RU2016799C1 - Device for controlling the position of railway switch - Google Patents

Abstract

FIELD: railroad transport. SUBSTANCE: connected to communication line through contacts of reversible relay are controllable capacitor and choke whose movable brushes are linked with control rulers. EFFECT: enhanced efficiency in operation. 1 dwg

Description

 The invention relates to the field of railway automation, in particular to devices for regulating the movement of trains, and can be used at stations equipped with electric centralization devices.

 A device for monitoring the position of a railroad arrow, containing control rulers for communicating with wits, controlled voltage generators, one of which is connected to one of the input terminals of a block by one output terminal connected through one NC contact of a neutral start relay to one of the wires of a two-wire communication line frequency coincidence, to the output terminals of which control relays are connected, and is connected to the other input terminal of the frequency matching unit by another output terminal and through one of the draw mudflow, in parallel with which one of the voltage monitoring units is connected, the NC switching contact of the polarized start relay, the resistor and the other NC contact of the neutral starting relay, is connected to the other wire of the two-wire communication line at its first end, and one output terminal of the first voltage control unit is connected to one from the inputs of the terminals of the first controlled voltage generator, another output terminal to the input terminal of one of the start generators, the output terminal of which is connected to another input m output of the first controlled voltage generator, one output terminal connected to the first NC contact of the neutral start relay and to the third input terminal of the frequency matching unit, the fourth input terminal of which is connected to another output terminal of the second controlled voltage generator, which is connected through one of the capacitors in parallel with which another voltage control unit, the closing switching contact of the polarized start relay is connected to the resistor. One output terminal of the second voltage control unit is connected to one input terminal of another trigger generator, the output terminal of which is connected to one of the input terminals of the second controlled voltage generator, the second input terminal of which is connected to the second output terminal of the second voltage control unit. At the other end of the communication line, another inductor and capacitor are connected to one of its wires by one terminal, and the second capacitor is connected to the other wire through the opening switching contact of the reversing relay, and the second inductor is through the closing switching contact of the reverse relay to the other output.

 A disadvantage of the known device is low reliability due to the presence of a circuit breaker in the contact circuit.

 The purpose of the invention is to increase reliability.

 The goal is achieved by the fact that the second capacitor and inductor are adjustable with movable brushes connected with the corresponding control rulers.

 The drawing shows a block diagram of a device for monitoring the position of a railroad arrow.

 The device contains controlled voltage generators 1 and 2, one of which is connected to one of the inputs of the frequency matching unit 3 by the outputs of which one control relay 4 and another 5 are connected, and through a series-connected capacitor 6, making the switching contact 7 of the polarized start relay , a resistor 8 and the opening contacts 9 of the neutral start relay to the input of the communication line 10, and the input in series with the output of one of the start generators 11 to the output of one voltage control unit 12, connect input to the capacitor 6, another generator 2 is connected by the output to the other input of the frequency matching unit 3 and through the inductor 13 to the disconnecting switching contact 7 of the polarized start relay, and the input in series with the output of another start generator 14 to the output of another voltage control unit 15, connected by the input to the inductor 13, and controlled by the control lines 16, the capacitor 17 and the inductor 18, one of the poles of which are connected to one of the output poles of the communication line 10, and the other through the switching contact 19 is reverse th relay connected to another output pole of the communication line 10.

 A device for monitoring the position of the railroad arrow operates as follows.

One of the generators 1 and 2, depending on the position of contact 7 of the polarized start relay, is switched on according to a feedback circuit and performs the functions of a self-oscillator with a hard self-excitation mode. The self-excitation frequency f ₁ is determined by the intersection of the graph of the constant voltage function at the output of one of the blocks 12 and 15 of the signal frequency at the output of the corresponding generator 1.2 from the constant voltage at its input. Constant voltages U _g at the outputs of blocks 12 and 15 depend on the effective values of the corresponding alternating voltages U _{c, L} on the capacitor 6 and inductor 15 and are determined by the expression:
U _g = U _cm - K U _{s, L,} where K is the coefficient of proportionality,
U _cm is the bias voltage.

The bias voltage U _cm corresponds to the maximum frequency f _{2 of the} dynamic range of the signal frequency at the output of the generators 1 and 2. At the frequency f ₂ , one of the generators 1 and 2 operates with open contact 7 of the polarized start relay. Generators 11 and 14 generate start pulses with a repetition period of 0.5 s, the duration of which is much shorter than the deceleration of operation and falling off of control relays 4 and 5, and the amplitude corresponds to the dynamic range of input voltages of generators 1 and 2. The polarity of the start pulses provides a subtraction of voltages the outputs of the generators 11 and 14 from the voltages U _g at the outputs of the respective blocks 12 and 15. The inductor 13 together with the controlled capacitor 17, as well as the capacitor 6 together with the controlled inductor 18 form successive oscillatory circuits when the arrow is in the plus or minus position, respectively. The capacity of the controlled capacitor 17 and the inductance of the controlled inductor 18 vary depending on the position of the arrow by means of the bars 16. When the arrows are in the positive position, the plates of the controlled capacitor 17 are aligned, and the core of the control inductor 18 is removed from its winding. And vice versa, in the negative position the arrows of the plate of the controlled capacitor 17 are disconnected, and the core of the controlled inductor 18 is inserted into its winding. As a result, the capacitance and inductance of the controlled capacitor 17 and inductor 18 take nominal values only when the arrows are in the plus and minus positions, respectively. The nominal values are selected from the condition that the resonant frequency of the oscillatory circuits is equal to the average frequency of the dynamic range of the signal frequency at the output of the generators 1 and 2, which is approximately equal to the self-excitation frequency f _{1 of the} generators 1.2. The resistor 8 provides a constant value of the quality factor of the oscillatory circuits at various lengths of the communication line 10. Frequency matching unit 3 contains two voltage converters connected by outputs to one 4 and another 5 monitoring relays, and by inputs through respectively one of the other threshold elements to outputs of one or the other controlled amplifiers, and four filters, the first and second of which are configured to self-excitation frequency f ₁ , and the third and fourth to the maximum frequency f _{2 of} generators 1 and 2. The inputs of the first - third and second - fourth filters are paired and form respectively one and the other input In the case of block 3 of coincidence of frequencies, the outputs of the first and second filters are connected to the inputs, and the outputs of the third and fourth filters through the corresponding rectifiers are connected to the control inputs of respectively one and the other controlled amplifiers. The frequency matching unit 3 provides the excitation of one of the control relays 4 and 5, depending on the position of the arrow, in the event that both generators 1 and 2 controlled by voltage operate at the corresponding frequencies f ₁ , f ₂ .

Claims (1)

 DEVICE FOR MONITORING THE POSITION OF THE RAILWAY ARROW, containing control rulers for communication with witticons, controlled voltage generators, one of which is connected to one of the wires of a two-wire communication line through one of the disconnect contacts of the neutral start relay with one of the wires of the two-wire communication line frequency coincidence, to the output terminals of which control relays are connected, and connected to the other input terminal of the frequency coincidence unit via another output terminal through one of the throttle d, parallel to which one of the voltage control units is connected, the NC switching contact of the polarized start relay, the resistor and the other neutral contact of the neutral starting relay is connected to the other wire of the two-wire communication line at its first end, and one output terminal of the first voltage control unit is connected to one of the input terminals of the first controlled voltage generator, the other output terminal is to the input terminal of one of the start generators, the output terminal of which is connected to another input the water of the first controlled voltage generator, one output terminal connected to the first NC contact of the neutral start relay and to the third input terminal of the frequency matching unit, the fourth input terminal of which is connected to another output terminal of the second controlled voltage generator, which is connected through one of the capacitors in parallel with the other the voltage control unit, the closing switching contact of the polarized start relay is connected to the aforementioned resistor, and one output terminal the second voltage control unit is connected to one input terminal of another trigger generator, the output terminal of which is connected to one of the input terminals of the second controlled voltage generator, the second input terminal of which is connected to the second output terminal of the second voltage control unit, and to the other end of the communication line the other inductor and capacitor are connected to one wire through the terminals, and to the other wire through the NC switching contact of the reversing relay - to the other capacitor through the other terminal, through the shorting the second switching contact of the reversing relay - the second inductor is another output, characterized in that the second capacitor and the inductor are made adjustable with movable brushes connected with the corresponding control rulers.

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