RU177852U1 - DEVICE FOR UNINTERRUPTED POWER SUPPLY OF THE CABINET OF THE TELEMECHANICS OF THE LINEAR PART OF THE MAIN OIL PIPELINE - Google Patents

Abstract

The utility model relates to the power supply of various objects, mainly responsible consumers, mainly to control the uninterrupted operation of the equipment of the linear part of the main oil pipeline. The uninterruptible power supply device for the telemechanics cabinet of the linear part of the main pipeline, consisting of a connected power source, a charge-discharge device, a battery pack, a communication rack with batteries, a group of switching contacts, a terminal connector, contains a converter connected to the communication rack, connected via the first relay to a power source, and through a second relay - with a charge-discharge device and a battery pack. In this case, the battery pack consists of at least two batteries. Thus, the device allows you to increase the reliability of the equipment of the linear part of the main oil pipeline, to increase control and prompt response in the event of a power outage, both due to unexpected circumstances and due to interference in the transportation process by third parties. 1 s.p. f-ly; 1 ill.

Description

The utility model relates to the power supply of various objects, mainly responsible consumers, mainly to control the uninterrupted operation of the equipment of the linear part of the main oil pipeline.

The well-known "Telemechanics control system for the main and interfield gas pipeline" (Patent RU 65175, F17D 5/02, 11.27.2015), containing a control panel, a communication channel and a block of instrumentation for measuring the current parameters of technological objects. Moreover, the system additionally contains actuators of stop valves and at least one controlled point, each of which includes: an information transmission unit connected to a central processor unit, including a processor connected in series, an analog signal input unit and discrete signal input / output unit, a module unit pairing of analog signals, a block of modules for pairing discrete signals and a block of relay modules. Each of the controlled points is connected by information communication through a communication channel with the control panel. The analog sensors of the instrumentation unit are connected to the unit of the analog signal interface modules, the output of which is connected to the analog signal input unit. The discrete sensors of the instrumentation unit are connected to the discrete signal interface module block, the output of which is connected to the discrete signal input / output module block, the output of which is connected to the input of the relay module block, which controls the actuators of the shutoff valves. The instrumentation unit of the telemechanics system includes instrumentation for measuring cathodic protection parameters, pressure, temperature, current and voltage potentials, emergency, fire and security alarms in the form of analog and discrete sensors. The number of monitored points of the telemechanics system is equal to the number of remote technological objects connected to the telemechanics system. A radio channel as well as wired communication lines were used as a communication channel in the system.

The disadvantages of this technical solution is the low reliability of monitoring and controlling the operation of linear nodes of shutoff valves due to the low level, and in some cases due to the absence, protection and coordination of the operation of elements, components, and telemechanics cabinet modules.

The “Uninterruptible Power Supply for the Consumer” is known (Patent RU 69342, H02J 9/06, 12/10/2007), including an uninterruptible power supply and an external bypass cabinet, containing the first and second disconnectors, the first, second and third switches, while the inputs of the first and the second circuit breaker, the outputs of the first and third circuit breakers are also connected, the input of the first disconnector is connected to an external electrical network, the output of the second disconnector is connected to the consumer, the output of the second switch is connected to the input of the uninterruptible source th power, the output of which is connected to the input of the third switch. The device further comprises first and second galvanic isolation blocks, first and second blocks of protection against powerful impulse noise, while the output of the first disconnector is connected to the input of the first galvanic isolation block, the output of which is connected to the inputs of the first and second switches, the output of the second switch is additionally connected to the input the first block of protection against powerful impulse noise, the output of which is grounded, the output of the uninterruptible power supply is additionally connected to the input of the second block of protection against powerful and pulsed interference, the output of which is grounded, the outputs of the first and third switches connected to the input of the second galvanic decoupling unit whose output is connected to the input of the second disconnector. The device may further comprise a voltage indication unit, the first input of which is connected to the input of the first disconnector, its second input is connected to the input of the uninterruptible power supply, its third input is connected to the output of the uninterruptible power supply, and its fourth input is connected to the output of the second disconnector. The reliability of the device is increased under the influence of powerful impulse noise, and the current indication of the voltage at the input and output of the device as a whole, as well as at the input and output of an uninterruptible power supply, is also provided.

The disadvantage of this device is the complexity of the circuit, in particular, a large number of elements with many connections, which reduces the reliability of the device.

The well-known “Cabinet of linear telemechanics” (Patent RU 157343, F17D 5/02, 11.27.2015), containing a programmable logic controller, to which the interface module is connected to instrumentation, the interface module with actuators, as well as at least one communication channel that provides continuous data exchange with a remote control center, into which an additional interface module with intrinsically safe circuits is introduced, with each interface module connected to a programmable logic controller galvanic separation of the block and comprises a protection device against surge arrester of the combined type comprising a varistor and the surge suppressor, wherein the cabinet is provided with at least one uninterruptible power supply, which is provided for monitoring its state. In addition, for each uninterruptible power supply, protection against surge surges and from over and under voltage at the input is installed, as well as a device for monitoring the insulation resistance of external power circuits, with status diagnostics.

The disadvantage of this device is the complexity of the circuit, which reduces the reliability of the device.

The task to which the claimed utility model is directed is to increase the reliability of the linear telemechanics cabinet (LTM) and, as a result, the linear nodes of the stop valves of oil and oil pipelines.

The technical result is an increase in reliability due to improved control and responsiveness in the event of a power outage.

The specified technical problem is solved, and the technical result is achieved due to the fact that the uninterruptible power supply of the telemechanics cabinet of the linear part of the main oil pipeline, consisting of a connected power supply, a charge-discharge device, a battery pack, a communication rack with batteries, a group of switching contacts, a terminal connector, contains a converter connected to the communication rack, connected through the first relay to the power source, and through the second relay from the charge-discharge device and battery pack.

In this case, the battery pack consists of at least two batteries

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

The device consists of a power source 1 (IP), a charge-discharge device 2 (ZRU), a battery pack 3 (AB), a communication stand 4 with batteries (battery), a group of switching contacts, respectively, 5, 6, 7, 8 , 9, terminal connector 10.

The device further comprises a converter 11, communication first 12 and second 13 relays.

The device operates uninterrupted power cabinet telemechanics linear part of the main pipeline as follows.

When the power supply is disconnected, the shield (not shown) of the linear telemetry LTM switches to backup power from the battery pack (installed in the shield of the LTM) 3 (AB) in the normal mode, while the first relay 12 is turned off and the contact groups 5, 6, 7, which give permission to use the supply voltage from the converter 11.

When the battery pack 3 is discharged from the charge-discharge device 2 (ZRU), the signal “batteries are discharged” is received, the second relay 13 is activated and closes the contacts 8, through which the voltage of the envelope 11 is supplied to the power of the LTM board. At the same time, contact 9 opens and block 3 is turned off to prevent a negative effect on the operation of the circuit. The group of contacts 6 is used for self-pickup of the second relay 13. When 220 V power is supplied, the first relay 12 is activated, while the group of contacts 5, 6, 7 opens, opening the self-pickup circuit. The second relay 13 is turned off and the LTM switchboard switches to the normal mode of power supply from the power source 1. The group of contacts 7 serves to exclude the influence of the signal “batteries are low” on the second relay 13 at the initial stage of charging the battery pack 3. Using at least two batteries in block 3 also increases the reliability of operation and increases the resource of uninterrupted operation in various modes.

It should be noted that:

- the power source 1 is a module designed to convert the voltage of the network 220 V, frequency 50 Hz into a constant voltage of 24 V;

- the charge-discharge device 2 is a module designed to provide guaranteed 24 V DC power supply, as well as to ensure the normal operation of the battery pack 3;

- Converter 11 represents a power module designed to convert a DC voltage of 48 V into a DC voltage of 24 V;

- in the battery pack 3 used batteries in the amount of 2 pcs. with a voltage of 12 V.

The use of the device at many sites unifies power supply equipment, which, ultimately, can lead to a decrease in the cost of equipment.

The claimed utility model through the implementation of its features ensures the achievement of important results:

- improving the reliability of the device and simplifying its maintenance, by reducing the number of paired units,

- the availability of guaranteed power supply of the device due to the implementation of the proposed connection diagram of the circuit elements,

- increased control and prompt response in the event of a power outage, both due to sudden circumstances, and due to interference in the transportation process by third parties.

Claims (2)

1. An uninterruptible power supply device for the telemechanics cabinet of the linear part of the main oil pipeline, consisting of a connected power source, a charge-discharge device, a battery pack, a communication rack with batteries, a group of switching contacts, a terminal connector, contains a converter connected to the communication rack, connected through the first a relay with a power source, and through a second relay with a charge-discharge device and a battery pack. 2. The device according to claim 1, characterized in that the battery pack consists of at least two batteries.

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