RU225608U1 - Control and monitoring cabinet for relay-processor centralization - Google Patents

Abstract

The utility model relates to railway automation and telemechanics devices and is intended for monitoring the technical condition of electrical interlocking devices, controlling electrical interlocking devices and automating the process of train traffic control, mainly on low-intensity railway lines and industrial railway transport and contains a combined automated workplace for the duty officer stations and electromechanics, switches of the main and backup sets, controllers of the main and backup sets, interface converters of the main and backup sets, power supplies of the main and backup sets, interface units with telecontrol objects of the main and backup sets, interface units with telesignaling objects of the main and backup sets, telemetry unit, signal normalization unit, interface line amplifier, group relay circuit for switching sets. The technical result consists in simplifying the design of the control and monitoring cabinet for relay-processor centralization, expanding its functionality and reducing the occupied space of the room (transportable module). 2 ill.

Description

The utility model relates to railway automation and telemechanics devices and is intended for monitoring the technical condition of electrical interlocking devices, controlling electrical interlocking devices and automating the process of train traffic control, mainly on low-intensity railway lines and industrial railway transport.

A known control and monitoring cabinet for electrical centralization is included in the control computer complex of shunting automatic locomotive signaling (RU 2419123, G05B 15/02, B61L 27/04, publ. 05/20/2011), containing a multiprocessor computer system installed in a single frame with a terminal in consisting of a monitor and keyboard, network switches that implement the internal local network of the system, a modem pool with built-in modems and power supplies that implement the connection of the control computer complex with the shunting automatic locomotive signaling subsystems and subscribers, power splitters, satellite navigation receivers, terminal boards intended for ensuring communication with satellite navigation receivers and a multiprocessor computer system, and a station comparison device, central processor controllers with a rear I/O card, a database controller with a rear I/O card, power supplies, multiport units with rear I/O cards, a gateway intersystem with a rear input/output board, a satellite navigation controller with a rear input/output board, designed to receive information from satellite navigation receivers and transmit them to the central processor controllers, and a station comparison device is designed to compare information coming from the central processor controllers , and generating a control command for transmission via radio channel to the shunting locomotive.

The disadvantages of the known control and monitoring cabinet for electrical centralization are the complexity of the design and its limited functionality. The known control and monitoring cabinet is not intended for the implementation of train routes and built-in computer means does not ensure the functioning of the railway station in backup control mode in the event of a complete or partial disruption of the dispatch control.

A known control and monitoring cabinet for electrical centralization, which is part of a complex of technical means for dispatch centralization (RU 106873, B61L 27/00, published on July 27, 2011), contains a control point with an automated train dispatcher workstation, interconnected by a local computer network, and distributed controlled points, each of which contains a redundant block of a controlled point, intended for interaction via communication channels of this distributed controlled point with other distributed controlled points and with a control point, while the redundant block of the controlled point of each distributed controlled point consists of a main set, a backup set and redundancy schemes, distributed controlled points are additionally equipped with redundant coordination and matching devices connected by serial interfaces to electrical microprocessor centralizations.

The disadvantages of the known control and monitoring cabinet for electrical centralization are the complexity of the design and its limited functionality. The known control and monitoring cabinet with built-in computer means does not ensure the functioning of the railway station in backup control mode in the event of a complete or partial disruption of the dispatch control.

The closest technical solution in terms of the set of features to the claimed utility model is a control and monitoring cabinet for relay-processor centralization (Complex of technical means of management and control / A.B. Nikitin, S.V. Rakcheev, M.V. Sidorov, M.G. Maksimov // Automation, communications, computer science. - 2007. - No. 2. - P. 7-12), containing controllers of the main and backup sets, switches of the main and backup sets, power supplies of the main and backup sets, interface converters of the main and backup sets. , telecontrol boards of the main and backup sets, telesignaling boards of the main and backup sets, telemetering device, signal normalization device, interface line amplifier, group relay circuit for switching sets, while the first inputs and outputs of the controllers of the main and backup sets are connected to the first inputs and outputs of the converters the main and backup sets, respectively, the second inputs and outputs of the controllers of the main and backup sets are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively, the third inputs and outputs of the controllers of the main and backup sets are connected to the front contacts of the first and second tee of the group relay, respectively, the fourth inputs and outputs of the controllers of the main and backup sets are connected to the rear contacts of the second and first tee of the group relay, respectively, while the common contacts of the second and first group relays are intended for connection to dispatch control and dispatch centralization devices, respectively, the fifth inputs and outputs of the main and backup controllers sets are connected to the first inputs and outputs of the switches of the main and backup sets, respectively, while the second inputs and outputs of the switches of the main and backup sets are intended for connection to the automated workstations of the main and backup sets of the station duty officer and the automated workstation of the electrician, the third inputs and outputs of the switches the main and backup sets are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively, and the fourth inputs and outputs of the switches of the main and backup sets are connected to each other, the second inputs and outputs of the converters of the main and backup sets are connected to the second inputs and outputs of the main power supplies and backup sets, respectively, and the third inputs-outputs of the converters of the main and backup sets are connected to the rear and front contacts of the third tee of the group relay, respectively, the first inputs-outputs of the power supplies of the main and backup sets are connected to external power supply devices, the third inputs-outputs of the main power supplies and backup sets are connected to the rear and front contact of the fourth tee of the group relay, respectively, while the common contact of the third tee of the group relay is connected to the second inputs and outputs of the telecontrol boards of the main and backup sets, telesignaling boards of the main and backup sets, telemetering device and interface line amplifier, and the common contact of the fourth tee of the group relay is connected to the first input-output of the telecontrol boards of the main and backup sets, the tele-alarm boards of the main and backup set, the telemetering device and the interface line amplifier, the third input-output of the telecontrol boards of the main set is connected to the first input-output of the group circuit relay for switching sets, the third input-output of the telecontrol boards of the backup set is connected to the third input-output of the circuit of group switching relays of sets, the third input-output of the telesignaling boards of the main and backup sets is connected to the second input-output of the circuit of group switching relays of sets, third input-output telemeasurement device is connected to the first input-output of the signal normalization device, while the second input-output of the signal normalization device is intended for connection to power supply panels, the third input-output of the interface line amplifier is intended for connection to peripheral devices of electrical centralization, the fourth input-output of telecontrol boards The main and backup sets are designed for connection to control objects, the fourth inputs and outputs of the telesignaling boards of the main and backup sets are intended for connection to control objects.

The disadvantages of the known control and monitoring cabinet for relay-processor centralization are the complexity of the design and its limited functionality. The known control and monitoring cabinet for relay-processor centralization with built-in computer tools does not ensure the functioning of a railway station in backup control mode in the event of a complete or partial disruption of the dispatch control, which requires additionally connecting external automated workstations of the main and backup sets of the station attendant and an automated workstation electromechanics, which leads to an increase in the occupied space of the room (transportable module).

The objective of the claimed utility model is to simplify the design and expand the functionality of the control and monitoring cabinet of relay-processor centralization by implementing a backup control mode in case of complete or partial disruption of the dispatch control without the use of external automated workstations of the main and backup sets of the station duty officer and an automated workstation electromechanics.

The technical result is achieved by the fact that the control and monitoring cabinet of relay-processor centralization, containing controllers of the main and backup sets, switches of the main and backup sets, power supplies of the main and backup sets, interface converters of the main and backup sets, interface units with telecontrol objects of the main and backup sets, interface units with telesignaling objects of the main and backup sets, a telemetry unit, a signal normalization unit, an interface line amplifier, a circuit of group switching relays for sets, while the first inputs and outputs of the controllers of the main and backup sets are connected to the first inputs and outputs of the main and backup converters sets, respectively, the second inputs and outputs of the controllers of the main and backup sets are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively, the third inputs and outputs of the controllers of the main and backup sets are connected to the front contacts of the first and second tee of the group relay, respectively, the fourth inputs are the outputs of the controllers of the main and backup sets are connected to the rear contacts of the second and first tee of the group relay, respectively, while the common contacts of the second and first group relay are intended for connection to dispatch control and dispatch centralization devices, respectively, the fifth inputs and outputs of the controllers of the main and backup sets are connected to the first inputs and outputs of the switches of the main and backup sets, respectively, the third inputs and outputs of the switches of the main and backup sets are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively, and the fourth inputs and outputs of the switches of the main and backup sets are connected to each other, the second inputs - the outputs of the converters of the main and backup sets are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively, and the third inputs and outputs of the converters of the main and backup sets are connected to the rear and front contacts of the third tee of the group relay, respectively, the first inputs and outputs of the main power supplies and backup sets are connected to external power supply devices, the third inputs and outputs of the power supplies of the main and backup sets are connected to the rear and front contacts of the fourth tee of the group relay, respectively, while the common contact of the third tee of the group relay is connected to the second inputs and outputs of the interface blocks with telecontrol objects main and backup sets, interface units with telesignaling objects of the main and backup sets, telemeasurement unit and interface line amplifier, and the common contact of the fourth tee of the group relay is connected to the first inputs and outputs of the interface units with telecontrol objects of the main and backup sets, interface units with telesignaling objects main and backup sets, telemetry unit and interface line amplifier, the third input-output of the interface blocks with telecontrol objects of the main set is connected to the first input-output of the group switching relay circuit of the sets, the third input-output of the interface blocks with telecontrol objects of the backup set is connected to the third input - the output of the circuit of group relays for switching sets, the third input-output of the interfacing blocks with telesignaling objects of the main and backup sets are connected to the second input-output of the circuit of group relays for switching sets, the third input-output of the telemeasurement block is connected to the first input-output of the signal normalization block, when In this case, the second input-output of the signal normalization unit is intended for connection to power supply panels, the third input-output of the interface line amplifier is intended for connection to peripheral devices of electrical centralization, the fourth input-output of the blocks for interface with telecontrol objects of the main and backup sets are intended for connection to control objects , the fourth inputs-outputs of the interface blocks with telesignaling objects of the main and backup sets are intended for connection to control objects, additionally contains a combined automated workstation of the station duty officer and an electrician, the first and second inputs-outputs of which are connected to the second inputs-outputs of the main and backup power supplies sets, respectively, while the third and fourth inputs and outputs of the combined automated workstation of the station duty officer and the electrician are connected to the second inputs and outputs of the switches of the main and backup sets, respectively.

The essence of the utility model is illustrated by drawings, where in Fig. 1 shows a block diagram of a control and monitoring cabinet for relay-processor centralization, and FIG. Figure 2 shows a general view of the control and monitoring cabinet for relay-processor centralization.

The inventive control and monitoring cabinet for relay-processor centralization contains a combined automated workstation of 1 station duty officer and an electromechanic automated workplace DSP (SHN), switches of the main 2 and backup 3 sets, controllers of the main 4 and backup 5 sets, interface converters of the main 6 and backup 7 sets , IP power supplies of the main 8 and backup 9 sets, interface units with telecontrol objects of the main 10 and backup 11 sets, interface units with telesignaling objects of the main 12 and backup 13 sets, telemetering unit 14, signal normalization unit 15, interface line amplifier 16, circuit group relays GRU switching sets 17.

The automated workstation of 1 station duty officer and electromechanic workstation DSP (SHN) is implemented on the basis of a panel touch computer with appropriate software, a microphone and a loudspeaker and is designed to display information about the current state of control and monitoring objects, the train situation at the station, as well as for input control commands into the relay-processor system for centralizing arrows and signals.

The switches of the main 2 and backup 3 sets are designed to organize data exchange between the controllers of the main 4 and backup 5 sets and the automated workplace DSP (SHN) 1 via a local area network, operating in the standard Ethernet protocol. Switches are connected to devices via standard RJ connectors. The switches are connected to each other by a cable with inverse wiring.

The controllers of the main 4 and backup 5 sets are designed to process commands coming from the automated workplace DSP (SHN) 1 via a local computer network, issuing control actions and polling peripheral equipment. The controllers consist of an industrial case with an expansion card installed in it, a single-board industrial computer motherboard and a sound card.

The interface converters of the main 6 and backup 7 sets provide coordination of the output signal level from the motherboards of controllers 4, 5 with peripheral equipment. The converters are connected to controllers 4 and 5 using a three-wire modem cable. Configuration for a specific port is done programmatically.

IP power supplies of the main 8 and backup 9 sets provide the formation of the necessary stabilized voltages to power the equipment of each of the sets.

The interface units with telecontrol objects of the main 10 and backup 11 sets are designed to connect external control objects to controllers 4, 5 and organize galvanic isolation between the power supply of controllers 4, 5 and the power supply of control objects.

Interface blocks with telesignaling objects of the main 12 and backup 13 sets provide information on the state of two-position electrical centralization objects. The contacts of the controlled objects are connected to the inputs of the electronic circuit with optocoupler galvanic isolation of the power circuits of controllers 4, 5 and the electrical centralization station.

The telemeasurement unit 14 and the signal normalization unit 15 are intended for measuring analog quantities. As standard, the voltage of the power feeders, switch current and station battery voltage are measured.

The interface line amplifier 16 provides communication with remote peripheral monitoring objects of the electrical centralization system.

The circuit of group relays GRU switching sets 17 is designed to connect the power buses (poles) of electrical centralization devices to the corresponding switching elements of the interface blocks with control objects of the active (main) set and disconnect them on the interface blocks with control objects of the passive (backup) set. The activity of the set is determined by the state of the relay circuit for switching sets: the off state of the GRU relay and its repeaters is the main set, the on state of the GRU relay and its repeaters is active - the backup set is active. “Hot” equipment backup provides the ability to switch sets without interrupting the functioning of electrical centralization devices such as in automatic and manual modes.

The control and monitoring cabinet for relay-processor centralization has the following connections.

The first inputs and outputs of the controllers of the main 4 and backup 5 sets are connected to the first inputs and outputs of the converters of the main 6 and backup 7 sets, respectively, the second inputs and outputs of the controllers of the main 4 and backup 5 sets are connected to the second inputs and outputs of the power supplies of the main 8 and backup 9 sets, respectively, the third inputs and outputs of the controllers of the main 4 and backup 5 sets are connected to the front contacts of the first and second tee of the group relay, respectively, the fourth inputs and outputs of the controllers of the main 4 and backup 5 sets are connected to the rear contacts of the second and first tee of the group relay, respectively, with In this case, the common contacts of the second and first group relays are intended for connection to dispatch control and dispatch centralization devices, respectively, the fifth inputs and outputs of the controllers of the main 4 and backup 5 sets are connected to the first inputs and outputs of the switches of the main 2 and backup 3 sets, respectively, the third inputs and outputs The switches of the main 2 and backup 3 sets are connected to the second inputs and outputs of the power supplies of the main 8 and backup 9 sets, respectively, and the fourth inputs and outputs of the switches of the main 2 and backup 3 sets are connected to each other, the second inputs and outputs of the converters of the main 6 and backup 7 sets connected to the second inputs and outputs of the power supplies of the main 8 and backup 9 sets, respectively, and the third inputs and outputs of the converters of the main 6 and backup 7 sets are connected to the rear and front contact of the third tee of the group relay, respectively, the first inputs and outputs of the main 8 and backup power supplies 9 sets are connected to external power supply devices, the third inputs and outputs of the power supplies of the main 8 and backup 9 sets are connected to the rear and front contacts of the fourth tee of the group relay, respectively, while the common contact of the third tee of the group relay is connected to the second inputs and outputs of the object interface blocks telecontrol of the main 10 and reserve 11 sets, interface units with telesignaling objects 12 of the main and reserve 13 sets, telemetering unit 14 and interface line amplifier 16, and the common contact of the fourth tee of the group relay is connected to the first inputs and outputs of the interface units with telecontrol objects of the main 10 and reserve 11 sets, interface units with telesignaling objects 12 main and backup 13 sets, telemetering unit 14 and interface line amplifier 16, the third input-output unit of interface with telecontrol objects of the main set 10 is connected to the first input-output of the group switching relay circuit of sets 17, the third input-output of the remote control unit of the backup set 11 is connected to the third input-output of the group switching relay circuit of sets 17, the third input-output of the interface blocks with telesignaling objects of the main 12 and backup 13 sets are connected to the second input-output of the group switching relay circuit of sets 17, the third input-output of the telemeasurement unit 14 is connected to the first input-output of the signal normalization unit 15, while the second input-output of the signal normalization unit 15 is intended for connection to power supply panels, the third input-output of the interface line amplifier 16 is intended for connection to electrical peripheral devices centralization, the fourth inputs and outputs of the interface blocks with telecontrol objects of the main 10 and backup 11 sets are intended for connection to control objects, the fourth inputs and outputs of the interface blocks with telesignaling objects of the main 12 and backup 13 sets are intended for connection to control objects, combined automated workstation station duty officer and electromechanical workstation DSP (SHN) 1 the first and second inputs and outputs of which are connected to the second inputs and outputs of the power supplies of the main 8 and backup 9 sets, respectively, while the third and fourth inputs and outputs of the combined automated workstation of the station duty officer and electromechanics AWP DSP (SHN) 1 are connected to the second inputs and outputs of the switches of the main 2 and backup 3 sets, respectively.

Structurally, the control and monitoring cabinet for relay-processor centralization is an electrical cabinet, the dimensions of which allow it to be placed in the relay room in the same row as standard cabinets. The front and rear walls of the cabinet are doors that allow access to the equipment located inside, and on the front door there are controls and controls installed - toggle switches and fusible links for power circuits, control indicator lamps, a panel touch computer with a microphone and a loudspeaker.

The equipment of the control and monitoring cabinet of relay-processor centralization has 100% reserve and consists of two parallel and independently functioning sets - the “main” and the “backup”, included in the local computer network.

The inventive control and monitoring cabinet for relay-processor centralization in the main operating mode implements standard algorithms for centralizing arrows and signals, that is, setting, canceling, closing, automatically opening routes, individually switching arrows, displaying the state of control and monitoring objects via automated workplace DSP (SHN) 1 In this case, the determination of the type, direction of the route, the translation of the arrows in accordance with the established route is ensured by the cabinet equipment, and the safety of the system is ensured by the relays of the executive group of the electrical centralization system operating at the station.

The software of the controllers of the main 4 and backup 5 sets consists of an executable module and databases: telesignaling and telecontrol objects (location addresses in the contact occupancy table, connection addresses to interface blocks, type of controlled signal); routes (type of route - train or shunting; name of the starting and ending points of the route; required position of the arrows along the route; relays of the electrical centralization executive group that are switched on related to this route). The main functions of the software are: obtaining information about the state of controlled objects from interface blocks; processing information about controlled objects and generating messages for transmission over a local computer network to the automated workplace DSP (SHN) 1; reception and decoding of control commands from automated workplace DSP (SHN) 1; formation and implementation of the required control actions in accordance with the accepted command; receiving and implementing responsible management commands; obtaining measured values of analog signals; processing information about measurements and generating messages for transmission over a local computer network to the automated workplace DSP (SHN) 1; diagnostics of the performance of a paired set of control cabinet equipment.

The control and monitoring cabinet for relay-processor centralization operates in two modes: “main” and “auxiliary”. In the “main” mode (“backup” for dispatch control), the functions of monitoring the state of station devices and controlling objects (switches, traffic lights, etc.) are implemented, ensuring traffic safety using traditional circuit solutions of electrical interlocking relay systems. In the “auxiliary” mode, you can control automation objects when their normal functioning is disrupted. This applies to the use of invitation signals, auxiliary switches, emergency changes of direction on a single-track section, artificial opening of route sections, and auxiliary crossing opening mode.

Taking into account the fact that the use of the listed responsible commands is associated with the partial or complete removal of blocking dependencies to ensure safety conditions, the following principles of user interface construction are implemented in the automated workplace DSP (SHN) 1, excluding the accidental transmission of responsible commands: through the nested system menu; sending two commands (preparatory and working) in a certain time interval with “acknowledgment” of the passage of the preparatory command.

The combined workstation DSP (SHN) 1 can be in both the station duty mode and the electromechanical mode for carrying out diagnostic work. Switching is performed with the permission of the station duty officer by activating the corresponding window (tab) on the mimic diagram of the touch monitor.

Thus, the introduction into the control and monitoring cabinet of relay-processor centralization of a combined automated workstation of the station duty officer and an electromechanic simplifies the design, allows the operation of the railway station in backup control mode in case of complete or partial disruption of the dispatch control, reduces the occupied area of the premises (transportable module), and also reduces the cost of the train traffic control system as a whole due to the abandonment of stationary (external) automated workstations for the station attendant and the electrician.

Claims (1)

Control and monitoring cabinet for relay-processor centralization, containing controllers of the main and backup sets, switches of the main and backup sets, power supplies of the main and backup sets, interface converters of the main and backup sets, interface units with telecontrol objects of the main and backup sets, interface units with objects telesignaling of the main and backup sets, a telemetering unit, a signal normalization unit, an interface line amplifier, a group relay circuit for switching sets, while the first inputs and outputs of the controllers of the main and backup sets are connected to the first inputs and outputs of the converters of the main and backup sets, respectively, the second inputs - the outputs of the controllers of the main and backup sets are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively, the third inputs and outputs of the controllers of the main and backup sets are connected to the front contacts of the first and second tee of the group relay, respectively, the fourth inputs and outputs of the controllers of the main and backup sets connected to the rear contacts of the second and first tee of the group relay, respectively, while the common contacts of the second and first group relay are intended for connection to dispatch control and dispatch centralization devices, respectively, the fifth inputs and outputs of the controllers of the main and backup sets are connected to the first inputs and outputs of the main switches and backup sets, respectively, the third inputs and outputs of the switches of the main and backup sets are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively, and the fourth inputs and outputs of the switches of the main and backup sets are connected to each other, the second inputs and outputs of the converters of the main and backup sets sets are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively, and the third inputs and outputs of the converters of the main and backup sets are connected to the rear and front contacts of the third tee of the group relay, respectively, the first inputs and outputs of the power supplies of the main and backup sets are connected to external power supply devices, the third inputs and outputs of the power supplies of the main and backup sets are connected to the rear and front contacts of the fourth tee of the group relay, respectively, while the common contact of the third tee of the group relay is connected to the second inputs and outputs of the interface blocks with telecontrol objects of the main and backup sets and blocks interfacing with telesignaling objects of the main and backup sets, a telemeasurement unit and an interface line amplifier, and the common contact of the fourth tee of the group relay is connected to the first inputs and outputs of the interfacing blocks with telecontrol objects of the main and backup sets, interfacing blocks with telesignaling objects of the main and backup sets, block telemetry and interface line amplifier, the third input-output of the interface blocks with telecontrol objects of the main set is connected to the first input-output of the group switching relay circuit of the sets, the third input-output of the interface blocks with telecontrol objects of the backup set is connected to the third input-output of the group switching relay circuit sets, the third input-output blocks of interface with telesignaling objects of the main and backup sets are connected to the second input-output of the circuit of group switching relays of sets, the third input-output of the telemeasurement block is connected to the first input-output of the signal normalization block, while the second input-output of the block signal normalization is intended for connection to power supply panels, the third input-output of the interface line amplifier is intended for connection to peripheral devices of electrical centralization, the fourth input-output blocks of interfaces with telecontrol objects of the main and backup sets are intended for connection to control objects, the fourth input-output blocks interfaces with telesignaling objects of the main and backup sets are designed for connection to control objects, characterized in that it additionally contains a combined automated workstation of the station duty officer and an electrician, the first and second inputs and outputs of which are connected to the second inputs and outputs of the power supplies of the main and backup sets, respectively , while the third and fourth inputs and outputs of the combined automated workstation of the station duty officer and the electrician are connected to the second inputs and outputs of the switches of the main and backup sets, respectively.