DE691638C - Receiving apparatus for remote control systems, especially overlay remote control systems - Google Patents

Description

Receiving apparatus for remote control systems, in particular superimposed remote control systems The invention relates to a receiving apparatus for remote control systems, in particular Overlay remote control systems, with two or more about the same frequency coordinated resonance organs, one of which for preparation and at least another is used to execute a remote control act. With known receivers This Xrt speak the resonance organs, if one of their voting corresponds Frequency is sent at the same time. One type of apparatus is loved by one Resonance organ an inhibition for the second or for one of the second resonance organ actuated part. In another species, the second organ is only created by the mechanical reactions of the vibrating first organ excited. After subsiding of the impulse, both organs come to rest again and are in exactly that same operational readiness as before.

The invention also makes of a receiving apparatus with two or more Using resonance organs tuned to the same frequency, one of them serves to prepare and at least one other to carry out a remote control act. However, while both known apparatuses only have a higher selectivity is sought, the task of the invention is my remote control system in addition to the remote control files, a message transmission, e.g. B. by Morse code, to enable.

With a view to economic efficiency, the remote control system as many remote control files as possible can be executed. It must therefore be in the for Available control frequency range accommodated as many control frequencies as possible without a receiving apparatus being disturbed by an adjacent control frequency will. This requires precise coordination and a high level of resonance from the receiving equipment. If one now wanted the resonance organ of a receiving apparatus to be operated directly of a signal circuit, then this organ would be controlled by the Actuation caused resistance to movement so strongly attenuated that its response range is too wide. There would then be a risk that this organ would also be affected by neighboring frequencies -is actuated, -when as a result of the interaction of inductances and capacities in the power grid or from others Reasons the control voltage assumes excessive values.

The invention overcomes these difficulties. In deviation from the known receiving apparatus mentioned leads from dcu tuned to the same frequency 1 @ r @ sonanzorganen one thing that remains, only by hand or by another Tax act to be reversed preparation from which also a repeated one Execution of remote control files, in particular signaling, by at least one further resonance organ allows. Once this preparation has taken place, the second resonance organ can work completely independently, as if if the first resonance organ were not present at all.

The particular advantage of such relays is that the second Resonance organ for repeated pulse-like circuits, for example for playback Morse code or the like, can be used that it has a high resonance sharpness of the second Urgans does not arrive because the second organ as long as it is not prepared is, through (read first resonance organ, which has a much higher resonance sharpness can have, is blocked against the reception of impulses, and that the second resonance organ, precisely because no particularly high resonance sharpness is required by the to be controlled Parts may be used much more heavily (attenuation) than otherwise with such remote control systems. is common.

The invention will be explained in more detail with reference to the drawing. i is the power network to which the exciter winding 3 is connected via the capacitor 2 Receiving equipmentq. connected. The exciter magnet acts on one through the Permanent magnet steel 5 polarized tongue 6, whose amplitude is determined by the stops 7 is limited. 8 is a button that monitors the vibrations of the tongue 6 held by a stop g at a certain distance in the rest position of the tongue will. The number of oscillations of the button 8 is essential. for example jofach, smaller than the natural frequency of the tongue 6. In the stroke of the button 8, a switch io is attached.

A tongue ii is mechanically coupled to the tongue 6. In the oscillation path of the tongue ii protrudes the button 1 2, which is held by a stop 13 at a certain distance in the rest position of the tongue ii. The button 12 drives via a pawl i-4. a ratchet wheel 15 which is only toothed over half of its circumference and which is connected to a cam disk 17 controlling the switch 16. 18 is a handle with which the curling disk can be returned to its original position. The switches io and 16 are in series with a battery ig and a bell '2o or other signaling device.

The receiving apparatus works as follows: The oscillating circuit 2, 3 and the tongues 6 and ii are tuned to the same frequency, for example 3 1 5 Hertz. The oscillation circuit 2, 3 has a very flat resonance curve. The resonance curve of the tongue 6 is much wider than that of the tongue ii, because the tongue 6 is on the one hand directly excited by the magnet 3, on the other hand is constantly and relatively strongly damped by the button 8 floating on it. This strong damping is due to the fact that the contact spring of the switch i o pushes the button 8 again and again into the oscillation range of the tongue e.

The resonance curve of the tongue ii is very narrow, since it is almost entirely Swings freely, because the button 12 only coners for a short time when it returns in the position shown finitely in contact with the tongue and performs many larger strokes off than the button B. The resonance width of the tongue i i can also be caused by excessive Control voltages are not affected because the amplitudes of the tongue 6 by the attacks 7 are limited and. consequently the energy supply to the tongue i i does not exceed a certain level.

If 315 Hertz are now superimposed on the network, the tongue swings open first, brings the button 8 into the position 8o indicated by dashed lines and thereby closes the switch io. The signal apparatus -2o is not yet activated because switch i () is still open. Shortly thereafter, the tongue ii also swings and, as soon as it has reached a certain amplitude, hurls up the button 12 which, by means of the pawl iI, turns the wheel 15 by one step in the direction of the arrow. After some time the button 12 returns to the oscillation range of the tongue ii, is thrown up again and switches the ock disc 17 on again. This process is repeated until the pawl 14 hits the toothless part of the wheel 15. Then the cam of the disk i 7 closes the switch 16 and the signal sounds. From this moment on, by temporarily switching the überlag.erun, gsstrorns- on and off, any signal sequence can be given by the apparatus 2o. So z. B. -. Morse code. The great resonance sharpness of the tongue ii protects the device against actuation by neighboring control frequencies, e.g. B. 325 Hertz. The tongue 6 could certainly be made to vibrate when sending 325 Hertz and in particular when the control voltage is excessively high, but the tongue ii, which has more resonance, would not respond, so that signaling would therefore be prevented.

After the signal has been given, turn the IS handle to set the cam disc 17 brought back to the starting position, but the turning back can be done by the control center be caused by transmission of a different frequency when the disk 17 through a resonance relay tuned to this frequency can be turned back. Also is a return through temporary change or disconnection of the high voltage voltage possible if, instead of the handle 18, one responsive to voltage changes Relay, e.g. B. a saving decrease relay is used.

In order to be sure that the tongue i i, easily influenced by temperature o: d: gl. can be upset to achieve It is recommended to use the fixed frequency of 3I5 Hertz at the beginning of the broadcast to send a frequency band from 3I3 to 318 Hertz, which you run through so slowly allows the tongue i i time to move the cam disk i7 into the working position bring. The actual signaling is then carried out with the final frequency of 3t8 Hertz des Ribbon caused by temporarily turning off the control current. on the tongue 6 speaks this frequency with certainty because of its low resonance sharpness on, but any other frequency of the ribbon can be used instead of the end frequency can be used for signaling.

It is not necessary that the tongues 6 and i i- mechanically with one another are coupled, but you can also give each tongue its own exciter magnet and by other means to ensure that the tongue ii has a higher resonance sharpness than the tongue has 6. The tongue 6 can also be activated by an electrical resonance system, that is directly connected to the network. In certain circumstances more than two resonance organs of the same vote can be used on the signal actuation, but different sharpness of resonance are involved.

In the illustrated embodiment, the arrangement can also be taken so that when the tongue 6 is at rest, the switch io is closed and is only opened when the tongue is swinging. The signal is then given by interruption of the control pulse. If a closed circuit is used to operate the signaling apparatus _ 2o is used, i.e. a circuit that actuates the signal when it is switched off, then switches io and 16 are connected in parallel. '

Claims (3)

YATENT CLAIMS ',: i. Receiving apparatus for remote control systems, in particular Overlay remote control systems, with two or more about the same frequency coordinated resonance organs, one of which for preparation and at least another serves to execute a remote tax act, characterized in that of the resonance organs tuned to the same frequency, the one remaining one or one that can only be reversed by hand or by another tax act Preparation brings about the repeated execution of remote control files through at least one further resonance organ. 2. Receiver for remote control systems next claim i, characterized in that at least one resonance organ which is on the induction of the remote control act is involved, a narrower response range who is involved in the remote control act within the response range of another Resonance organ lies. 3. Receiving apparatus for remote control systems according to claim i and 2, characterized in that of the two on the coming into being of the remote control act participating resonance organs only the one with the broader response range of the Control currents is influenced, while the other with the narrower response range is coupled to the first organ. Receiving apparatus for remote control systems according to claim i to 3, characterized in that one consisting of inductance and capacitance Oscillating circuit has a first tongue, the amplitude of which is preferably adjustable Attacks is limited, is excited, the un; indirectly or indirectly through a Button actuated a contact during their oscillation state, and that with the first tongue mechanically coupled to a second tongue tuned to the same frequency is that step by step directly or via a button, a control cam, etc. like * drives a second contact.