RU145696U1 - PRODUCT CONTROL ITEM - Google Patents

Abstract

1. The control point of the telemechanics of the product pipeline, including a power supply system from renewable energy sources, which includes a wind generator, a solar battery and an electric generator that generate a constant voltage supply, and a building buried in the ground with a battery unit and an electronics unit with an electronics module, a measuring and computing controller, and the communication module of the measuring and computing controller with the control room, characterized in that the battery pack provides constant pressure voltage supply 22-52 V, the electronics unit includes a module for converting a constant voltage supply voltage 22-52 V to an alternating single-phase voltage supply 220 V, a module for converting a voltage supply voltage 22-52 V to an alternating three-phase voltage supply 380 V, a communication unit with technical means of monitoring and control unit with alternating single-phase supply voltage 220 V, communication unit with technical means for monitoring and control with alternating three-phase supply voltage 380 V, unit for communication with technical means with constant supply voltage 22-52 B.2. The control point of the telemechanics of the product pipeline according to claim 1, characterized in that an optical communication unit is installed in the communication module of the measuring and computing controller with the control room, and the electronics unit is connected to the control room by means of a fiber optic cable. The control point of the telemechanics of the product pipeline according to claim 1, characterized in that in the communication module of the measuring and computing controller with the control center, an optical communication unit and a radio communication unit with an antenna are installed, and the electronic unit is connected

Description

This utility model relates to the oil and gas industry and can be used for remote automated monitoring and real-time control of equipment for gas, oil, gas condensate and other wells, well clusters, gas treatment plants and gas condensate products, gas collection networks and product pipelines.

A known system of linear telemechanics (SLTM) with power supply from renewable energy sources (wind generator, solar module, power module), including at least one basic controlled point (control room), one or more controlled points, objects of control and control are linear cranes on crane platforms, a cathodic protection system, a system for detecting leaks of a transported medium, a system for monitoring the passage of cleaning and diagnostics, a set of instrumentation and automation equipment, a switching device, a system ONITORING wind load, wherein the power module is formed as a part of a lifting trestle service metalwork and placed in a submerged soil pit (www.npovympel.ru NPO "pennant". Products. remotely controlled linear system. The main components SLTM) [1].

The disadvantages of this system are the low constant supply voltage (22-30 V) produced by power supply sources that does not allow the use of devices with alternating supply voltages 220 V and 380 V (actuators of shut-off ball valves and other technical means), low radio transmission capacity, limiting the possibility of application of additional functions (for example, video surveillance, IP-telephony, remote configuration of devices), low noise immunity of communication.

Known information management system of the oil, condensate or product pipeline, containing a control center, N controlled points located along the oil, condensate or product pipeline and including a controller that controls the operation of each of the subsystems of the controlled point located along the product pipeline - detection system leaks, a control system for cleaning agents, a cathodic protection system, at least one, an electrohydraulic drive of the valves of the product pipeline shutoff valves, transceiver a construction and an antenna-feeder device for providing radio communication with a control room, located in the wells buried in the ground, sensors of the parameters of the subsystem of the controlled site and the parameters of the pumped medium, at least one electro-hydraulic drive of the valves, the power supply system, including autonomous power sources - a solar panel, a wind generator, a battery pack, as well as a cathodic protection system and a burglar alarm system, (RU patent for utility model No. 92935, IPC F17D 5/02, publ. 04/10/2010) [2], (prototype device).

The disadvantage of this system is that the supply voltage generated by autonomous power sources requires the use of special technical means (for example, actuators for shutoff and control valves, subsystems of a controlled item) with a constant supply voltage of 22-30 V, which limits the use of technical means with a constant supply voltage in the control system, does not allow the use in the system of commercially available technical means with an alternating supply voltage of 220 V or and 380 V, increases the cost of the system, low bandwidth radio communication limits the possibility of using additional functions (for example, video surveillance, IP-telephony, remote configuration of devices).

The technical result of this utility model is the expansion of the functionality of the telemechanics control center of the product pipeline, which consists in converting the DC voltage 22-52 V generated by the power supply sources into alternating single-phase supply voltage 220 V and into alternating three-phase supply voltage 380 V, increasing the stability of operation, increasing reliability and throughput of the connection when connecting the electronics module to the control room with a fiber optic cable, in short ii the cost of manufacturing and management telemechanics product pipeline.

The technical problem underlying this utility model, with the achievement of the claimed technical result, is solved by the fact that in the telemechanics control center of the product pipeline, which includes a power supply system from renewable energy sources - a wind generator, a solar battery and an electric generator generating a constant supply voltage, and buried in the ground a building with a battery pack and an electronics box with an electronics module, a measurement and computing controller and a communication module an intelligence controller with a control room in which the battery pack provides a constant supply voltage of 22-52 V, the electronics unit includes a converter module for a constant voltage supply of 22-52 V to an alternating single-phase supply voltage of 220 V, a module for a converter of a constant voltage supply of 22-52 V to AC three-phase supply voltage 380 V, communication unit with technical means of monitoring and control with alternating single-phase supply voltage 220 V, communication unit with technical means of monitoring and control I have an alternating three-phase supply voltage of 380 V, a communication unit with technical means with a constant supply voltage of 22-52 V.

In addition, the technical problem is solved by the fact that an optical communication unit is installed in the communication module of the measuring and computing controller with the control room, and the electronics block is connected to the control room by means of a fiber optic cable, and also by the fact that the communication module of the measuring and computing controller and the control room the item has an optical communication unit and a radio communication unit with an antenna, and the electronics unit is connected to the control room by means of a fiber optic cable and channels radio communications.

The essence of the utility model is that, unlike the prototype, the modules of the converters of the telemechanics control center of the product pipeline, the modules of converters of constant voltage 22-52 V to alternating single-phase voltage 220 V and three-phase alternating voltage 380 V allow using on the product pipeline technical equipment with an alternating single-phase supply voltage of 220 V and with an alternating three-phase supply voltage of 380 V, which extends the functionality of the control point t lemehanikoy product pipeline. Installing an optical communication unit and communicating with the control center via a fiber-optic cable increases the reliability of communication and also increases the transmission channel throughput, which expands the range of devices and functions used as part of the controlled center (for example, video surveillance, IP-telephony, remote configuration of devices, etc.) .d.). The installation of a radio communication unit with an antenna in a communication module together with an optical communication unit with a fiber optic cable that connects the electronics unit to the control room provides communication during mechanical damage to the fiber optic cable, thereby increasing the reliability of communication.

Figure 1 presents the control point telemechanics product pipeline, General view; figure 2 is a structural diagram of a control point telemechanics product pipeline; figure 3 - underground structure of the control point telemechanics of the product pipeline, top view; figure 4 is a section aa in figure 3; figure 5 is a section bB in figure 4; figure 6 - section bb in figure 5.

The telemechanics control center of the product pipeline 1 consists of a power supply system from renewable energy sources 2 and a structure buried in the soil 3. A power supply system from renewable energy sources 2 includes a wind generator 4, a solar battery 5 and an electric generator 6. A battery unit 7 is installed in a buried building 3 8 in an amount providing a constant supply voltage of 22-52 V, and an electronics unit 9.

The electronics unit 9 includes an electronics module 10, a measuring and computing controller 11, a communication module 12 of the measuring and computing controller 11 with a control room 13, a converter module 14 of a DC voltage supply of 22-52 V to an alternating single-phase voltage of 220 V, a converter module 15 of a constant supply voltage 22-52 V into an alternating three-phase supply voltage of 380 V. Measuring and computing controller 11 is connected via a communication unit 16 with technical means of monitoring and control with variable odnova the high voltage of 220 V, through the communication unit 17 - with technical means of monitoring and control with an alternating three-phase voltage of 380 V, through the communication unit 18 - with technical means with a constant supply voltage of 22-52 V. In the communication module 12 of the measuring and computing controller 11, an optical communication unit 19 and a radio communication unit 20 with an antenna 21 are installed with a control room 13. An optical communication unit 19 is connected to a control room 13 via an optical fiber cable 22.

The wind generator 4, installed on the service platform 23 of the mast 24, and the solar battery 5, installed on the stand 25, are located on the site 26 of the telemechanics control point of the product pipeline 1. The structure 3 buried in the ground is made in the form of a block box and consists of a room of 27 batteries 8, rooms 28 of the electronics unit 9 and the vestibule 29 with a ceiling neck 30 and a cable entry 31.

The room 27 of the batteries 8 is separated from the vestibule 29 by a partition 32 with a hermetically sealed door 33 and is equipped with a supply and exhaust ventilation system including a supply air duct 34 with an electrically operated damper 35 and an exhaust duct 36 with an electrically operated damper 37, batteries 8 are fixed on the racks 38 and 39. Room 28 of the electronics unit 9 is separated from the vestibule 29 by a partition 40 with a lockable door 41 and is equipped with a supply and exhaust ventilation system, including a supply air duct 42 with an electrically controlled damper 43 and an exhaust th air duct 44 with an electrically controlled damper 45. In the room 28 of the electronics unit 9 on the stand 46, an instrument rack 47 and an instrument rack 48 are installed. An electronics module 10, a measurement and computing controller 11, a communication module 12 of the measurement and computing controller 11 are installed on the instrument rack 47 the control room 13 with the optical communication unit 19 and the radio communication unit 20 included therein, as well as the communication unit 18 of the measuring and computing controller 11 with technical means with a constant supply voltage of 22-52 V. Ike 48 contains a converter module 14 of a direct voltage supply voltage 22-52 V to an alternating single-phase supply voltage 220 V, a converter module 15 of a constant voltage supply 22-52 V to an alternating three-phase supply voltage 380 V, a communication unit 16 of a measuring and computing controller 11 with technical means monitoring and control with alternating single-phase supply voltage 220 V and a communication unit 17 of the measuring and computing controller 11 with technical means of monitoring and control with alternating three-phase supply voltage tions 380 V. Technical means with constant voltage 22-52 V, technical monitoring and control means of the variable-phase supply voltage of 220 V and hardware of the variable three-phase voltage supply 380 installed on the production pipe (not shown).

An access chamber 49 is made in the ceiling neck 30, closed by a lid 50, and a cargo hatch chamber 51 closed by a lid 52. A ladder 53 is installed in the access chamber 49. A heat insulation unit 54 is fixed under the cover 50 of the access chamber 49. Under the cover 52 of the cargo hatch chamber 51, the thermal insulation block 55 is fixed. Cable entry 31 provides for the input and output of cables from the block box 3 through passages 56, in which sealed polyethylene pipes (not shown) are laid down, which are allocated to cabinets 57 and 58 installed on the service flyover 59.

The control point telemechanics product pipeline works as follows. The power supply for the telemechanics control center of the product pipeline 1 is provided from renewable energy sources 2 — the wind generator 4, the solar battery 5 and the electric generator 6. During periods of lack of electricity from renewable energy sources 2, the operation of the telemechanics control center for the product pipeline 1 is supported by the battery unit 7 8. Renewable energy sources 2 and the block 7 batteries 8 provide a constant supply voltage of 22-52 V.

In real time, a periodic survey of the parameters of the product pipeline is performed. Data from technical means installed on the product pipeline (not shown) with a constant supply voltage of 22-52 V through the communication unit 18 and data from technical means of control and management installed on the product pipeline (not shown) with a variable single-phase voltage of 220 V through communication unit 16 and data from technical means of monitoring and control installed on the product pipeline (not shown) with an alternating three-phase supply voltage of 380 V through the communication unit 17 enter the measuring and computing controller 11, where the processing They are created at the software level using special application software, and control commands are generated. Through the communication unit 16, the measuring and computing controller 11 generates control actions on the technical means of monitoring and control with an alternating single-phase supply voltage of 220 V (not shown) and transmits data to the control room 13 through the communication module 12 — the optical communication unit 19, via an optical fiber cable 22 , and the radio communication unit 20 with the antenna 21, the signal from which is received by the antenna 60 at the control room 13. The stable operation of the battery unit 7 and the electronics unit 9 is supported by life support systems (not provided), controlled by measuring and computing controller 11.

The telemechanics control point of the product pipeline 1 operates in conditions of minimizing energy consumption due to flexible algorithmic control of technical means of monitoring and control, turning on the converter module 14 of the constant voltage supply into alternating single-phase supply voltage 220 V and the converter module 15 from the constant voltage supply into alternating three-phase supply voltage 380 V only for the period of impact on the objects of control and management and optimization when transferring data to the control room 13.

The proposed control point of the telemechanics of the product pipeline allows the use of technical means of monitoring and control with an alternating single-phase supply voltage of 220 V and with an alternating three-phase supply voltage of 380 V, with a controlled consumption of electricity generated by renewable energy sources, increases the reliability of communication between the control center of the telemechanics of the product pipeline and a control center, increases the bandwidth of the transmission channel, which expands the range used in the composition of the item and telemechanics control of the product pipeline of devices and functions (for example, video surveillance, IP-telephony, remote configuration of devices, etc.) ensures stable operation of the telemechanics control center of the product pipeline, which will be widely used in telemechanics control systems of the product pipeline.

Claims (3)

1. The control point of the telemechanics of the product pipeline, including a power supply system from renewable energy sources, which includes a wind generator, a solar battery and an electric generator that generate a constant voltage supply, and a building buried in the ground with a battery unit and an electronics unit with an electronics module, a measuring and computing controller, and the communication module of the measuring and computing controller with the control room, characterized in that the battery pack provides constant pressure voltage supply 22-52 V, the electronics unit includes a module for converting a constant voltage supply voltage 22-52 V to an alternating single-phase voltage supply 220 V, a module for converting a voltage supply voltage 22-52 V to an alternating three-phase voltage supply 380 V, a communication unit with technical means of monitoring and control unit with alternating single-phase supply voltage 220 V, communication unit with technical means for monitoring and control with alternating three-phase supply voltage 380 V, unit for communication with technical means with constant supply voltage 22-52 V. 2. The control point of the telemechanics of the product pipeline according to claim 1, characterized in that an optical communication unit is installed in the communication module of the measuring and computing controller with the control room, and the electronics unit is connected to the control room by means of a fiber optic cable. 3. The control point of the telemechanics of the product pipeline according to claim 1, characterized in that the optical communication unit and the radio communication unit with the antenna are installed in the communication module of the measuring and computing controller with the control unit, and the electronics unit is connected to the control room by means of a fiber optic cable and radio communication channels .