UA144522U - COMMUNICATION SYSTEM OF MEASURING BLOCKS OF TELEMETRY SYSTEM - Google Patents

Abstract

The communication device of the measuring units of the telemetry system includes a housing containing at least one three-phase inductor of modular design, as well as a system of filtration and protection against current overload and short circuit. The three-phase inductor together with the contact wires are located on the installation platform in the thickness of the thermally conductive insulating material. The removable panel with electronic components of filtration systems and protection against current overload and short circuit are located on top of the installation platform. 1

Description

The claimed communication device of measuring units of the telemetry system belongs in general to the field of electrical engineering, which provides a guaranteed communication channel between the telemetry system and the submersible unit, more specifically provides a stable system of communication of transmitted data and a system of filtering harmonics and interference at high voltage of power networks

Currently, various measuring systems, including underground and surface equipment, are widely used in the oil production industry. For the connection of the elements of the measuring system and their protection against power network voltage drops, it is customary to use additional communication elements built into the signal transmission line from the underground to the surface units. Known additional communication elements have a number of disadvantages in the form of massive element designs, unstable data transmission at high voltage power networks, and low ergonomics.

Typical devices can be independently connected additional elements of the system, which provide an alternative scheme for power supply and data transmission between elements of the measurement system.

For example, in patent KO 2465456 C2 dated 14.07.2008, several independently connected modules are disclosed, which provide modulation of the DC displacement in the power cable, power supply and data transmission to measuring and control devices. At the same time, the mentioned independent modules do not provide for the possibility of creating an additional communication channel, and there is no filtering of harmonics and disturbances caused by phase distortion in the power supply network.

It is also known from the E5BR Satsde Okhtogi Mopyogipd BOOYishSHSHОope /Meg.1.2017 catalog (per /Lumlu. gedzeaoizegiise5.sot/PShev/ra/EvRO20Saidezo2OSaitaiyudieztgogom 5962001012017.ra) a three-phase ground choke, which is modular, which allows it to be installed in step-up transformers. It includes a throttle unit, a filter and three high-voltage isolation fuses installed on each phase, which perform the function of protecting the ground unit of the measuring system from accidents.

The presence of three high-voltage isolation fuses to protect against current overload and short circuit complicates the design and increases operating costs.

The closest analogue of the declared communication device of the measuring blocks of the telemetry system is the Nidp Mokade Ipiepasse of the company ACE OOUMUMNOIG EE, GI S, taken from the source

EBR Yuomuproie bepbzog buvivt IpeiaMayop, Sopiidogayop apa Oregayop /Mapia (pprz/Lumly.asedompoiv.sot/ipaheh. ryr?oriop-sot dostapemivm-dompioadvaiav--1 -ase- tapia!Ie:saiedogu 5ipd-ase-tapiaizaPNetia-123).

Nidp Monade Ipiegase includes a housing that contains a three-phase choke, a built-in filter system, a fuse and a protection circuit. It is connected between the motor power cable and the ground block and limits the possibility of short circuits by forming an artificial zero point.

Nidp Mokade Ipiegtase provides a safe signal level for connection to the ground unit in the presence of a high voltage network of 5000 V. At the same time, it can be used as a separate element of the system for installation in a high-voltage cabinet, a transformer, which means there is no absolute need for the mandatory use of a protective cabinet, which simplifies operation and reduces costs.

The device does not provide for the possibility of its use without a filtering system in the presence of a filter in the ground unit, which preserves the complexity of the circuit of the device and the ground unit, while increasing operating costs.

The internal module of the device is of a monoblock design.

The technical problem, the solution of which is aimed at the declared useful model, is the creation of a device with a modular design of the filtering system, designed for high-quality and safe communication between surface and underground units at a high voltage of the power supply network of 5000 V.

The technical result of the implementation of the declared useful model is the creation of a communication device for measuring units of the telemetry system with increased ergonomic properties.

The technical result is achieved due to the fact that the communication device contains a block of chokes and phase wires in the thickness of the heat-conducting insulating material in the installation platform, which helps to reduce overall dimensions.

In addition, the technical result is achieved by the fact that it contains an internal module of the communication device of a collapsible design, which expands the possibilities of installing the device in conditions with limited space, for example, when installed in small-sized protective cabinets of control stations or transformers.

In addition, the technical result is achieved by the fact that it contains a filter system of a removable design, which expands the possibilities of its application and reduces overall dimensions.

The task is solved by the fact that the communication device of the measuring units of the telemetry system includes a housing containing at least one three-phase choke of a modular design, as well as a filtering and protection system against current overload and short circuit, according to a useful model, a three-phase choke together with contact wires are located on the installation platform in the thickness of heat-conducting insulating material, while the removable panel with electronic components of filtering systems and protection against current overload and short circuit are located on top of the installation platform.

The drawings show: fig. 1 - protective shell of the communication device; in fig. 2 - communication device in section A-A; in fig. C - communication device in section B-B; in fig. 4 - telemetry system block diagram.

The communication device is placed by a separate element in the protective shell 1, shown in fig. 1, such as, for example, protective cabinets of electrical equipment, transformers.

The communication device shown in fig. 2 and fig. 3, is connected to the communication channel formed by the secondary winding of the transformer and the zero point of the submersible motor winding, by three phase wires, each of which is separately connected to the choke block 6.

Choke block 6 on each phase is connected in series with two single-phase chokes, which are then connected to one zero point, withstanding a maximum voltage of 5000 V.

The choke block 6 is located together with three phase wires and a neutral wire in the thickness of the heat-conducting insulating material in the installation platform 7.

The level of the surface of the heat-conducting insulating material is regulated and formed using the installation platform 7.

The presence of heat-conducting insulating material reduces the distance between the open contacts of the choke and provides insulation, as a result of which the overall dimensions and, as a result, the metal capacity of the communication device are reduced.

Next, the neutral wire comes to the insulator 2, to which the fuse of the protection system 3 is connected, located at the zero point, which provides protection against overload by

From current and short circuit. The fuse C of the protection system is located on top of the installation platform 7 on the removable panel 5.

Next, the filter of the filtration system 4 is included in the network through a choke and a capacitor.

The electronic components of the filtration system are located on top of the installation platform 7 on the removable panel 5.

The filter of the filtration system is removable, installed on a vertical plane, due to the console mount, on the removable panel 5.

The internal module of the communication device, which is installed in the inner volume of the protective shell, is a modular collapsible structure, which consists of two parts: the installation platform 7 and the removable panel 5, connected to each other by means of a threaded fastener, which increases convenience during operation and maintenance, ease of execution and application.

In addition, the surface of the removable panel 5 can be presented in the form of a printed circuit board with contacts for installing electronic components of the surge protection system and the filtering system.

Next, the operation of the device will be disclosed with reference to fig. 4. The ground unit (NB) 8 forms a constant supply voltage of 100 V, which is transmitted by a contact wire through the zero point to the communication device (P3) 10.

The communication device (13) 10 is connected by three phase wires to the secondary winding of the transformer (T) 11 - submersible electric motor (ZED) 13.

The ground unit 8 is connected to the zero point of the stator winding ZED 13. At the same time, the signal is transmitted from the submersible unit (ZB) 14 through the zero point of the stator winding ZED 13, and then via three phase wires 12 and the ground wire 9 to the choke block of the communication device (PZ) 10, where a zero point is formed, which is connected to the ground block (NO) 8. At the zero point, the composition of the three-phase voltage vectors is ensured.

A fuse of the current protection system is installed at the zero point of the communication device C, which protects against network overload and short circuit. Then the filtering system of the communication device Z excludes harmonics and interference that occurred in the data transmission channel from the submersible electric motor (ZED) 6 to the ground unit (HE) 8.

The claimed communication device, which was described with reference to the drawing and formula of the utility model, provides for various options and alternative forms of implementation, except for those that are depicted or proposed in this document and can be implemented within the essential features of this utility model.

Claims (4)

USEFUL MODEL FORMULA 1. The communication device of the measuring units of the telemetry system includes a housing containing at least one three-phase choke of a modular design, as well as a filtering and protection system against current overload and short circuit, which is characterized by the fact that the three-phase choke together with the contact wires are located on installation platform in the thickness of heat-conducting insulating material, while the removable panel with electronic components of filtering systems and protection against current overload and short circuit are located on top of the installation platform. 2. The communication device of the measuring blocks of the telemetry system according to claim 1, which is characterized by the fact that the electronic components of the filtering system are represented by a filter of a removable design, which is fixed in a vertical plane on a removable panel. 3. The communication device of the measuring blocks of the telemetry system according to claim 1, which is characterized by the fact that it is made in the form of a modular disassembly structure, consisting of at least two parts connected by means of a threaded fastener and containing the contact of the zero point of the three-phase choke with the ground block telemetry. 4. The communication device of the measuring units of the telemetry system according to claim 1, which differs in that the surface of the removable panel is presented in the form of a printed circuit board with contacts for installing electronic components of protection systems against voltage drops and filtering.