DE1168542B - Program switch - Google Patents

Description

Programmed switchgear A program switchgear is known that uses a current impulse generator, a motor-driven switchgear and a selector panel with sockets (consumer selector) contains. The impulse generator is a contact made by a rotating non-circular disk is opened and closed. An electric motor is used to drive this disc with an associated reduction gear, the shaft of which is also the contact arm of the The rear derailleur is slowly and steadily moved on. Here the contact is made by the non-circular disk in each case at the moment in which the contact arm is clearly on a fixed contact of the switching mechanism. The one supply line of an auxiliary circuit, preferably weak current circuit, is permanently unipolar on all relays for the consumers to be controlled. The other lead of this auxiliary circuit leads first to the pulse generator contact and from there to the contact arm of the switching mechanism, whose fixed contacts are connected to sockets of at least one consumer selector are. The switch-on and switch-off coils of the relays are connected to these sockets by means of plugs can be connected to select consumers. Depending on the selection of the sockets into which the Plugs have been inserted, finds the earlier or later switching on or off the switches operated by the relays in the circuit of the contactors instead which the selected consumers are switched on or off. The return of the contact arm the switching mechanism takes place in this known device at increased speed as a result of reversing the direction of rotation of the driving motor while using it at the same time a gear with a smaller reduction.

Furthermore, program switching mechanisms are known, their total cycle time is limited to 24 hours. This is a disadvantage in terms of readiness for recovery to be seen, namely when a program to be processed takes up a period of time that is less than or greater than 24 hours. In one case there is a waiting time otherwise, such a task cannot be solved.

Furthermore, program switchgear with a motor-driven Current impulse generator is known, the pulses of which execute a number of a time step movement Switching mechanisms are fed. In this known device, the total running time is always a multiple of the step time, and its achievable maximum value results as the product of the specified step time and the number of steps. From this it follows that the known arrangement can only be used for a time-limited program is. By changing the speed of the drive of the pulse generator, the step time can be changed, but not in such a way that different steps are taken between the individual steps Times work. Another disadvantage of the known device is that at her readiness for readiness cannot be accelerated. The consequence of this is that when a program is running, the limit is the maximum possible program duration cannot be fully used. The pace must keep running until it has reached the zero position again because one accelerated There is no return.

Also known is a pulse generator that is driven by a Ferrari motor is driven with a permanent magnet as a brake magnet. The disadvantage of this pulse generator is that it depends on the frequency and fluctuations in the mains voltage is.

The shortcomings of the aforementioned known program control mechanisms can be eliminated according to the invention that on the drive of the switching mechanisms pulses can be given in various ways during the duration of the program Pulses whose time interval is unequal and from the number of time settings provided can be selected as required, in particular in additive and / or iderative combinations, while after the program has run through = even if the steps are not fully occupied the same - act on the drive of the switchgear impulses at the same time.

Due to the fact that the contact arms of the new facility are not at the same time Carry out steps from contact to contact of the switchgear, it is possible to now also programs with any action times using consumer selectors manageable dimensions. Since the Contact arms of the rear derailleur can remain on the fixed contacts during the selected time the new device for switching the consumer relays or contactors with only one Coil are used, so such. which switch on when excited and switch off when de-excited.

The program switching mechanism according to the invention will be described with the aid of a circuit diagram which shows only those parts which are necessary for an understanding of the invention. First, the impulse generator 1 will be explained in more detail. It is a rotating encoder, which in the present case is driven by a Ferrari motor. As can be seen from the drawing, the rotating disk 2 of this motor is acted on by the voltage coil 4 connected in parallel to the alternating current network 3 on the one hand, and the current coil 5 on the other. The current coil 5 can optionally be preceded by variable resistors 6a to 6d, depending on the sequence in which the switches 7a to 7d are closed. The upstream connection of these resistors reduces the rotational speed of the disk 2 , which transmits its rotational movement to a non-circular disk 9 with the interposition of the gear 8. In order to prevent the disk 2 of the Ferrari motor from changing its speed when the mains voltage fluctuates, a DC-excited magnet 10 is provided as the braking magnet, to which the voltage is fed from the AC mains 3 via the rectifier 11. If the mains voltage drops, the braking force of the magnet changes to the same extent, so that voltage fluctuations do not affect the speed of the pulse generator.

As a control current for actuating the switching mechanisms and energizing the relays or contactors for switching the loads according to a selectable program is used in In the present case, direct current of low voltage coming from the alternating current network 3 via the transformer 12 and the rectifier 13 is obtained. Direct current as control current was chosen because of the need for delaying means by which the relays or contactors being controlled drop out when the contact arms move on of the switching mechanism from one contact to the other is to be prevented is.

If the rotating non-circular disk 9 closes the pair of contacts 14, then the coil 15 of the solenoid of the switching mechanism 16 receives voltage and its contact arms 17a to 17c are simultaneously z. B. proceed from the first contact to the second contact of the traveling contact works. The fixed contacts 18 a to 18 c of the traveling contacts are each connected to sockets which are grouped together, namely the sockets assigned to the fixed contacts 18 a form the consumer selector 19, the sockets assigned to the fixed contacts 18 b the consumer selector 20 and those assigned to the fixed contacts 18 c connected sockets the action time selector 21 a to 21 d. By inserting plugs into the sockets of the consumer selectors 19 and 20 , the relays or contactors 22, 23 assigned to a specific consumer can be selected. Plugs that are inserted into the sockets of the action time selector 21 a to 21 d are used to selectively excite the coils 24 a to 24 d, via the control lines 25. In addition, means are provided through which an accelerated passage or reverse movement of the switching mechanism , provided that all contacts are not occupied, can be brought about.

The mode of operation of the program switch will be explained in more detail below, whereby: for the sake of simplicity it is assumed that only two consumers are to be switched on at times that differ from one another and switched off at times that differ from one another. Assuming that the contact arms of the switching mechanism are on the upper fixed contacts, then the sockets of the consumer selectors 19 and 20 assigned to them receive voltage. Dots in the sockets are intended to indicate the sockets into which plugs have been inserted. Taking into account the foregoing, it can be seen that when the contact arms are positioned on the upper contacts of the traveling contacts, only the relay 23 is initially connected to voltage via the consumer selector 19 , through which a consumer not shown in the drawing is switched on. Since but a first bushing inserted in the casting time selector 21 is the contact arm 17e of the switching mechanism and this jack and one of the control lines 25, the relay coil 24 energized a. Under their influence, the switch 7a closes and connects the resistor 6a upstream of the current coil 5 of the current impulse transmitter. Depending on the setting or size of this resistance, the speed of rotation of the disk 2 of the current impulse generator is reduced. In the present case, it is assumed that the time until the next contact is made by the impulse transmitter is 3 minutes. It then follows that the relay 23 initially remains switched on for 3 minutes, thus also the consumer controlled by it. After this time has elapsed, the impulse generator or its non-circular disk 9 sends a new pulse via the contact pair 14 to the lifting magnet 15, so that the contact arms of the switching mechanism 16 jump onto the second contacts. From the drawing it can be seen that the first consumer now remains switched on via the consumer selector 19. However, since the second socket is also plugged into the consumer selector 20, a second consumer is now switched on via the relay coil 22 after the first consumer has run for 3 minutes. In the casting time selector 21 b, the second connector is also plugged, so that it receives via the advanced to the second contact contact arm 17 c voltage and the relay 24 energized b, while the relay 24a of the switching mechanism has been energized by the further migration of the contact arms and has fallen off. The now energized relay 24 b sets the switch 7b and switches the current coil 5 the resistor 6 b before, is sized so that now the time to the next contact-making is by the impulse generator 5 minutes. In the second step of the switching mechanism, both the first and the second consumer are switched on for _5 minutes via the relays 22 and 23, which are kept energized.

It is now assumed that the first consumer should be switched off after a total of 9 minutes. In order to achieve this, both the third socket of the consumer selector 19 and the same socket of the consumer selector 20 are plugged in. As already vorbesehrieben, the relay 24 c of the current impulse transmitter is excited by the correspondingly inserted socket of the action time selector 21 c, whereby the series resistor 6 c is switched on. This is dimensioned in such a way that now the time until renewed contact is only made by the impulse generator. So while the contact arms of the switching mechanism are resting on the third contacts, the two consumers are switched on for a further minute. If the contact arms of the switching mechanism move to the next, i.e. fourth, contacts after this time has elapsed under the influence of the impulse generator and the lifting magnet 15, then it can be seen that the switching relay of the first consumer no longer receives any voltage, because the fourth socket of the consumer selector 19 is not plugged. This consumer is switched off after a total of 9 minutes. But since the fourth socket is plugged into the consumer selector 20, the relay 22 remains energized and thus also keeps the second consumer switched on. About the inserted fourth port of the casting time selector, the relay 21 is turned on d 24 d of the impulse transmitter and closes the switch 7 d, whereby the resistor 6 comes into effect d. Under its influence, the speed of rotation of the impulse transmitter is reduced so that, for example, the time until the next contact is 9 minutes. After this time has elapsed, a new impulse is sent to the switching mechanism and its contact arms move to the fifth contacts. Since this is not plugged into the consumer selector 19 or 20, the relay 22 is now also de-energized and the second consumer is thus switched off. So it was switched on for a total of 15 minutes.

In the device according to the invention, there is a so-called revolving Stepping mechanism for use. Will not be required to run a program all contacts of the traveling contact works of the stepping mechanism are required, this would only continue to run relatively slowly because of the speed of rotation of the pulse generator taking into account the fact that a reduction gear is also used is not high. In order to bring about a faster run-through or rewind, you can Means such as B. a relay interrupter circuit can be provided by the briefly repeated pulses are given to the solenoid 15 of the stepping mechanism will.

In the embodiment described above, it was assumed that only two consumers at different times and while deviating from each other Periods are switched on. This simplified embodiment became the lighter one Chosen for the sake of clarity. Of course, the invention Expand arrangement as required. For each additional consumer to be controlled another traveling contact unit on the step-by-step switch and another consumer selector needed. Should be implementing a program because of the multitude of consumers a stepping mechanism is not sufficient, it would also be conceivable that their to operate several in parallel and then jointly provided for them To stimulate impulse generator. In addition, within the scope of the invention, the number of Operating time selector, if necessary, increased as required and with additional contact tracks being controlled.

Claims (5)

Claims: 1. Program switching mechanism in the manner of a step switching mechanism, which is advanced by a motor-driven pulse generator and its individual stages are assigned to consumers via a selector device, d a d u r c h g e - indicates that the drive of the switchgear impulses of different Type, namely during the duration of the program impulses, whose The time interval is unequal and arbitrary from the number of time settings provided, can be selected in particular in additive and / or iderative combination, while after the run of the program - even if the steps of the same are not fully occupied - Impact on the drive of the switchgear impulses at the same time. 2. Program switching mechanism according to claim 1, characterized in that for generating the unequal time pulses during the running time of the program with regard to its circulation speed Any adjustable cycle of the switching mechanisms is possible after the program has run however, the rapid home run of the rear derailleurs into the rest position by additional Means, e.g. B. a relay interrupter can be brought about. 3. Program switching mechanism after Claim 1 and 2, characterized in that the current impulse transmitter is a rotating Switching mechanism controls whose traveling contacts current paths for at least one consumer selector and also produce for at least one action time selector. 4. Program switching mechanism according to claims 1 to 3, characterized in that as a drive for the impulse generator A Ferrari motor is used, the current coil of which is resistors by means of the action time selector different sizes can be connected upstream. 5. Progxammschaltwerk according to claim 1 to 4, characterized in that the brake magnet of the Ferrari motor is a DC-fed Is electromagnet. Publications considered: German Patent Specifications No. 692 482, 706141, 905 504, 912 835; "Der Elektromeister", 1952, issue 24, p. 408, 409