RU160782U1 - DEVICE OF SIMULATION AND LOCKING CABLE LINE CHARACTERISTICS - Google Patents

Abstract

A device for simulating the characteristics of a cable line for signaling and blocking, containing two resistors and two capacitors, characterized in that it additionally contains six resistors, two capacitors, eight switches, four auxiliary outputs and four inputs, each of which has two resistors connected in series connected by a switch , and each auxiliary connection point of the resistors is connected to its auxiliary output, and each of the four chains consists of series-connected cond sensor and switch, the first circuit connected to a common connection point of the first and second resistors and to the common connection point of the third and fourth resistors, the second chain connected to the common connection point of the fifth and sixth resistors and to the common connection point of the seventh and eighth resistors, the third chain connected to the other terminals of the second and sixth resistors, the fourth chain is connected to the other terminals of the eighth and fourth resistors.

Description

The utility model relates to the field of electrical engineering and is intended for the purposes of testing the equipment of railway automation and telemechanics for operability and safe functioning.

The closest technical solution is a simulator of the regeneration section of the wire line (SU 1127099, H04B 3/40, publ. 11/30/1984), containing the first four-terminal device simulating a transient effect at the near end of the wire line, and series-connected second two-terminal device simulating the transmission of the wire line, and a balancing unit, the input of which is connected to the output of the first four-terminal, simulating a transient effect at the proximal end of the wire line, the first four-terminal, simulating a transient effect at the proximal This wire contains an extension cord and a series-connected first resistor, a first capacitor, a second resistor and a second capacitor, the second terminal of which is connected to a common bus, n consecutive LRC circuits, some of which are connected to the combined terminals of the first resistor and the first capacitor, and other conclusions connected to the common bus, the combined output of the first capacitor and the second resistor is connected to the first input of the extension cord, the second input of which is connected to the common bus, and the output is connected to the input symmetrically its block, the free output of the first resistor is the input of the first quadrupole simulating transient effects on the proximal end of a wireline.

The disadvantage of this device is the low reliability of the simulation, because does not reflect in its properties the distributed parameters of the cable line signaling and blocking.

The objective of the utility model is to increase the reliability of the simulation when testing equipment of railway automation and telemechanics for operability and safety by creating the equivalent of a cable signaling line and blocking with operational characteristics.

The technical result is achieved in that a device for simulating the characteristics of a cable line for signaling and blocking, containing two resistors and two capacitors, additionally contains six resistors, two capacitors, eight switches, four auxiliary outputs and four inputs, each of which is connected to two series-connected resistors, shunted by a switch, and each auxiliary connection point of the resistors is connected to its auxiliary output, and each of the four chains consists of a series of connected capacitor and switch, the first circuit connected to the common connection point of the first and second resistors and to the common connection point of the third and fourth resistors, the second circuit connected to the common connection point of the fifth and sixth resistors and to the common connection point of the seventh and eighth resistors, the third the chain is connected to the other terminals of the second and sixth resistors, the fourth chain is connected to the other terminals of the eighth and fourth resistors.

The essence of the utility model is illustrated in the drawing, which shows a structural diagram of the inventive device.

The inventive device for simulating the characteristics of the cable line alarm and lock contains the first 1, second 2, third 3, fourth 4, fifth 5, sixth 6, seventh 7, eighth 8 resistors, the first 9, second 10, third 11, fourth 12 capacitors and the first 13 , second 14, third 15, fourth 16, fifth 17, sixth 18, seventh 19, eighth 20 switches, as well as auxiliary outputs 23.1, 23.2, 23.3, 23.4.

The device simulating the characteristics of a cable line alarm and blocking has the following connections.

Between the first input 21.1 and the first output 22.1, the first 1 and second 2 resistors connected by the first 13 switch are connected in series, between the second input 21.2 and the second output 22.2 the third 3 and fourth 4 resistors connected by the second switch 14 are connected in series, between the third input 21.3 and the third the output 5 is connected in series with the fifth 5 and sixth 6 resistors, shunted by the third switch 15, between the fourth input 21.4 and the fourth output 22.4 are connected in series with the seventh 7 and eighth 8 resistors, shunted e by the fourth switch 16. The first terminal of the first capacitor 9 is connected to the second terminal of the first resistor 1, and the second terminal of the first capacitor 9 is connected to the first terminal of the fifth switch 17, the second terminal of which is connected to the second terminal of the third resistor 3. The first terminal of the second capacitor 10 is connected to the second terminal of the fifth resistor 5, and the second terminal of the second capacitor 10 is connected to the first terminal of the sixth switch 18, the second terminal of which is connected to the second terminal of the seventh resistor 7. To the first output 22.1 device the first output of the third capacitor 11 is connected, the second output of which is connected to the first output of the seventh switch 19, the second output of which is connected to the third output of the device 22.3, and the second output of the eighth switch 20 is connected to the second output of the device 22.2, the second output of which is connected to the first output of the fourth capacitor 12, the second output of which is connected to the fourth output 22.4 of the device. Auxiliary conclusions 23.1, 23.2, 23.3, 23.4 are connected to the second conclusions of the resistors 1, 3, 5, 7, respectively.

A device simulating the characteristics of a cable line alarm and blocking works as follows.

A device for simulating the characteristics of a cable line for signaling and blocking is connected to the gap between a device for controlling a traffic light signal and a load - traffic light. The first 21.1 and second 21.2 inputs of a device for simulating the characteristics of a cable line for signaling and blocking are supplied with an operating voltage for switching on a traffic light connected to the first 22.1 and second 22.2 outputs.

The resistances of the first 1 and second 2 resistors in total are the equivalent of the distributed resistance of one core, and the resistance of the third 3 and fourth 4 resistors - of the other cable core, of limited length. The capacitance of the first capacitor 9 is the equivalent of the capacitance between both cores belonging to one twisted pair of cable cores. Such a connection of the first capacitor 9 between the first 1 and second 2 resistors allows you to evenly distribute the circuit parameters and limit the amplitude of electromagnetic waves during switching processes, and thereby gives the property of a real cable signaling and blocking line.

A similar purpose for the circuit between inputs 21.3 and 21.4 and outputs 22.3 and 22.4. It is the equivalent for controlling a second traffic light. Moreover, the capacitances of the third 11 and fourth 12 capacitors are the equivalent of capacitances between the cores belonging to different pairs of cable cores.

The control of both traffic lights makes it possible to test equipment with the mutual influence of electrical circuits on each other.

Switches 13-20 are used to create circuits with a purely active and purely reactive component of the cable resistance under various load test modes.

Auxiliary conclusions 23.1, 23.2, 23.3, 23.4 allow you to connect measuring and testing equipment for measurements, simulating the message of cable conductors, etc.

By connecting several devices to simulate the characteristics of the cable line signaling and blocking in series, it is possible to carry out checks for different lengths of the cable line, thereby simulating control circuits for traffic lights located at different distances from the control equipment.

As the load, any outdoor electrical equipment of railway automation and telemechanics can be used.

The operating current of the load is determined not only by the load itself, but also by a circuit with distributed parameters, which contains the parameters of the cable signaling and blocking lines, due to which during the tests conditions are created that do not differ from the operational ones.

Thus, a device for simulating the characteristics of a cable line for signaling and blocking can increase the reliability of a simulation when testing equipment of railway automation and telemechanics for operability and safety of operation by creating an equivalent of a cable communication line with operational characteristics.

Claims (1)

A device for simulating the characteristics of a cable line for signaling and blocking, containing two resistors and two capacitors, characterized in that it additionally contains six resistors, two capacitors, eight switches, four auxiliary outputs and four inputs, each of which has two resistors connected in series connected by a switch , and each auxiliary connection point of the resistors is connected to its auxiliary output, and each of the four chains consists of series-connected cond sensor and switch, the first circuit connected to a common connection point of the first and second resistors and to the common connection point of the third and fourth resistors, the second chain connected to the common connection point of the fifth and sixth resistors and to the common connection point of the seventh and eighth resistors, the third chain connected to the other terminals of the second and sixth resistors, the fourth chain is connected to the other terminals of the eighth and fourth resistors.

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