RU45871U1 - ELECTRIC MOTOR MOTOR CONTROL SYSTEM - Google Patents

Abstract

Usage: The invention relates to the electronics industry and can be used to monitor the condition of a submersible electric motor. The inventive device comprises pressure, temperature and vibration sensors, a control station, a DC voltage source, a processor, a power amplifier, a transformer, a power line coupler, a current lead assembly made of an insulating block with contact sleeves. Contact sleeves are connected by wires of the first type to the stator winding of an electric motor. The pressure sensor consists of a series-connected pressure transducer, a voltage amplifier of the pressure sensor and an analog-to-digital pressure sensor transducer. The temperature sensor consists of a series-connected sensor element of the temperature sensor, a voltage amplifier of the temperature sensor and an analog-to-digital converter of the temperature sensor. The control station is connected to the primary winding of the transformer. The secondary winding of the transformer is connected via a power line to the current lead assembly. The output of the interface device is connected to the input of a DC voltage source. The first output of the DC voltage source is connected to a power amplifier, the second to a pressure transducer, and the third to voltage amplifiers and analog-to-digital converters of pressure and temperature sensors, a temperature sensor, a processor, and a vibration sensor, respectively. The output of the power amplifier is connected to the input of the interface device. An analog-to-digital pressure transmitter is integrated into the processor. The output of the analog-to-digital converter of the temperature sensor is connected to the processor. The outputs of the vibration sensor are connected to the inputs of the processor. The output of the processor through a power amplifier is connected to the input of the interface device. A device for pairing with a wire of the second type is connected to the current lead assembly. The secondary winding of the transformer with a third type of wire is connected to the control station.

Description

The invention relates to the electronics industry and can be used to monitor the condition of a submersible electric motor.

A device for protecting a submersible electric motor containing the first and second control units, a voltage source, a voltage divider, a pulse generator, a control unit, a rectifier, a switch, a first measuring unit containing temperature, pressure and vibration sensors (application for the invention of the Russian Federation No. 2001110609. IPC (7) P 02 P 7/08. Priority dated 04/04/2001).

The disadvantage of this device is the presence of a relatively large number of components of the device elements and a complex electronic circuit for its implementation.

The objective of the invention is to remedy these disadvantages, namely, ensuring an identical result in the presence of a relatively small number of elements with a relatively simple electronic circuit of the device.

In the control system for the condition of a submersible electric motor containing a pressure sensor, a temperature sensor, a vibration sensor, a control station, a voltage source it is proposed:

- the device is additionally equipped with a processor, a power amplifier, a DC voltage source, a transformer, a device for interfacing with a power line, an input unit consisting of an insulating block with contact sleeves;

- connect the contact sleeves with wires of the first type to the stator winding of a submersible electric motor;

- the pressure sensor is made from a series-connected pressure transducer, a voltage sensor pressure amplifier and an analog-to-digital pressure sensor transducer;

- make the temperature sensor in the form of an integrated microcircuit, consisting of a series-connected sensitive element of the temperature sensor, amplifier

voltage of the temperature sensor and analog-to-digital converter of the temperature sensor;

- connect the control station to the primary winding of the transformer;

- connect the secondary winding of the transformer by means of a power line to the current lead assembly;

- connect the output of the interface device to the input of the DC voltage source;

- connect the first output of the DC voltage source to the power amplifier, the second output to the pressure transducer, and the third output, respectively, to the pressure sensor voltage amplifier, analog-to-digital pressure sensor converter, temperature sensor element, temperature sensor voltage amplifier, analog-digital temperature sensor transducer, vibration sensor and processor;

- connect the output of the power amplifier to the input of the interface device;

- integrate the analog-digital converter of the pressure sensor into the processor;

- connect the output of the analog-to-digital converter of the temperature sensor to the processor;

- connect two outputs of the vibration sensor to two inputs of the processor;

- connect the processor output through the power amplifier to the input of the interface device;

- a device for interfacing with a wire of the second type to connect to the node of the current lead;

- connect the secondary winding of the transformer with a conductor to the control station.

As a result, the desired result is achieved.

The invention is illustrated by the figure, which shows a schematic diagram of a system for monitoring the condition of a submersible electric motor.

The following notation is used in the figure: 1 - analog-to-digital converter of the pressure sensor; 2 - analog-to-digital converter of the temperature sensor; 3 - sensor

Vibration 4 - a source of DC voltage; 5 - submersible motor; 6 - wire of the third type; 7 - processor; 8 - power line; 9 - control station; 10 - pressure transducer; 11 - oil transformer raising voltage; 12 - current lead assembly; 13 - power amplifier; 14 - voltage amplifier pressure sensor; 15 - voltage sensor voltage amplifier; 16 - a pairing device, 17 - a sensitive element of the temperature sensor; 18 - wire of the first type; 19 - wire of the second type.

The control system for the condition of a submersible electric motor consists of a pressure sensor, temperature sensor, vibration sensor 3, control station 9, DC voltage source 4, processor 7, power amplifier 13, oil boost voltage transformer 11, interface device 16 with power line 8 and node current lead 12.

The current lead assembly 12 is an element of an electrical connector for connecting a power line 8 and is an insulating block with contact sleeves.

Contact sleeves are connected to the wires of the first type 18 with the stator winding of the submersible motor 5.

The pressure sensor consists of a series-connected pressure transducer 10, a voltage amplifier 14 of the pressure sensor and an analog-to-digital converter 1 of the pressure sensor.

The pressure transducer 10 is made in accordance with the scheme "closed bridge". It allows you to convert excess pressure into an electrical signal. The strain gauge pressure transmitter 10 is supplied with a stabilized DC voltage.

The temperature sensor is an integrated circuit consisting of a temperature sensor element 17 connected in series, a voltage amplifier 15 of the temperature sensor, and an analog-to-digital converter 2 of the temperature sensor. The temperature sensor chip has a digital input.

The microchip converts a physical parameter - temperature into a digital code.

The temperature sensor element 17 is a semiconductor.

Vibration sensor 3 is an integrated accelerometer, the sensitive element of which is a reference mass. The microcircuit converts the vibration of the reference mass into a pulse signal. The information is carried by the pulse width - the duty. The chip has two channels for measuring vibration in two mutually perpendicular planes with separate outputs for each plane.

The control station 9 is designed to control the submersible motor 5 and the telemetry unit. The main functions of the control station 9: changing the operating parameters of the submersible electric motor 5, its protection from unacceptable values of vibration, temperature, pressure, current, voltage and power.

The processor 7 is designed to analyze information from pressure sensors, temperature and vibration 3, perform computational operations, coding and transmission of information.

An analog-to-digital converter 1 of the pressure sensor is integrated in the processor 7.

The interface device 16 is a system of band-pass and notch filters.

The power amplifier 13 is made in the form of an integrated circuit.

The power line 8 is made in the form of a three-core cable.

The control station 9 is connected to the primary winding of the transformer 11.

The secondary winding of the transformer 11 through the power line 8 is connected to the node of the current lead 12.

The output of the interface device 16 is connected to the input of the DC voltage source 4.

The first output of the DC voltage source 4 is connected to a power amplifier 13, the second output to a pressure transducer 10, and the third output, respectively, to a voltage amplifier 14 of a pressure sensor, analog-to-digital

a pressure sensor transducer 1, a temperature sensor sensor 17, a voltage amplifier 15 of the temperature sensor, an analog-to-digital temperature sensor 2, a vibration sensor 3 and a processor 7.

The output of the power amplifier 13 is connected to the input of the interface device 16.

An analog-to-digital converter 1 of the pressure sensor is integrated in the processor 7.

An analog-to-digital converter 2 of the temperature sensor is connected to the processor 7.

Two outputs of the vibration sensor 3 are connected to two inputs of the processor 7.

The output of the processor 7 through the power amplifier 13 is connected to the input of the interface device 16.

The interface device 16 by a wire of the second type 19 is connected to the node of the current lead 12.

The secondary winding of the transformer 11 by a wire of the third type 6 is connected to the control station 9. This connection is provided for monitoring the insulation resistance of the system: "submersible motor 5 - power line 8 - transformer 11", as well as to ensure the operation of the telemetry unit.

The device operates as follows.

The control station 9 serves a three-phase voltage. From the control station 9, the voltage through the transformer 11 through the power line 8 is supplied to the submersible motor 5 and the interface device 16.

From the interface device 16 through the DC voltage source 4, the voltage is supplied to the pressure sensors, temperature and vibration 3 and the power amplifier 13.

After measuring the oil pressure in the submersible motor 5 through the voltage amplifier 14 of the pressure sensor and the analog-to-digital converter 1 of the pressure sensor, digital information is supplied to the processor 7.

The signal (information) from the temperature and vibration sensors 3 also enters the processor 7.

After analyzing the information received from the pressure, temperature and vibration sensors using the processor 7, it enters the interface device 16.

Then the signal from the interface device 16 enters the control station 9 for analysis and adoption by the operator and / or control station 9 of the appropriate decision.

An example of a specific implementation of the device.

The device is connected to a submersible motor 5 of type 7 PED 32-117 MV5. The power of the specified motor is 32 kW, and the voltage is -1000 V.

The control station of type 9 ALSU-A-180-PT-U1 has a power of 180 kW and is designed to control an asynchronous electric motor and telemetry unit.

The power line 8 is made in the form of a three-core cable type KPBP 3 × 16.

The pressure transducer uses a pressure transducer 10, which converts excess pressure and operates in the range from 0 to 25 MPa.

The integrated temperature sensor operates in the range from -50 ° С to + 150 ° С.

The integral vibration sensor 3 operates in the range from 0 to 10 g with a frequency band from 0 to 400 Hz.

The transformer 11 type TMPN has the following characteristics: power 100kW, input voltage - 380 V and output voltage - 1000 V.

The processor 7 of the PIC16 type has the following characteristics: memory capacity - 4 kB, operating frequency - 4 MHz and voltage - 5 V.

An industrial design of the device is created, the reliability and efficiency of its work are shown.

Claims (1)

A system for monitoring the condition of a submersible electric motor, comprising a pressure sensor, a temperature sensor, a vibration sensor, a control station for changing the operating parameters of the submersible electric motor, and an alternating voltage source, characterized in that the device is additionally equipped with a processor for analyzing information from pressure sensors, temperature and vibration and performing computational operations, a power amplifier, a DC voltage source, an oil transformer overvoltage, a device for interfacing with a power line, a current lead assembly, which is an element of an electrical connector for connecting a power line and is an insulating block with contact sleeves connected by wires to the stator winding of a submersible electric motor, the pressure sensor consisting of a pressure transducer connected in series, a voltage amplifier of the sensor pressure and analog-to-digital pressure sensor converter, the temperature sensor is an integral a microcircuit consisting of a temperature sensor sensitive element, a temperature sensor voltage amplifier and a temperature sensor analog-to-digital converter, the control station is connected to the primary winding of the transformer, the secondary winding of the transformer is connected to the current input node by the power line, the output of the interface device is connected to the input of the source DC voltage, the first output of the DC voltage source is connected to a power amplifier, the second output the DC voltage source is connected to a pressure transducer, the third DC source output is connected respectively to a pressure sensor voltage amplifier, a pressure sensor analog-to-digital converter, a temperature sensor sensor, a temperature sensor voltage amplifier, an analog-to-digital temperature sensor, a vibration sensor, and by the processor, the output of the power amplifier is connected to the input of the interface device, the analog-to-digital converter of the pressure sensor niya is integrated into the processor, an analog-to-digital converter of the temperature sensor is connected to the processor, two outputs of the vibration sensor are connected to two inputs of the processor, the output of the processor through the power amplifier is connected to the input of the interface device, the interface device is connected by a wire to the current input unit, and the secondary transformer winding is connected by a wire with the control station.