DE1061413B - Ripple control system with receivers assigned to a normal or a special program - Google Patents

Description

GERMAN

For the central remote control of consumers that are connected to the energy distribution network superimposed audio frequency pulses on the network from a transmitter according to a certain program, the receivers assigned by the consumers one or the other depending on the transmitted impulse pattern control another consumer group. There are currently two methods of impulse transmission in use. With the pulse time method, the receivers are determined by the time pulse length, with the pulse interval method by a succession of equally long pulses at a certain time interval controlled. The following considerations should be based on a recipient according to the last procedure will.

Each receiver is only for a certain impulse command, which is made up of different individual impulses put together to form a pulse pattern, set. A cylindrical drum comes with a Synchronous motor coupled, which at the beginning of a transmitted pulse pattern when the first arrives, ie of the start impulse starts up and the drum rotates. On their scope are in a certain order Rider attached to the timely arrival of the audio frequency impulses of the transmitted impulse image trigger the desired switching task. The receiver is set up so that the drum after a Rotation automatically stops again in its starting position.

The details of the recipient can be found in the description of German patent specification 1 018 962 explained. On the circumference of the drum there are axially parallel grooves which are fixed as switching locations and carry sliding pins in a specific arrangement. From the planned 24 switching locations on the circumference of the drum is the first as a starting place and the second is provided as a blocking point to protect against interference pulses. The remaining switch locations are with group pens that are used to select the impulses intended for the relevant group of recipients serve, and occupied with command pins. The roller moves after being put into operation by the start pulse once around itself in 24 seconds and then automatically comes to a standstill again. With timely When the impulses arrive, the command pins, which can be displaced axially parallel in the grooves, are which are pivotably mounted on a rake arranged opposite the roller, in tracks steered, in which they perform the desired switching tasks, d. i.e., in which they are the near the Roller arranged switch by. Shifting gear levers. Being able to operate (active lanes).

The pulse pattern is generated in the transmitter by a pulse generator in conjunction with a program ripple control system with a normal or a special program
assigned recipients

Applicant:

LICENTIA Patent Administration -G. m. b. H., Hamburg 36, Hohe Bleichen 22

Helmut Brand, Hamelin,
has been named as the inventor

encoder generated and fed to an audio frequency generator, which feeds it into the energy supply network. The pulse generator consists of a contact arm that, Driven by a synchronous motor, after start-up one revolution synchronized with the receiver selection element executes and sweeps over a number of contact segments. The contact arm of the pulse generator sweeps over all contact segments during one revolution and thus sets each time when the segment is touched, a connection is established to a relay that feeds the audio frequency controls in the power supply network. With 24 contact segments, one revolution of the The generation of 24 individual impulses is possible with little contact. The width of each contact segment is therefore decisive for the length of each individual pulse with a constant cycle time. In the lines that lead from the contact segments to the relay, switches of the programmer are installed with their Any desired impulse pattern can be set with the help of this. For example, in the 6th, 10th and IS. Seconds after the start of the pulse generator a pulse for the power supply network is desired only the sixth, tenth and fifteenth switches of the programmer are closed, the others, however stay open. When the contact arm of the pulse generator revolves, the control relay only closes the wished. Times (6th, 10th, 15th second) during the rotation of the contact arm of the pulse generator Voltages are supplied so that the audio frequency pulses are only fed into the at these times Power supply network can be done.

For the implementation of special programs, such as B. Air raid warning signals, is the aforementioned remote control system not suitable, as - as a result of the air warning that is used to generate the howling

909 577/320

3 4

tones required pulse pattern an inevitable ■ The invention aims at a ripple control disturbance the normal recipient would occur. For system in which both receivers for normal air raid warning purposes Therefore, special add-ons as well as a special program with impulse inserts are provided that can be controlled with a different frequency and the same audio frequency, depending on the remote control of the normal 5 a special receiver separate from the normal program work. . program regardless of the sending of the

While a normal receiver to send through the special normal program. Ripple control receivers are used for this ripple control arrangement - its group and command pin wide system. According to geliend is encrypted, there is a particular problem with the air raid receiver in the German patent specification 1 018 962, because yes, the design described in the scope is included a Trom the air raid warning even while the switching points are running. According to the invention, the normal program should be possible at any time. Since every second of the available switching locations is assigned to the special now the air raid warning receiver with the normal program, and at each switching location assigned to the special receiver when a normal program is transmitted is a group start-up, an encryption of an air-raid switch pin (1 in Fig. 2) and In addition, a command switch protection receiver can be given in every position of its pin to switch the special catcher roller on and off. A consumer assigned at any time to the program is attached, according to the invention, encryption is provided by the introduction of such a blocking area arrangement of one fixed group pin arrangement in each case, although the number of the controlled and one displaceable command pin in a device is significantly restricted, however, a common groove is achieved on the receiver drum. . achieves that with the same type of receiver both an encryption process becomes clear from the normal remote control program as well as the control in FIG. Usually takes the switch 2 which can be carried out in. The receivers can Fig. 2a shown inactive position, that is, the 25 arranged for example on the even switching locations of their Ausauf the receiving roller and a normal remote control program and rotation of the roller on the indicated by arrow 12 on the uneven switching locations an air raid warning path moving command pin 3 offers you a program or vice versa control without a free pass. The group pin 1 is so short that mutual influencing and disturbance takes place that it also passes the switch without touching it holds, ie when there is no impulse. In German patent specification 1 018 962 described cylin beginning of an air raid warning program there are drical drum with the arranged on the circumference during the first signal pulse, which the rake Neten axially parallel grooves, in which radially directed and thus the switch approaches the drum, a 35 pins stationary or are arranged displaceably. The group pin 1 and a command pin 3 according to Fig. Ib stationary pins are always provided for actuating the switches within the functional area, ie, those on the roller with respect to the ■ they are when the pulse arrives on their movable rake are pivotally mounted. The tracks 11 and 12 just before the switch 2 (Fig. 2a). The group pin 1 now swivels on its path 40 of the switches, ie while they are passing the switch 2 in the direction of arrow 13 around the axis 9. The functional area, of these command pin 3 depending on their position, is indeed through the pivoted switch steered in active or inactive tracks. The slideways are steered out of their path (arrow 12 '), but they cannot carry out a switching process on the switches for guiding the command pins, since they have not yet been trained to do this when the switches are in an active path (Fig. 2 B). Only when the 45 group pins are adjusted, in active tracks, when they switch points are completely turned around by the group pin, on the other hand by locking pins, is it possible to steer the following command pin 4 so that they do not switch. Encryption of a sliding surface 8 on the switch, which depending on the remote working as an air raid warning receiver, whether the switch is approaching the receiver drum, is achieved by opening the drum set for the or not, in a switch-on path or in an off 50 air raid warning program switching path 5 leads (Fig. 2 c). A free switching slide 8 ′ located between the blocked positions is firmly connected to the rake, which forms the extension of the locations a fixed group pin and ¹ a switch slide 8. Is carried when the sliding command pin is activated. When the switch arrives, an impulse is given when the first impulse of an air raid warning program is command pin in its functional area, so the one located at the level of the switch slides because the rake is driven by the impulse of the roller group pin by adjusting the switch in is approximated, command pin lying in the switch-on level in the same plane into an inactive path, in which he actuates a switch that directs the air path, so that only the following command pin triggers a protective siren. If no impulse is given when the switching process can be carried out,
the command pin passes the functional area, then 60 With reference to the drawing, the invention is glided on one, since the rake in its raised embodiment, in which the position described at the beginning is, is not based on the slide 8 ', but rather on the receiver type is, in detail moves below it into the switch-off path 5. described in more detail.

The resetting of the switches, ie the re-Fig. 1 shows a comparison of the occupation readiness to receive of the receiver takes place through 65 of the individual switching locations of the selection organ for an impulse which is sent to an even numbered receiver, ie to a normal receiver and a special program receiver; Fig. 2 shows a receiver switch in three working modes. The locking pin 7, which during these positions again.

Impulse passes through the functional area, the circumference of the drum turns up. 24 switching

Dodge back into the position shown in Fig. 2a. 70 locations are located, is shown in Fig. 1 a for a normal remote

Claims (3)

Control receiver and shown in Fig. 1 b for an air raid warning receiver unrolled in the plane. The fields marked with the numbers 0, 1, 2 ... 23 each represent a switching point. Each switching point is formed on the drum circumference by a groove extending over the entire width. Depending on the pulse pattern to which the receiver is set, the grooves are fitted with fixed group or locking pins and with axially displaceable command pins. When used as normal receivers, the uneven switching locations and when used as air raid warning receivers, the even switching locations are designed as blocked locations; This means that these locations on the drum are occupied by pins that make the receiver inactive if they are just passing through their functional area during the duration of an impulse, i.e. passing the switches arranged on the rake. The even switching locations 2, 4 ... 12 are used as group places for the normal receiver, i. That is, switching pins are housed in these places, the arrangement of which is the same for a certain group of receivers. The straight switching locations 14, 16 ... 22 are reserved for the command pins that can be moved within their grooves. Switch location 0 serves as a starting point and is occupied by a locking pin, whose task it is to initially bring the turnouts into an inactive position at the start. When using the remote control receiver for air raid warning purposes, the odd slots 1, 3 ... 23 are each occupied with a fixed group pin and a movable command pin. The function of the unoccupied starting place and the arrangement of the group and command pins are explained in more detail below. The special training of the remote control receiver, on the one hand as a normal receiver and on the other hand as an air raid warning receiver with the special arrangement of their blocked positions, which ensures that the normal receivers are automatically blocked when a special program is broadcast and the air raid warning receivers when a normal program is broadcast, must be invoiced to the central broadcasting station be worn. While the pulse generator provided in the transmitter was previously able to transmit any pulse image using all of its contact segments by setting the programmer, one half of its contact segments is now only set up for broadcasting a normal program and the other half only for broadcasting an air raid warning program . The contact segments are connected alternately with the programmer for the normal program and with that for the air raid warning program, so that the pulse generator for the normal program can only be active with its even local sequence and for the air raid warning program only with its odd contact segments. With the pulse generator for generating a normal program, if the pulse duration is set to 1 second, a pulse can only be sent after the start pulse in every subsequent even-numbered second. For special programs, due to the contact segments, an impulse can only be emitted in every odd second after the start impulse. Of the receivers distributed in the network, only those will respond with g5 transmission of such a pulse distribution who do not have locking pins on their odd switching locations, i. H. all air raid warning receivers. Since on every second. The switching point of an air raid warning receiver is a command pin that passes through an activated switch within its functional area for the duration of a pulse, the siren controlled by the receiver is switched on once by the first command pin. The following command pins pass the switch-on path without triggering any further action. After each cycle, the receiver drums are started by the automatic start impulse. It is now clear that the take-off position on the receiver roll must remain unoccupied in order to carry out an undisturbed air raid warning program. With the remote control receiver according to the invention, it is now possible to also carry out the air raid warning program with the same audio frequency that is used to control the normal receiver. Only through the alternating arrangement of the switching locations on the receiver drums once for the normal program and the other time for the air raid warning program is the problem solved in such an advantageous manner that mutual interference between the individual programs is completely excluded. In addition, the air raid warning receiver can be controlled at any time independently of a normal program that is already running, as the pulse generator in the transmitter only needs to be switched to the air raid warning program. The normal receivers are then automatically made inactive for the further rotation of their rollers, since the remote control pulses now sent out hit blocked areas for normal receivers. Patent claims: 1. Ripple control system with receivers assigned to a normal or a special program, their synchronously rotating indexing drums via indexing pins attached to these drums Control switch according to the assigned pulse pattern (Zellweger-Etnpfanger), its from the normal program separate special program regardless of the sending of the normal program can be sent, characterized in that every second of the existing switching locations dem Special program is assigned and that on each switching location assigned to the special program of the ripple control receiver on the circumference the receiver drum (Fig. Ib) a group switch pin (1 in Fig. 2) and next to it a command switch pin for switching the dem on and off Special program assigned consumer attached are. 2. Special program receiver for a ripple control system according to claim 1, characterized in that that his drum is on each switching point assigned to the normal program (Fig. Ib) a locking pin (7 in Fig. 2) carries. 3. formal program receiver for a ripple control system according to claim 1, characterized in that that its drum carries a locking pin (7 in FIG. 2) on each switching location assigned to the special program (Fig. la). Considered publications:
German patent specification No. 1 018 962. 1 sheet of drawings © 909 577/320 7.59 DRAWINGS SHEET 1 ISSUE DATE: JULY 16, 1959 kl. 21 c 45/06 INTERNAT. KL. H 02 C Fig. La Normal recipient Fig.n Special program recipient Lock command 0 Lock 1 Group command 2 Lock 3 group command Lock 5 group command 6th Lock 7th group command 8th Lock 9 group 10 Lock 11 group 12th Lock 13th 1U Lock 15th 16 Lock 17th 18th Lock 19th 20th Lock 21 22nd Lock 23 Lock command öruppe Lock command group Lock command group Lock command group Lock command group Lock command group Lock command Group Lock command group Lock command group Lock command group Lock command group Command· group f DRAWINGS SHEET 1 ISSUE DATE: JULY 16, 1959 THE 1061413 KL.21c 45/06 INTERNAT. KL. H 02 C 909 577/320