RU6207U1 - SUBMERSIBLE PUMP UNIT - Google Patents

Abstract

1. Submersible pumping unit for lifting liquid to a surface containing a pump, the shaft of which is mechanically connected to the shaft of the electromechanical converter of the valve electric motor, characterized in that the position sensor of the rotor of the valve electric motor is made in the form of an electronic unit, the input of which is connected to the output circuits of the frequency converter, electronic the unit and the frequency converter are located outside the unit housing on the surface. 2. The assembly according to claim 1, characterized in that the electronic unit is made in the form of a vector control circuit for an AC motor, for example, a Transvector circuit. 3. The unit according to claim 1, characterized in that the electronic unit is configured to control the position of the rotor by current and / or voltage at the output of the frequency converter.

Description

This utility model relates to pump engineering and can be used in the oil industry for oil production.

Known submersible pump unit containing a DC motor, the shaft of which is mechanically connected to the pump shaft (1).

The disadvantage of this unit is the presence of a collector assembly in the DC electric drive, which reduces the reliability of the unit due to the rapid wear of the brushes and the risk of explosion when using it for oil production.

Also known is a submersible pump unit containing a non-contact induction motor, the shaft of which is mechanically connected to the pump shaft (2).

The disadvantage of this pumping unit is its low efficiency. and energy performance.

The closest to the claimed model in terms of technical nature and the problem to be solved is a submersible pump unit containing a non-contact valve electric motor, the shaft of the electromechanical converter of which is mechanically connected to the pump shaft (3).

The disadvantages of this unit are low reliability and limited scope. These disadvantages are due to the fact that the rotor position sensor and the electronic circuit are located in the same housing as the electric motor. This limits the scope of the unit and reduces its reliability. For example, it is difficult to use this unit for pumping liquids with high temperature and pressure, which is typical, for example, for units designed for oil production, where the ambient temperature reaches 150 ° C and above, and the pressure exceeds 25 MPa. As you know, with increasing temperature, the reliability of electronic circuits also decreases sharply.

the technical result of this utility model is to expand the scope and increase the reliability of the unit.

The specified technical result is achieved by the fact that in the submersible pump unit containing a valve motor, the shaft of the electromechanical converter of which is mechanically connected to the pump shaft, the rotor position sensor is made in the form of an electronic unit, the input of which is connected to the output of the frequency converter of the valve motor, an electronic block and a frequency converter placed outside the unit housing, on the surface.

The specified electronic unit can be made, for example, in the form of any of the known schemes for vector control of electric motors, alternating current, for example, in the form of a TRANSVECTOR system: - T. Kume, T. Ivakane. High-quality vector-controlled AC drives. Translation N 521/648, 1992. UNSTI / UPE.

- Systems of regulation of electric drives of alternating current with microprocessor control. Frequency-controlled asynchronous electric drives based on new types of frequency converters abroad. Series 08. Issue 26, Informelectro, 1989.3,

The electronic unit can also be made in the form of one of the known circuits for monitoring the position of the rotor by current and / or voltage at the output of the frequency converter of a valve electric motor. (- Patent of Germany N 2428718, CL.N023 1/18 from 1979;

-Author Certificate of the USSR N 1337972, KL.N02K 29/00 from 1987;

-Author Certificate of the USSR N 1007161, KL.N02K 29/00 from 1982).

The drawing shows a block diagram of a submersible pump unit.

Submersible pump unit contains a valve motor, including an electromechanical converter (EMF) 1, a frequency converter (IF) 2 and a sensor 3 of the position of the rotor 4 of the EMF. The winding 5 of the armature of the EMF 1 is connected to the output of the inverter 2 using a three-wire cable 6. The shaft 7 of the rotor of the EMF is mechanically connected using the coupling 8 with the shaft 9 of the pump 10.

The EMF and the pump are placed in the casing 11 and immersed in the pumped liquid. The liquid pumped by the pump 10 is supplied to the surface via a pressure pipe 12.

Node 13 hydraulic protection protects the EMF from getting into the pumped liquid. The internal cavity of the EMF is filled with an insulating liquid, for example, transformer oil.

Submersible pump unit operates as follows.

When voltage is applied to the network terminals At, VA, Ct of the inverter 2 and there is a signal at the input of the speed adjuster, a voltage is generated at the output terminals A2 Bg.Cg of the inverter, the value of which is determined by setting the frequency of rotation of the rotor of the EMF 1, and the frequency is equal to the frequency of rotation of the rotor 4 EMF Currents flow through winding 5 of the EMF armature, the magnitude and frequency of which depend on the voltage at the inverter output and the rotor speed. The EMF develops a torque, its rotor drives the pump shaft 9, which, capturing the fluid surrounding the pump in the casing, for example, oil, pumps it to the surface through the pressure pipe 12.

- 2

The electronic unit 3, made in a known manner, has the function of a rotor position sensor, that is, it ensures strict equality of the rotation frequency and the frequency of the voltage and current at the inverter output, and the change in the phase position of the current in the armature winding 5 relative to the magnetic flux specified by the parameters and algorithms of the unit 3 rotor 4 EMF.

As EMF, EMF can be used with excitation from permanent magnets on the rotor, as well as inductor-type EMFs with excitation by means of windings or permanent magnets located on the stator, or with gate excitation. Thanks to this construction of the electric motor, it has all the properties of a non-contact direct current machine, or a valve electric motor - high efficiency, uniform rotation, and adjusting characteristics.

Since all electronic elements of the valve motor (inverter and rotor position sensor) are located on the surface, without being affected by the pumped liquid, it became possible to use the submersible pump unit for pumping any liquids, including liquids with high temperatures and pressures, in particular , for oil production. At the same time, electronic elements can be in comfortable conditions and work very reliably, even in the case of using a conventional element base.

Sources of information taken into account.

1. U.S. Patent No. 3,764,233, F 04 B 17/00, 1973.

2. Application of Germany N 3820005, F 04 D 13/08, 1989.

3. International application N 91/19905, F 04 D 13/08, 1991.

Authors: -Ј D. M. Angorin A. A. Ivanov Yu. I. Naumov V. S. Savichev. M. Santalov

Claims (3)

1. Submersible pumping unit for lifting liquid to a surface containing a pump, the shaft of which is mechanically connected to the shaft of the electromechanical converter of the valve electric motor, characterized in that the position sensor of the rotor of the valve electric motor is made in the form of an electronic unit, the input of which is connected to the output circuits of the frequency converter, electronic the unit and the frequency converter are located outside the unit body on the surface.  2. The assembly according to claim 1, characterized in that the electronic unit is made in the form of a vector control circuit for an AC motor, for example, a Transvector circuit.  3. The assembly according to claim 1, characterized in that the electronic unit is configured to control the position of the rotor by current and / or voltage at the output of the frequency converter.