PL34436B1 - - Google Patents

Description

The radio wave is usually the so-called loudspeaker distribution system. Such a system is divided into individual branches connected in parallel with the control panel. The loudspeakers of the distribution system are also connected to the branches in parallel. However, the radio in such a system has the disadvantage that a short-circuit in one branch causes a short-circuit and overloading the control panel, and thus possible immobilization of the entire radio node. This inconvenience is particularly important in The device according to the invention obviates this drawback. The figure shows schematically, by way of an example, the connection arrangement of the device according to the invention, by way of example, by way of a large number of parallel circuits and loudspeakers. Fig. 1 shows the circuit of the control device connected to each branch of the radio node, Fig. 2 - schematically the entire circuit of the device according to the invention. In each branch of the loudspeaker distribution circuit a control device (Fig. 1) consisting of resistors R is switched on , Rl i coil. ' and inductive Z. The resistors R and Rl are selected so that when the loudspeakers in the branch work under normal conditions, the voltage drops on the resistors R and Rl are equal in size and phase. The voltage drop on the resistor R ^ is proportional to the current flowing through the branch, whereas the voltage drop across the resistor R 'is proportional to the voltage in the branch. The inductive resistance Z is chosen so that the phase shift of the current flowing through the resistor R 'is equal to the phase shift of the current flowing to the loudspeaker. The resistance of the resistor R 'should be so large that the current flowing through this resistor and through the coil Z is small. The arrow L shows the direction of the panel, the arrow M shows the direction of the speakers. When the above-mentioned conditions are met, then under normal operating conditions the branch does not have any potential difference between points a and b, because the voltage drops across the resistors R and Rf are equal in magnitude and have the same phase. In order to compensate for small differences in potentials resulting from the properties of the loudspeakers used, it is advisable to make the resistor R 'in the form of a voltage divider, which allows for easy equalization of the aforementioned differences. Equalization of voltage drops on resistors R and R' is possible for all frequencies ", which may occur in the distribution system, because the inductive resistance Z is selected so that the current phase shift caused by the resistors R and R \ is the same for the entire range of frequencies used. The balance of the system is as long as as long as the normal state takes place with all the control unit excitations, because in the case of an increase in the voltage in the line, and thus the current flowing through the R resistor, the current flowing through the RZ resistor increases in the same proportion, but one of the speakers is damaged the branch inductive resistance changes, thus the voltage balance on the resistors R and R 'is disturbed, so between points a and b there is a potential difference in. In the event of a short circuit on the branch line or in the loudspeaker, there is almost no voltage on the resistor R \ while on the resistor R there is a voltage several times higher than the normal voltage, because during a short circuit, the control panel amplifier supplies a current several times stronger. Between points a and b there is also a voltage and when, for any reason, there is a shift in the voltage drop phases on the resistors R and R, the potential difference between points a and b, according to the invention, serves to switch off the damaged branch automatically. Switching off takes place, for example, by means of an amplifier. to which a voltage is applied between points a, b, and to which a relay is placed in its final stage, reacting to the emergence of this voltage and switching off the damaged branch directly to the Tub through another suitable device. It is good to build the amplifier in such a way that it starts to work only when the voltage between points a and b- exceeds a certain value. For this purpose, for example, a gas-filled electron tube (thyratron) is suitable, which ignites only after exceeding the appropriate voltage. With a greater number of branches, it is advantageous to use only one amplifier, which is switched to the circuits of individual branches by means of a constantly maintained " An automatic switch, for example a rotary selector, used in telephone exchanges is suitable for this purpose. Fig. 2 shows schematically, with the title of an example, an arrangement of a device according to the invention with a selector. branch, causing a change in the mutual magnitudes of the voltage drops on the resistors R and R ', or a change of their phases, there is - as described above - a potential difference between points a and when the constantly rotating selector switches on the damaged branch (/', 2 ', 3 (etc.),' amplifier E is triggered, which activates relay C and thus also relay A. Then the damaged branch The trip is disconnected by the grounding and remains disconnected also when the selector moves to its further position and the relay C opens. After removing the fault, open the relay A by pressing the appropriate button, not shown in the picture. In order for the radio staff to immediately determine which branch is faulty, it is advisable to place a signaling device in the circuit of each branch, e.g. a lamp that lights up in the in the event of a failure and the circuit to which it is connected is tripped off (Fig. 2 shows the signal circuit as a broken line). The signaling can also be made in such a way that a bell and sounds when the damaged branch is turned off. so that the lamp, which is lit with a continuous light during the correct operation of the branch, would signal the failure with intermittent or flashing light. As can be seen, the invention enables the interference-free operation of a branched radio-broadcast distribution system, e.g. a radio station, by switching off the at the right moment of the damaged branch. PL

Claims (9)

Claims 1. Device for automatic disconnection of a damaged branch of a radio network with parallel branches and possible signaling of damage and disconnection of a damaged branch, characterized in that each branch of the distribution system is connected to a control device on which terminals , in the event of a short circuit or other fault in a branch, a voltage is generated at each frequency and energy output in the branch and within a predetermined range, said voltage, when amplified appropriately, is used to disconnect the damaged branch or signal damage or to both functions simultaneously. • - 2 - 2. Device according to claim The method of claim 1, characterized in that the control device consists of two resistors (R, R ') and an inductor (Z), the resistor (R') being connected in series with the coil (Z), and the whole group (' (R '+ Z) is turned on in parallel to the tap, so that the voltage drop across the resistor (Re) is proportional to the voltage in the tap, while the other of the mentioned resistors (R) is connected in series with the tap, so the voltage drop across the resistor is proportional to the current flowing through the tapping, whereby the inductive resistance (Z) is so selected that the phase shift of the currents flowing through the resistors is 2. (R; R () are consistent for the entire range of the applied frequency, moreover, the resistances of the resistors (R, R ', Z) of the control device are so selected that with the correct operation of all loudspeakers the truncations on the terminals of the device control (between terminals a - b), there is no difference in potential or input energy in the whole transmitted frequency range. 3. Device according to claim A circuit as claimed in claim 1, characterized in that all branches of the distribution system are connected to the disconnecting or signaling circuit by means of a continuously rotating contact (e.g. rotary selector K) in a predetermined sequence, the failure in any of the branches being automatically detected then when the selector contact (K) activates a faulty branch, ie a tap which has a voltage at the terminals of the test device (between points a, b). 4. Device according to claim The method of claim 1, characterized in that the potential difference arising at the terminals of the control device (between points a, b), in the event of a branch failure, is amplified by means of an electron tube (E). 5. Device according to claim The method of claim 4, characterized in that the tube (E) is a thyratron. 6. Device according to claim 5. A method according to claim 5, characterized in that the ignition voltage of the thyratron is determined by the corresponding value of the voltage at the terminals of the control device (between points a, b). 7. Device according to claim 1-4, 6, characterized in that when the voltage at the terminals of the control device (between points a, b) reaches a value that activates the amplifier (E), then the relay (C) is energized, connected to the output circuit, it amplifies link (E), which in turn excites the relay (A) connected in series with the relay (C), which causes the faulty branch to disconnect itself. 8. Device according to claim 7, characterized in that the relay (C) releases automatically when the selector contact (K) ¦ disconnects the circuits of the amplifier and the faulty branch of the switchgear, while the relay (Aj, switching off the self-damaged branch, remains closed and is manually released) only after the damage has been removed. 9. Device according to claim 1 - 8, characterized in that after disconnecting the damaged branch, a signaling light is turned on, e.g. in the circuit of the relay (A) and directly indicating the damaged circuit, or any other signaling device is activated. . Tesla, national journal Josef Merhaut Zastepca: dr. S. Bolland, lawyer B.Z.G. —HO res. 1819-9 5-51 T ~ 2 11569 To patent specification No. 34436 FIGI a {, m W A- ^ Ly "tKHf 1-H- • I— II 2 '3 * - ^ - tol' A * Fig. From 'WWV / VW \ - ^ * W PL