DE707910C - Receiving relay with resonance element for overlay remote control systems - Google Patents

Description

Receiving relay with resonance element for overlay remote control systems The invention relates to a receiving relay with a resonance organ, which when responding one provided with a certain self-holding. Turns on the running of a time selector, for superimposed remote control systems in which a high-voltage network has non-network currents Frequency are pressed, and the various receiving relays are connected to the network that work with one frequency and perform various switching operations can.

The practical training of a broadcasting facility with only one Frequency works, does not cause any difficulties. What is difficult, however, is the receiving relay to be designed so that they are inexpensive and simple, more reliable in construction when using a single control frequency, the most diverse circuits in can execute in an arbitrary order.

According to an older proposal, the relays are given a time selector driving drive and a resonance organ tuned to .the control frequency. With the known relays, however, only one remote control act can be carried out per relay or the individual remote control files can only ever be 3n of a specific one Complete the sequence.

The invention overcomes these shortcomings in that in the path of the Drive protrudes a remote control act exercising control part, as long as the resonance organ responds, is moved out of the circular path of the drive, and that the selection of the individual relays or control files when using pulses of different duration or time interval by different setting of the drive parts opposite the initial position of the drive is enabled. After starting the drive then come depending on this setting, the drive parts, z. B. shift finger, earlier or later in the area of the control part executing the remote control act. To one full cycle the self-holding of the drive is stopped again. That Relay is operated in such a way that you always have the same sending periods works, but sooner or later one or, depending on the desired remote control act switches on several transmission pauses in the period. At the beginning of the broadcast, the Drive started. . As soon as the switching finger on the relevant relay o. The like. Of the drive get into the area of the control part, the shipment will temporarily interrupted. This will put the control part in the path of the drive brought and operated. The transmission is then continued again and the control section again removed from the path of the drive. Relays where the switching fingers are under other angles are set than those previously described, do not respond because when their control parts are engaged in the drive's circulation path the sliding rings are not in the area of the control modules.

The relay can also be designed in such a way that the resonance relay iii the response position both the finite of a certain self-holding verselierie drive of the time as well as the control part executing the I # ernsteuerakt in the Um-1 <@ul de. I_.:@it «erl, s moves.

The operation of the relay is essentially the same -% vie before, but the transmission is different to the extent that it is after a start-up pulse has been sent a transmission pause is immediately switched on for the initiation of the 1Jatifwerk. As soon as the switching fingers or the like of the remote-controlled relay in the area of the control unit ge? aii-en, is sent again briefly so that the control section enters the C'inlaufv: eg the drive is brought. Here, too, the relay will respond to others Angle adjustments of the shift finger prevented because the second transmission pulse The switching fingers of these relays are not in the area of their control modules.

It is best to leave the resonance relay in control of the control part by shifting the A-axis Bring into the circulation path of the drive and in the tangential direction from the switching fingers operate this work. Used to further simplify the relay construction you press the switch to turn on the drive at the same time for self-holding.

The invention is to be explained in more detail with reference to the drawing. It shows a receiving relay in two different views.

i is a laminated excitation magnet with winding 2 running over a capacitor 3 (Fig.2) to the lines of the superimposed Starkstron rivet connected. The iron core of the magnet consists of leg pieces 4, 5 and your yoke piece 6 (Fig. 2). The leg pieces are through the air gap 7 f Fig. i) separated from each other. They are riveted to the sheet metal angle S, while the yoke piece 6, on which the coil 2 sits, is releasably fastened by screws 9. This embodiment of the magnet has the advantage that the air gap 7 is set correctly once and for all remains, and that the solenoid 2 is easily removed by loosening the yoke piece 6 and can be exchanged. In the air gap 7 protrudes the free end of the curved Tongue io, which is tuned to 42o Hertz, for example. About the same Frequency is that from parts 2 and. 3 existing electrical resonance circuit set. On the tongue there is a shock spring i i near its bending point attached, the swinging of the tongue io a wheel 12 in the sense of the Arrow. The wheel 12 drives a wheel 13 which rotates through one in the slot 14 current Stilft 15 is limited. The spring 16 is looking for the pin and thus the To push wheels 12 and 13 into the designated position. But your strength can with Response of the tongue io can be overcome by the driving force of the fabric spring i i. On the shaft of the wheel 13 sits the control worm i7 (Fig.2), in which one Arm of a double-armed lever 18 engages, the other arm in the annular groove one on the shaft i9 seated disk 20 engages. The control unit sits on this shaft serving rocker 21, which is indicated by pivoting the lever 18 in the dashed line Position 21o (Fig. 2) can be brought. The gear wheel sits on the same shaft 22, which engages with the pinion 23. The driver 24 sits on the shaft of the pinion, the one labile spring 25 in the shown with solid lines or dashed lines Seeks to push end positions (Fig. I). Loose on the shaft of the pinion 23 is the Switching arm 26 mounted, which actuates the switches 27, 28 alternately. Because the construction and mode of operation of such unstable switches are known per se, they should not are explained in more detail.

29 (Fig. I) is a small synchronous motor connected to the power supply system, which drives the shaft 30 of the drive via an intermediate gear. The shaft is provided with a flange 31 to which the switching arm 35 carrying the switching fingers 33, 34 is fastened by means of the screw 32. The arm 35 can be adjusted relative to the shaft 30 and for this purpose is provided with a series of screw holes 36 (FIG. T). The flange 31 has the shape of a cam disk with the incision 37 (FIG. I) and controls one contact 38 of a switch 39, the other contact 40 (FIG. I) of which can be actuated by the lever 41 from the pin 15. The contacts 38 and 40 are connected to one conductor, and the contact 42 is connected to the other conductor of the power system via the winding of the motor 29.

The switches 27 and 28 are in circuits to be operated remotely Devices switched on.

The relay works in the following way: If the switching arm 26 of the switch 28 are flipped to the switch 27, then the power network Superimposed with 42o Hertz. The tongue io responds and rotates by means of the shock spring i i the wheel 12 in the direction shown. Brings the spring 16 under tension the pin 15 makes contact 4o with the contact 42 by means of the lever 41 and thereby switches the Motor 29 on. At the same time, the Parts 17, 18, 2o of parts brought into position 2io, that is, out of the circular path the shift fingers 33 and 34 moved. The switching arm 35 moves in the sense of the one shown Arrow. As soon as his finger 33 comes close to the rocker 21, the program will be temporarily interrupted. This moves the rocker from position 2io to position 2i, that is, brought into the circulation path of fingers 33 and 34. That also because of quitting the tongue vibrations by the spring 16 die.Teile 15, 41 and 4o back into the Drawn position are brought back is meaningless, since the motor 29 meanwhile by means of the cam disk 31 via the contacts 38, - 42 a self-holding circuit has closed.

When the arm 35 continues to run, the finger 33 hits the arm of the rocker 2i and takes it a little way with it until the spring 25 has reached its unstable position and the rocker swings through to the position shown in dashed lines. In this case, the switching arm 26 is turned over from the switch 2 8 to the switch 27 by .the part 24th Shortly thereafter, the broadcast is continued, so that the tongue begins to swing again and .the rocker 21 is brought through the parts 17, 18, 20, that is, out of the circulation path of the fingers 33 and 34. The broadcast is then continued until the switching arm 35 reaches its starting position, and is best aborted shortly beforehand, so that a second arm rotation is not brought about by extending the broadcast for too long.

If the switching arm 26 is to be brought back from the switch 27 to the switch 28 the same process takes place, only the transmission pause is in the time relocated, in which the shift finger 34 arrives in the area of the rocker 2i.

It is clear that relays in which the switching arm 35 has a different angular position to the drive shaft occupies, not actuated in the remote control files described can be as their shift finger during the temporary interruption of the The program does not run in the area of the rocker switch. Through various angle settings of the switching arm 35 can be one and the same relay type for any remote control can be used that can be executed independently of one another. Depending on now the Interruption of the broadcast in the earlier or later part of the broadcast period postponed the relays are operated with smaller or larger setting angles.

A drive corresponding to the receiving relay can be installed in the transmission center be provided with self-holding, which is set in motion at the beginning of the broadcast and moves a pointer over a scale. On this scale are the individual Noted points in time at which the interruption of the broadcast for the purpose of bringing about certain remote control files should be done by z. B. the scale in individual sections divided and in each section enters the appropriate type of remote control, z. B. Street lights on, street lights off, high tariff on, high tariff off. _ The operation of the remote control system is then very easy and can also be done by untrained people Personnel are carried out. "If, for example, the street lighting is to be used at a certain time of day are switched on, then the transmitter is switched on, .the pointer begins to to run. As soon as he gets to the area marked "Street lights on", the transmitter is switched off. As soon as the pointer leaves this area, the Transmitter switched on again and left switched on until the pointer its end position, which coincides with the starting position, reached.

The control .des transmitter can also be automatic by z. B. with the rotating pointer connects a contact that over the individual scale sections Assigned contact segments slides via selector switch with the power switch of the transmitter that is used to connect the transmitter to the network. Before the start of each broadcast, a timer may be activated automatically a certain segment is switched on by pressing the corresponding selector switch. As soon as the pointer reaches this segment, the transmission is automatically temporary interrupted.

The invention offers the advantage that with simpler, more reliable Construction of the receiving relay with only one frequency several remote control files in arbitrary order can be executed.

Claims (6)

PATENT CLAIMS: i. Reception relay with a resonance element which, when responding, switches on a drive of a time selector provided with a certain latch, for superimposed remote control systems in which currents of non-network frequencies are applied to a high-voltage network and the various reception relays are connected to the network, which work with one frequency and perform various switching processes can,: characterized in that in the path of the drive (parts 30 to 35) a remote control act executing control part (2'1) protrudes, which, as long as the resonance element (io) responds, from the circulation path of the drive (parts 30 to 35 ) is moved, and that the selection of the individual relays or control files when using pulses of different duration or time interval by different setting of the drive parts (3o to 35) is made possible with respect to the initial position of the drive. 2. Receiving relay with resonance organ, that when responding to a drive provided with a certain self-holding Time selector turns on, characterized in that the resonance organ as long as it responds, a remote control act exercising control part in the circulation path of the Drive stops. 3. receiving relay according to claim i or 2, characterized in that that the resonance relay (i to io) controls the control unit? 1 (2i) to which the drive (29 to 37) acts in the tangential direction, through axial displacement (positions 21 and 2io in Fig. 2) moves into and out of the circulation path of the drive (29 to 37). d .. Receiving relay according to claim i, characterized in that the switch (38 to 42, Fig. I) for switching on the drive (29 to 37) at the same time for self-holding serves. 5. The method for operating relays according to claim i, characterized in that that the same transmission period is used for all transmissions and the different ones Relay controls by switching on certain transmission pauses for different ones Times of period are brought about. 6. Procedure for operating relays according to Claim 2, characterized in that the relay is determined by a transmission pulse Duration set in motion and the various remote control files by sending at least another pulse brought about at a different time interval will.