DE1254738B - Audio frequency ripple control receiver for central or regional controls - Google Patents

Description

Audio frequency ripple control receiver for central or regional controls The invention relates to an audio frequency ripple control receiver with one by one Synchronous motor driven contactor for optional central and regional selection the recipient.

They are used to control receivers in ripple control systems as is well known of the pulse telegrams. These consist of a start pulse and several command pulses. The start impulse switches on a motor in the receiver, which is a cam switch mechanism or sets a dial in motion. Determine the following command pulses the type of signal to be broadcast. If such ripple control systems for air defense purposes are used, the signals required here can be generated with the command pulses to be triggered.

It is now possible to send a central pulse telegram to all receiving systems to respond in the area of the controlled power network, while the regional impulse telegram only serves a part of these receiving devices to control. To differentiate between these two trips, a start impulse can be different Serve length. Are additional group selection pulses between the start pulse and the first command pulse sent, individual recipients or groups of recipients select from the totality of the receiving devices.

The present invention is directed to a receiver which those required for receiving and selecting the central and regional pulse telegrams Has means. According to the invention is the control current path for the to be controlled Relay preparatory relay provided, the cam contacts of the synchronous motor driven contactor are connected upstream in such a way that the relay is only activated when the specified Minimum and maximum length of the start pulse responds that a further relay is provided is, in its control current path, cam contacts of the same contactor so connected upstream are that this relay also only with a given minimum and maximum length of a start pulse that differs from the specified length of the start pulse for the other relay it is clear that the contacts of the first relay form the control current path Prepare for the relay to be controlled that the control contacts of the other relay prepare the control current paths for the group selection relays in their control circuit also cam contacts of the contactor are located in such a way that the start pulse the following group selection impulses only those of the temporal position of these impulses let the assigned group selection relay respond, the control contacts of which in a pluggable control current path for the first relay, the final one via a Cam contact is excited so that this cam contact only responds after the Reception of the group selection pulses is complete, and that the first relay thereby prepared the control current path for the relay to be controlled, the one for responding a cam contact and a contact controlled by the audio frequency as well as for holding a self-holding contact and a further cam contact are assigned.

By the structure and the circuit of the receiver according to the invention can save several relays and thereby reduce the dimensions of the receiver will. In addition, compared to the use of a voter arm, which the Contacts lying in one plane are coated in a known manner, the advantage that In the case of a contactor with cam contacts, these can be arranged in such a way that that several contacts by different design of the cams at the same time can be closed with a different duty cycle.

The drawing shows an embodiment according to the subject matter of Claim represented, namely shows F i g. 1 the circuit of the receiver and F i g. 2 the timing of the pulse telegram and the closing times of the contact of the frequency relay in the receiver and the closing times of the cam switches and the closing times of the working contacts of the cam switch.

The 50 Hz network, on which the audio frequency pulses are superimposed, is connected to terminals R and Mp. The frequency relay Fan, tuned to their frequency, responds to these impulses and closes its contact f. This energizes relay H, which now closes and opens its contacts in time with the audio frequency pulses.

The mode of operation of the receiver should first be based on a normal, for example a central pulse telegram without coding pulses using the F i g. 1 in connection with F i g. 2 will be explained.

At the beginning of the start pulse, the synchronous motor M starts up through contact h, which drives the cam drive with the cam contacts n to n8. By closing the cam contact n, the motor M always runs back into its rest position, ie it executes a full revolution with each start-up, controlled by the cam contact n. In addition, the start pulse causes relay A to respond; Relay A responds when cam contact n2 is closed and relay contact h .., in FIG. 1. is turned over. The start pulse must be at least so long that it starts at the beginning of the closing of the cam contact n .., in the lower part of FIG. 2 reaches into it. Relay A then holds itself through its contact a2. The normally open contact a also applies voltage to the motor M , while the contact a3 prepares the excitation of the signal relay C and thus the output of the signal. If the start pulse is longer than the beginning of the opening of the rest side of the cam contact%, which can mean a continuous wave (fault) or a regional control, the relay A is thrown off by opening this contact and remaining h. = In the working position. Due to the timing of the contact of the cam contacts n. And iz, the minimum and maximum length of the start pulse are given when relay A should respond and hold.

From this procedure it can be seen that in FIG. 2 for the cam changeover contacts, z. B. n3, the closing times of the working hours of these contacts are shown.

At the first command pulse 1 in FIG. 2, the signal relay C is excited by the contacts a3, h ,, and n., Which switches on the signal transmitter via its contact e ;. The relay C holds itself via the contact e, and the working side of the cam contact n5, whose duty cycle according to FIG. 2 determines the length of the excitation of relay C as a result of a pulse. Since the cam contact n1 closes before the contact n5 opens, the signal relay C remains held during the opening time of n, - when a new pulse arrives, if command pulses are received during the respective times of the opening of the normally open contact from n5, a Continuous excitation of signal relay C. If, however, impulses are only received from n, during every second opening time of the normally open contact, this relay is correspondingly excited.

The cam contact n6 checks whether a sent pulse is correct ended. If relay F, H the normally closed contact n6 is open, relay A, not held via h3, drops out. The motor M then runs into its rest position, controlled by n1. Is the reception of pulses terminated, contact c, i.e. open, causes the idle side of contact n6 to open also de-energizing A and thus stopping the motor.

However, if relay C is not energized, i. H. did not become an odd one If an impulse is given, contact e1 opens and relay A drops as a result of opening of contact n, from. In this case, too, the motor M is controlled by the contact n, brought to its rest position. The cam contact n3 is still used for testing [the pauses between the even and odd pulses.

While the above explanations deal with the mode of operation of the receiver in the presence of a normal pulse telegram, the response of the receiver to a pulse telegram with an extended start pulse and a-Qef ügten group selection pulses will now be described. This impulse telegram is intended to address receivers regionally. With the start impulse, the motor M starts up and the relay A is excited via the cam contact n2 and the contact h2. It keeps itself through its contact a2. The start impulse is now longer than the start impulse with central control. As a result, the H relay is still energized and the contact h2 is open when the contact n3 opens, causing relay A to drop. By switching the contacts n3 and h5, the relay B is energized, which holds itself through its contact b. The contact 62 prepares the storage of the group selection pulses.

The pause is checked after the start impulse. When the contact n is switched and the normally closed contact h4 is opened at the same time, i.e. only when audio frequency pulses are received due to interference, the winding of relay B is disconnected from the negative pole and the relay is brought to waste. However, if relay B is not shed, the group selection pulses can be received and saved. The group selection pulse x is saved by picking up the relay X via the cam contact n, the contact h3 and its latching contact x2. The group selection pulse y is also stored by the response of the relay Y via the cam contact n6, the contact h, and the self-holding contact y. Finally, the selection pulse z is stored by energizing the relay Z via the contacts h3 and n8 and the latching via the contact z2. Since at the end of the Z-pulse the contact h ¢ is open and the cam contact n, switches over, the relay B would drop out. This is prevented by contact z3 connected in parallel.

The receiver is set to the corresponding selection pulses by connecting points 1 to 7 above relay A according to the following scheme x 2-3, 5-7 xy 2-4, 5-7 y 1-4, 5-7 xz 2- 3, 6-7 1-3, 6-7 yz 1-4, 6-7 If the setting of the receiver corresponds to the given group selection pulses, the current path is switched through via the contacts x ,, y1, z. Closing the cam contact n2 results in the excitation of relay A, which holds itself through its contact a2. The command pulses are then processed as with a central trigger. Relay A is also dropped when the pulse telegram is terminated. The B-relay drops out the next time the cam contact n3 and the contact h5 are switched over due to the excitation of its switch-off winding. When the bz contact is opened, the group selection relays x, y, z drop out.

If the setting of the receiver does not match the selection pulses sent, relay A remains de-energized and relay B drops out when contact n3 is switched over. With further impulses the motor will start, but the relays, 4 and B will not respond because no impulses were sent while the cam contacts n. = And n3 were closing.

Patent protection is only sought for the entirety of the features of the Claim.

Claims (1)

Claim: Audio frequency ripple control receiver with a contactor driven by a synchronous motor for optional central and regional selection of the receiver, characterized in that a relay (A) is provided which prepares the control current path for the relay (C) to be controlled, the cam contacts (n1, n "n6) of the contactor driven by the synchronous motor (M) are connected upstream in such a way that the relay (A) only responds with the prescribed minimum and maximum length of the start pulse, that a further relay (B) is provided with cam contacts (rt3, n5) of the same contactor are connected upstream in such a way that this relay (B) also only responds with a specified minimum and maximum length of a start pulse, which clearly differs from the specified length of the start pulse for the other relay (A), so that contacts of the first relay ( A) Prepare the control current path for the relay to be controlled (C) so that the control contacts of the other relay (B) the control current paths for the group selection relays (X, 1; Z), in whose control circuit there are also cam contacts (n6, n7. N $) of the contactor in such a way that the group selection pulses following the start pulse only trigger the group selection relays assigned to the timing of these pulses whose control contacts (x ,, y1, z1 ) lie in a pluggable control current path (1, 3; 2, 4; 5, 6, 7) for the first relay (A), which is finally excited via a cam contact (n_) so that this cam contact (n. =) is only responds (F i g. 2), after the reception of the group selection pulses is completed, and that the first relay (A) thereby prepares the control current path for the relay to be controlled (C), the one to respond to a cam contact (n4) and one of the Audio frequency controlled contact as well as a self-holding contact (c2) and another cam contact (ni) are assigned to hold. Documents considered: German Patent No. 1018 962; German interpretative document No. 1098 079.