DE616190C - Synchronization process for the moving parts of the apparatus in multiple transmission and reception systems - Google Patents

Description

It is known for synchronization purposes, the synchronizing current or the synchronizing frequency or to transmit a current derived therefrom directly or by modulating a carrier frequency. at inertial distribution systems is determined by the distribution frequency and the number of each the width of the signal series switched on the transmission path Frequency band determined. This width can correspond to the relatively high switching speed be quite significant. If there are moving parts of the apparatus on the sending and receiving side of the distribution system, which are to run synchronously with one another, a corresponding synchronizing current must also be provided be transmitted. To broaden the frequency band to be transmitted or to avoid cumbersome conversion of the local synchronizing current into a current suitable for transmission, According to the invention, the synchronization current is transmitted by the distribution switching means itself.

It is already known to use mechanical distributors, e.g. B. for telegraphing purposes, one Use distribution sector for synchronization. The synchronization takes place usually by simple impulses which one or more relays on the receiving side actuate and cause the receiving system to accelerate or decelerate. In the present invention, however, it is the reasonably true to shape Transmission of a synchronizing current whose number of periods is relatively smaller than is the frequency of the cyclic switching (control frequency) of the distributor. On several cyclic switchovers of the entire distribution device are therefore eliminated for one period of the synchronizing current, and via the corresponding distributor segment or the corresponding Synchronizing current surges conducted by a distributor tube settle on the receiving side integrating to the original form of the synchronizing current with more or less approximation again. This advantage, namely the true-to-form transmission of a synchronizing alternating current, only results from inertia-free distributors due to their high switching speed. The control frequency of the distributor, i.e. H. the period of the cyclic switching, can, what is not the subject of the invention, in any known way on transmission and Receiving side are kept in accordance. On the basis of Fig. 1 and 2 is the The idea of the invention further explained.

Fig. Ι shows the transmission side, Fig. 2, the reception side of a television system which the individual image pulses and also a synchronizing alternating current for the Synchronization of the image devices are to be transmitted by distributors. As a distributor A tube arrangement 1 with six tubes is used on the transmission side (Fig. 1). To

the invention uses a tube 2 for the transmission of the synchronizing alternating current, which corresponds to the speed of the scanning perforated disk 3, so that the light-sensitive device 4 (Fig. 1) and the light-controlling display device (glow lamp; Eq., Fig. 2) only need to be five parts . The perforated disc is driven with the aid of a motor (stator winding 6) which is fed by a three-phase current 7 generated by a special generator. The frequency of this alternating current should be the same as the secondary speed or a multiple thereof, because it should also be transmitted and cause the synchronization. For this purpose, the alternating current is conducted by means of a transformer 8 to the grid of the dedicated tube 2 of the distributor, so that, since the anode circuit of this tube is connected to the modulation tube 9 of the transmitter, the emitted high-frequency oscillation in the rhythm of the pulses flowing through the tube 2 is modulated.

The receiving side (Fig. 2) is designed accordingly. Simultaneously with the first The first distributor tube of the receiver is put into operation. The corresponding current pulses are transmitted to the transformer 3, and the alternating current resulting from the integration of these current pulses is by means of Art phase 4 transformed into three-phase current. Appropriately, as in the example, through three tubes 5 a reinforcement, so that the three-phase current to drive the perforated disc 6 of the receiver can be used. The three-phase current obtained can be a Control motor, e.g. B. a synchronous motor, which is on the axis of the actual Drive motor is seated whose number of revolutions is to be regulated. But it can also be used for the entire power drive that is used for Rotation of the disc is required to be measured by making an appropriate Synchronous motor is supplied. Since a relatively large amount of energy is required in the latter case, it is recommended according to the further invention, special tubes with high emission, e.g. B. controlled gas discharge tubes (Mercury vapor lamps, etc.).

By the arrangement of the invention it can be achieved that speed fluctuations the perforated disk of the transmitter, which for some reason, z. B. Frequency fluctuations of the drive current, no disturbance of the synchronous operation on the sending and receiving side. • The in-phase run of the perforated disks can be adjusted by setting a rotary transformer, via which the for the synchronization of the perforated disks used alternating current flows can be achieved. By rotating the primary part against the secondary part of such a rotary transformer any phase position can be set.

Claims (3)

Patent claims: i. Synchronization process for the moving parts of the machine from multicast and receiving systems in which the corresponding individual devices of the transmitting and receiving devices in a cyclic sequence through inertia-free distributors are switched to the transmission path, characterized in that the transmission of the synchronizing alternating current takes place by means of the inertia-free distributor, its own control frequency in the order of magnitude so much above that of the synchronizing current that the! individual transmitted partial values clearly result in the synchronization frequency. 2. Circuit arrangement according to claim i, characterized in that the alternating current transmitted by means of the distributor through an art circuit in for the synchronization of the moving apparatus part is converted to suitable multi-phase current. 3. Circuit arrangement according to claim i, characterized in that the controls alternating current gas discharge tubes transmitted by means of the distribution circuit, which supply the synchronizing current for the moving parts of the apparatus. 1 sheet of drawings