relay is. The tongue 12 is constantly connected to the other pole of the power source via line 13 (Point 14). The mentioned point 9 is also related to the other side of the already mentioned capacitor 6. The tongue contact i i is opposite a second tongue contact 15, so that the tongue 12 depending on the position either with the contact i i or with the contact 15 connects. The tongue contact 15 is connected to point 5 mentioned.

The second branch from point 3 leads over a Variable resistor 16 and the point io to the tongue contact i i. A third tongue contact 17 is connected to one end of the coil of a relay 18; the other The end of the coil of this relay is at the same pole of the current source i as the line 2.

The three-armed switch i9 shown in the figure takes with fully automatic Operate in the position shown in the drawing; an arm connects the Winding the relay 18 with the tongue contact 17 and a second arm i9 "the point 3 with the rheostat 16.

The fully automatic mode of operation is as follows: Assume the switch tongue 12 is currently at the tongue contacts i i and 17 (dashed). In this Position, the circuit of relay 18 is closed, in the following way: Point 14 (= one pole of the power source), line 13, tongue 12, tongue contact 17, switch arm i9 ', relay winding 18, other pole of the power source.

The relay 18 has thus responded and triggered some operation. It is now a matter of carrying out this operation over a precisely measured period of time to restrict. This results from the appropriate setting of the control resistor 4; because the following charging circuit of the capacitor goes through this rheostat 6: From line 2 (= one pole of the power source), point 3, control resistor 4, Point 5, capacitor 6, point 9, 10, 11, 14.

When the capacitor 6 has reached the ignition voltage, it is the same its charge via the glow lamp 7, the winding 8 of the polarized relay, point 9 off. The polarized relay 8 responds and puts the tongue 12 out of the dashed line drawn in the drawn out position, while the circuit of the Relay 18 and thus interrupting the operation controlled by this. The length of time which elapses until the glow lamp 7 reaches the ignition voltage of the capacitor 6 responds, is therefore dependent on the setting of the rheostat 4; this therefore determines the duration of the operation controlled by the relay 18.

After folding the tongue 12 out of the dashed position in the The fully drawn position begins the pause between the previous one and a new operation to be controlled by the relay 18. The length of this Pause depends on the setting of the rheostat 16, over which, how already indicated, the other, starting from point 3, leads charging current branch. This takes the following course: line 2, point 3, switch arm 19 ", control resistor 16, Point io, capacitor 6, point 5, 15, 13, 14. (It should be emphasized again that now the Tongue 12 is on the tongue contact 15.) Has the capacitor 6 after the Adjustment of the control resistor 16 reaches the ignition voltage for a certain period of time, so the discharge circuit takes the following course: capacitor 6, point 9, relay winding 8, glow lamp 7, point 5, capacitor 6. The discharge circuit is therefore the same as before, only now the current flows in the opposite direction.

The tongue 12 is now polarized as the current this time winding the Relay 8 flows through in the opposite direction, again in the dashed position, So on the tongue contacts i i and 17 turned over, whereby in the previously described Way, the circuit of the relay 18 is closed for the next operation. It can be seen that the length of the pause between the two operations depends on the setting of the rheostat 16.

If the device is to be used semi-automatically, in such a way that that only the duration of the operation is regulated automatically, so is the three-armed Switch i9 to the dashed position, in which the arm i9 'again connects the winding 18 to your tongue contact 17, while the arms i9 'and 19' '' establish the connection to a foot or hand switch 2o, namely the arm i9 " by making the connection between point 3 and the one clamp of the foot or hand switch 20 and arm i9 '' 'by making the connection of the point 9 with the other terminal of the foot or hand switch.

The mode of operation is now as follows: The activation of the operation happens by closing of the foot or hand switch 2o. The tongue 12 is initially on the tongue contact 15; by operating the foot or hand switch 20 the capacitor 6 is charged on the following current path: line 2, point 3, Switching arm i9 ", foot or hand switch 20, switching arm i j ', series resistor 21, Capacitor 6, point 5, relay contact 15, tongue 12, mains pole 14.

The series resistor 21 is kept very small for the short term Charging the capacitor 6. On the other hand, it serves to protect the glow lamp, over which flow a relatively high current when the full supply voltage is applied would.

After the practically barely detectable charging time of the capacitor 6 the unloading process goes on again.

The relay 8 responds, puts the tongue 12 on the contacts i and i 17 um, relay 18 is energized and the operation begins. Its duration is directed after setting the rheostat 4; about this, as in the above, the capacitor 6 brought to ignition voltage; if this is reached, the circuit becomes the polarized relay 8 closed via the glow lamp 7; the tongue gets in the extended position shifted to the tongue contact 15; the operation is interrupted. The pause now lasts until the foot switch or hand switch 20 is actuated.

The three-armed switch i9 in the dashed position of points 22 and 23 the sparks 24 and 25 thrown. The latter, 25, is an empty contact; the contact point 24, however, is through a line 26 to the contacts 23 and via this with the connected to a terminal of the foot or hand switch. By pressing the foot or The hand switch closes the following circuit: From one pole of the power source Tiber direct line to the winding of relay 18, from here Tiber switch arm ig ', Contact point 24, line 26, contact point 23, hand or foot switch 2o, switch arm i g "', line 27, line 13, point 14 (= other pole of the power source).

The working relay 18 responds and remains closed until the foot or hand switch is opened again. The polarized relay 8 is in In this case, the exclusive control by foot or hand switch is out of order.

As the figure shows, a resistor 28 and 29 is presented to each of the variable resistors 4 and 16; These resistors are used to avoid a short circuit (2, 3, 4, 32, 5, 15, 12, 13, 14) when the variable resistor is set to the value o, or they limit the smallest adjustable time period. In addition, there are additional resistors 30 and 31 between the variable resistor 4 and point 5, which can be switched on as required by means of a switch 32 to expand the control range. A stabilizer 33 ensures that the voltage is kept constant. A variable resistor 34 allows the voltage to be kept constant to be set to a specific value; Selenium rectifiers 35 and 36, respectively, are located in the circuit of the polarized relay 8 and in the active circuit (relay 18).

Claims (7)

PATENT CLAIMS: i. Time switching device, characterized by a relay (polarized relay) that responds to the direction of current and has a tongue connected to one pole of the power source, which controls one or more active circuits on the one hand, and alternately controls the two branches of the winding of its own relay, with these two branches each controlling one Regulating resistor and each one discharging device or a common discharging device is assigned, so that the time periods during which the tongue assumes the two operating positions in a periodic alternation can be changed by changing the resistances. 2. Time switch device according to claim i, characterized in that the discharge device consists of one in one common branch of the two current branches lying glow lamp and an upstream Condenser exists. 3. Time switching device according to claim i and 2, characterized in that that the active circuit or circuits and the relay circuit jointly via the relay tongue are connected to one pole of the power source. 4. Time switch according to Claims i to 3, characterized in that switchable resistance units are available to enlarge the control range. 5. Timer according to Claims i to 4, characterized in that a stabilizer for keeping constant the mains voltage is available. 6. time switching device according to claim i to 5, characterized in that a device for setting a certain in the network connection Voltage is present. 7. Time switching device according to claim i to 6, characterized characterized in that your relay circuit and / or the or the active circuits Upstream selenium rectifiers or the like are B. Time switching device according to claim i to 7, characterized in that it can be switched to semi-automatic operation is such that the commissioning or decommissioning of an active circuit by means of a hand or foot switch and only the reverse circuit automatically via the polarized relay. G. Time switch device according to claim i to 8, characterized in that their circuit is based on exclusive operation Foot or hand switch can be switched.