DE1142941B - Arrangement for creating two groups of ripple control receivers - Google Patents

Description

Arrangement for creating two groups of ripple control receivers The invention relates to an arrangement for creating two groups of ripple control receivers, in which a synchronous motor starts up with a start command and switching tabs in the way of ratchets, which in turn by the received control pulses in the path of the switch tabs controlled by the synchronous motor. The arrangement is based on a ripple control system. in which a command sequence is determined by the time interval between the reception of two audio frequency pulses, the electrical ones Distribution networks are superimposed. Ripple control systems are known. the after Work pulse interval system with preselection and the pulse pattern assigned to them change yourself. A command is only executed if an or several pulses, so-called preset pulses. sent after the start pulse and act on the receiver in such a way that the circuit of the the transmission frequency tuned resonant circuit ready to receive the execution pulses is made. It is also known to create two groups of ripple control receivers to create that with existing three-phase control frequency each direction of rotation of the A group is assigned to the spin box.

The arrangement according to the invention is characterized in that a switch in the receiver itself controlled in this way by the control pulse The receiver's resonance circuit is detuned by short-circuiting the inductance. Of the The subject of the invention thus allows ripple control of two independently of one another controllable recipient groups, whereby the control commands of a sender only apply to the Recipients of the selected group work without the recipients being those of the other Belong to a group, be influenced by this broadcast and vice versa, with the aim of that incorrectly executed switching commands in the distribution networks are avoided.

According to the further invention are in a receiver, on the Shaft a cam disk and a rider-bearing selection disk are arranged, selection disk and ratchets arranged in such a way that upon receipt of any preselection pulse, which is intended for one recipient group, the tuned resonant circuit of the Receiver of the other group is ineffective against the further pulse train.

The number of possible actuations results as follows: With help the arrangement according to the invention can actuations of a recipient group in a number equal to the total number of execution pulses, that are reserved for the other group, minus the preselection pulses that are for the total number of the first-mentioned recipient groups are provided. Between the sender and the command post, which is in the range of one group, is one Auxiliary link provided for the transmission of commands relating to this group. With regard to the fact that simultaneous broadcasts are not possible for both groups are, a signaling device of the command point of one group area of it must Let them know when programs intended for the other group are taking place. However, a storage device can also be provided in the transmitting station, which automatically registers the commands issued by the command post of one group Arrive at a time when the other group is broadcasting. To When this ends, the memory repeats the commands that have been recorded.

The invention is to be explained in more detail with reference to the drawing. The scheme relates to two independently controllable groups of ripple control receivers, one of which is designated with A, the other with B. 2 shows a diagram which shows the position of the switching means which are provided for the receivers of groups A and B as a function of time. Fig. 1 shows the circuit diagram of a ripple control receiver that works according to the preselection principle. It contains a tuned oscillating circuit consisting of the inductance 1 and the capacitor 2, which is connected to a distribution network 3 , on which audio frequency control voltages are superimposed. A synchronous motor 4 is put into operation after a contact 1 a is closed. This contact is closed in a known manner when the start pulse is received, indirectly by the tuned resonant circuit. The motor shaft 5 carries a cam disk 6 which closes a contact C3. which keeps the circuit of the synchronous motor closed until the dial 7 has made a complete revolution. The circumference of the cam disk is designed so that a second contact Cl is closed by it only after a rotation through the angle α, which corresponds to the time required for the transmission of the preselection pulses.

In the receiver of group A contact C. is closed with the start impulse and opened with the preselection pulse, while in the receiver of group B this contact C. is opened with the start impulse, on the other hand by one of the preselection impulses intended for group A, is closed. In the receiver of group B, the angle of rotation α of the cam disk 6 determines the time after which the initially open contact C is closed by the cam disk. The preselection pulses are given during this time. Has group A z. B. ten preset pulses, then the pulse 11 is the first preset pulse of group B. The shaft 5 also carries a dial 7 with tabs 8, the number of which corresponds to the preset pulses specified for group A. At the beginning of the rotation of the shaft 5, the tabs of the dial 7 are in the vicinity of the pawl 9, which can actuate the contact C. If a preselection pulse of any level is sent to group A, the receiver relay causes the rotation of the pawl 9 in a known manner and guides it into the path of the rider of the same level. The pawl 9 swings out and thereby closes the contact C2. Since the contacts C and C = in the receivers of groups A and B are in series, but parallel to the inductance 1 of the resonant circuit 1, 2 , it is easy to see that when the contacts are closed, the inductance is short-circuited. The receiver is then insensitive to receiving a pulse with a ripple control frequency because its resonant circuit is ineffective.

To explain the mode of operation of the subject matter of the invention, the illustration of FIG. 2 is used, where the various positions (open = O, closed = F) are shown as a function of the time that the contacts Cl and C occupy, depending on whether the Shipments are intended for one or the other group of recipients. The line 1 represents the ripple control pulses during a cycle and includes the start pulse D and z. B. forty consecutive pulses. These are distributed like this. that for group A ten preset pulses A p, numbered from 1 to 10, and thirty execution pulses A1 from 11 to 40 are available. As already mentioned, the first execution pulses kept free for group A serve as preselection pulses for group B. If two preset pulses are selected for group B, then these are the pulses BN, which carry the numbers 11 and 12 , while the execution pulses Bi reserved for group B carry the numbers 13 to 40 .

Lines 2, 3, 4 show the position of the first contact C for the recipient of group A, as well as the position of the second contact C., at the time of a command transmission intended for group A on line 3 and at the time of one for the group B specific command transmission on line 4. Lines 5, 6, 7 represent the analog positions of contacts C, and C = for a receiver of group B.

The independence of the programs of one of the groups from the other is effected in the following way: Assume that a program is intended for group A. and the selected preset pulse is z. B. the impulse 5, then you can see on the line 3 that the reception of this impulse in the receiver of group A causes the opening of contact C., which is closed at the start impulse. In the preselection step 10 , the cam disk 6 then closes the contact C1 (line 2). If this is closed and contact C., is open, then the receiver is free for execution impulses. following the preset pulse, and he can perform operations according to the reception.

But if a program is running for group B, then contact C1 is closed by cam disk 6 as before, since the relay responds in any case. In contrast to that. that no preset pulse is sent before the eleventh pulse, he does not receive a preset pulse during the first ten pulses that are normally intended for him. and the contact C_., (line 4). which is closed by the start impulse remains in this position. Then the recipient is when contacts C, and C.> are closed. insensitive to the following impulses and therefore cannot cause any undesired actuation. If you look at the recipient of group B and accept a transmission for group A, while pulse 5 is selected as the preset pulse as before, you can see on line 6 that contact C_. which is open at the start impulse. on receipt of this pulse due to the fifth tab of the dial 7 is closed. In addition, the Noek disc 6 closes contact C after one revolution which corresponds to the eleventh pulse, as indicated on line 5. C, and C., are then closed, and the receiver is insensitive to an execution pulse that now follows.

In the case of a transmission intended for group B, no impulse is sent before the eleventh. The contact C. ", which is open at the start impulse, remains in this position (line 7), the contact C, on the other hand, is, as line 5 shows, closed by the cam disk 6. This leaves the receiver free for impulses that come after the eleventh are sent, and performs the operation corresponding to the number of the exemplary pulse. which is emitted as a result of the preset pulse. by. If one chooses two code pulses for the group B. z. B. 11, 12, all the relays close the code section 12, the contacts C When the impulse 11 is sent. Conversely, all relays of the preselection group 11 close the contact C "when the impulse 12 is sent.

The subject matter of the invention is also applicable. if the one Recipient group A cooperates with several recipient groups B, whereby the groups B can be distinguished by the preselection pulses. that are meant for them.

Claims (2)

PATENT CLAIMS: 1. Arrangement for creating two groups of ripple control receivers. where a synchronous motor starts up by start command and switch tab in the way of ratchets, which in turn by the received control pulses be brought into the way of the synchronous motor controlled switch tabs, thereby characterized in that a switch (C.,) controlled in this way by the control pulse in the receiver itself the resonance circuit of the receiver by short-circuiting the inductance disgruntled. 2. Arrangement according to claim 1, characterized in that a rider-bearing dial and pawls (9) are arranged so that upon receipt of any pre-selection pulse intended for one group, the tuned resonant circuit of the receiver of the other group is ineffective against the further pulse train. Documents considered: German Patent No. 1018 962; German Auslegeschrift No. 1072 298; French patent specification No. 822 455.