RU27752U1 - DEVICE FOR PROTECTING SUBMERSIBLE MOTOR FROM EMERGENCY OPERATION MODES - Google Patents

Abstract

A device for protecting a submersible motor from emergency operation, comprising an electric motor connected to the network via series-connected power elements of the thermal overload protection device, power contacts of the magnetic starter and a circuit breaker, to the power terminals of which the first terminals of the three-phase battery are connected from the power terminals of the magnetic starter static capacitors and the first and second inputs of an automatic control circuit based on a magnetic starter, p the first output of the coil of which is connected to the first input of the automatic control circuit, the second output of the coil of the magnetic starter is connected through the normally-open NC contact of the upper level sensor of the automatic control system of the water supply unit, the NC contact of the thermal overload protection device, the NC contact of the Start button and the NC contact of the button "Stop" with the second input of the automatic control circuit, and the make contact of the lower level sensor of the automatic control system I have a water supply unit connected in parallel to the closing locking contact of the magnetic starter and the Start button, characterized in that the terminals of the additional three-phase battery of static capacitors connected in triangle to the power terminals of the magnetic starter and in phase with the first terminals are the second terminals of the three-phase static battery capacitors.

Description

DEVICE FOR PROTECTING SUBMERSIBLE MOTOR FROM EMERGENCY OPERATION MODES

The useful model relates to electrical engineering, in particular, to the field of protection against emergency operation of submersible electric motors operating in electric drives of submersible centrifugal electric pumps in industry and agriculture.

A known circuit for protecting an electric motor from emergency operating modes, based on the electromagnetic release of a circuit breaker and apparatus for thermal protection, for example, an electric thermal relay (see book: UDC 621.34. P.59. Sokolov Mikhail Mikhailovich, Lipatov Dmitry Nikitich. “Electric drive and power supply of industrial enterprises M.-L., "Energy, 1965, Fig. 8.4 on p. 247), which are connected in series with the power contacts of the automatic

circuit breaker and stator phases of the driven motor. The electromagnetic release is triggered to disconnect the electric motor from the network when a single-phase or multiphase metal short circuit occurs, and the apparatus for thermal protection - when technological overloads of the electric motor occur.

The disadvantages of this protection scheme of the submersible motor from emergency operation are as follows.

1. Nodpyatnik and the heel (persistent subshpnik) (not shown in the diagram) of the submersible motor are not protected from increased wear during start-up after a technological break in the water supply.

MKI Н02Н 7/08, 7/085

The centrifugal pumps are lubricated with water. During the start-up of the electric pump unit with a decrease in the water level in the bapsha, the rotor of the electric pump accelerates, the weight of which is perceived by the thrust bearing of the thrust bearing of the submersible electric motor. In the process of gaining speed, the lubrication mode also changes between the metal heel on the pump shaft and the rubber thrust of the electric motor from dry friction to the semi-liquid and liquid lubrication conditions that occur when the rotor floats up. In the regime of dry and semi-fluid friction, intensive wear of the surfaces occurs, which reduces the service life of the thrust bearing heel-thrust assembly. For this reason, with frequent switching on of the electric pump unit by the automatic control system of the water supply unit, the service life of the electric motor is reduced more intensively. A break in the water supply of household facilities and the population, due to emergency operating conditions of submersible electric pump units, leads to massive undersupply of products, to mass diseases of the abdomen and poultry, deterioration of sanitary conditions and 6 years old $ 1X submersible electric motor after a technological break in the water supply, the speed of fluid flow in well increases dramatically. A wave of increased fluid pressure arises, spreading in all directions, and a hydrodynamic shock. This leads to the destruction of the well and the increase of mechanical abrasive particles in the pumped fluid, which reduces the service life of the pump parts and affects the quality of the water.

The closest in technical essence and the achieved effect to the proposed technical solution is a device for protecting the electric motor from waterlogging of insulation (see Designing of complex electrification / L.G. Prishchep, A.P. Yakimenko, L.V. Shapovalov, etc.; ed. L.G. Prishchepa.-M.: Kolos, 1983 -271 p., Ill. - Textbooks and teaching aids for higher agricultural educational institutions, Fig. 5.9.), Containing an electric motor connected to the network through series the connected power elements of the thermal overload protection device (in the diagram not yet ), the power contacts of the magnetic starter and the circuit breaker with an electromagnetic release (not shown in the diagram), to the power terminals of which, on the side of the power terminals of the magnetic starter, are connected the first terminals of the three-phase static capacitor bank and the first and second terminals of the automatic motor control circuit (on diagram not shown). The second terminals of the three-phase battery of static capacitors are connected to the power terminals of the magnetic starter on the side of the power elements of the thermal protection device (and the electric motor) in such a way that when the magnetic starter is disconnected, the electric motor is connected to the network through capacitors, calculated so that the stator current creates electric heating of the stator windings to a temperature , exceeding the ambient temperature by at least (3 ... 5), which prevents overmoistening of the insulation during periods of technological pauses. The rotor of the electric motor remains stationary.

The disadvantages of this scheme are as follows.

l.Bo the time of technological breaks in the water supply, the device reduces the rotor speed of the electric motor to zero. During the start-up, the friction pair “heel - thrust bearing” operates in dry and semi-fluid friction modes, which increases its wear.

2. With a direct start-up of a submersible electric motor after a technological pause in water supply, the fluid velocity in the well increases sharply. A wave of increased fluid pressure arises, spreading in all directions, and a hydrodynamic shock. This leads to the destruction of the well and the increase of mechanical abrasive particles in the pumped fluid, which reduces the service life of the pump parts.

3. Low quality of water, due to its clouding with mechanical impurities at start-up.

submersible motor services, material savings and the exclusion of diseases of animals and birds due to interruptions in water supply.

The problem is solved in that in the device for protecting the submersible motor from emergency operating modes, comprising an electric motor connected to the network through series-connected power elements of the thermal overload protection device, power contacts of the magnetic starter and a circuit breaker, to the power terminals of which, from the power terminals of the magnetic starter, the first conclusions of the three-phase battery of static capacitors are connected and the first and second inputs of the circuit of automatic control based on the magnetic starter, the first output of the coil of which is connected to the first input of the automatic control circuit, the second output of the coil of the magnetic starter is connected through the NC contact of the upper level sensor of the automatic control system of the water supply, the NC contact of the thermal overload protection device, the NO contact of the button Start and opening contact of the Stop button with the second input of the automatic control circuit, and the lowering contact of the lower sensor the level of the automatic control system of the water supply installation is connected in parallel to the closing locking contact of the magnetic starter and the “Start” button, the terminals of the additional three-phase battery of static capacitors connected in triangle to the power terminals of the magnetic starter and in phase with the first conclusions, the second conclusions of the three-phase battery of static capacitors are connected.

This allowed us to obtain the following positive effects.

1. When disconnecting the magnetic starter using the system

connected to the network in series with a three-phase static capacitor bank, and an additional three-phase static capacitor bank connected in parallel with the stator windings. The capacity of both batteries is selected in such a way that the angular velocity of the shaft of the submersible electric pump unit is half of the nominal, the water supply is absent, and the power consumption is minimal. This prevents the disappearance of the lubricating layer between the fifth and the thrust bearing during the technological pause, and during the subsequent start-up eliminates the operation of the persistent bearing in the dry and semi-fluid friction mode, increasing its service life.

2. When you turn on the magnetic starter using the automatic control system at the end of the process in the water supply, the shaft of the submersible pump unit accelerates from half to the rated speed without causing significant fluctuations in the fluid pressure in the well.

3. Since the electric motor starts up to the nominal angular velocity WH WITH HALF SPEED 0,5n „, the quality of the water produced from the well is increased due to the decrease in the concentration of mechanical impurities.

4. The circuit is simple, does not contain scarce expensive elements, is easily integrated into existing control and protection stations.

5. Connecting to the power terminals of the magnetic starter from the electric side of the additional three-phase battery of static capacitors increases the total capacitance of the capacitors connected to the stator windings of the electric motor and improves the overall cos of the system.

Thus, with the help of the proposed technical solution, the functional capabilities of the device made according to the prototype scheme are expanded, the service life of the submersible motor, the well, and the increase in water quality are increased. electric motor from emergency operation.

The device comprises an electric motor 1 connected to the network through series-connected power elements of the apparatus 2 for thermal overload protection, power contacts 3,4, 5 of the magnetic starter 6 and a circuit breaker 7, to the power terminals 8, 9, 10, which, from the side of the power terminals 11, 12, 13 of the magnetic starter 6, the first terminals 14, 15, 16 of the three-phase battery of static capacitors 17 and the first 18 and second 19 inputs of the automatic control circuit are connected. The first terminal 20 of the coil 21 of the magnetic starter 6 is connected to the first input 18 of the automatic control circuit, the second terminal 22 of the coil of the magnetic starter 21 is connected through the NC contact 23 of the upper level sensor of the automatic control system of the water supply system (not shown), the NC terminal 24 of the device 2 thermal protection against overload, make contact 25 of the button "Start and open contact 26 of the button" Stop with the second input 19 of the automatic control circuit, and make contact 27 d tchika lower level automatic control system vodosnabzhayushey installation connected in parallel to the locking pin 28 zamykayushemu magnetic actuator 6 and 25 zamykayushemu contact button "Start. The power terminals 29, 30, 31 of the magnetic starter 6 on the motor 1 side are connected to the terminals 32, 33, 34 of an additional three-phase battery of 35 static capacitors connected in a triangle and, in phase with the first terminals 14, 15, 16, the second terminals 36, 37, 38 three-phase battery 17 static capacitors.

The device operates as follows.

From terminals A, B, C, when the circuit breaker 7 is turned on, the three-phase alternating current voltage is supplied to the power contacts 3, 4, 5 of the magnetic starter 6, to the three-phase batteries 17, 35 of static capacitors and the first 18 and second 19 terminals of the automatic control circuit. Submersible motor 1, receiving power through a three-phase battery of 17 static capacitors, begins to work on

b

I’m boiling 17 static capacitors, it starts to work at a reduced angular speed equal to 0, driving a centrifugal pump and creating some water pressure in the absence of supply. At an angular speed of 0.3 n “and higher, hydrodynamic lifting of the rotor of the submersible electric pump unit on the thrust bearing and the operation of the pair of“ fifth heights of the thrust bearing in liquid friction mode are ensured.

When you press the "Start" button 25 or the closing contact 27 of the lower water level sensor in the storage tank is activated, the coil of the magnetic starter 21 receives power, the locking contact is closed 28, and the magnetic starter 6 closes the power contacts 3, 4, 5 in the circuit of the submersible motor 1 The electric motor 1 is directly connected to the network and reaches the rated speed at a natural mechanical characteristic. At the same time, the automatic control system of the water supply installation is also included in the work. When the 26 “Stop” button is pressed or the NC contact 24 of the apparatus 2 of thermal overload protection is activated, or when the specified water level in the storage pressure tank is reached and the NC contact 23 of the sensor of the automatic control system of the water supply is activated, the coil 21 of the magnetic starter 6 is de-energized, its contacts 3, 4, 5, 28 open and the motor 1 is connected to the network through a three-phase battery 17 of static capacitors, which together with an additional three-phase oh static capacitor battery 35, through the creation of a motor with windings L-C combination of the oscillation circuit and the mechanical characteristics of the motor and brake modes, provides translation submersible motor 1 on a hard artificial mechanical characteristics during operation at a speed equal to half the rated load. As a result, a technological pause mode is created in the water supply. Next, the cycle repeats.

phase metallic short circuit, the electromagnetic release of the circuit breaker 7 is activated.

When the circuit breaker 7 is turned off, the circuit is de-energized, the submersible pump unit stops completely.

The speed of the submersible electric pump unit in the mode of a technological pause in the water supply is calculated in such a way as to ensure a minimum pressure of water at zero flow, minimum energy consumption and a sufficient flow of lubricating fluid in the thrust bearing. As a result of this, the motor failure is excluded due to premature wear and destruction of the thrust bearing. An additional effect is a decrease in the amplitude of fluid pressure fluctuations during start-up, which increases the well life and improves water quality.

In connection with the reduced wear of the thrust bearing, the total service life of the submersible electric pump unit also increases, ensuring uninterrupted water supply to household facilities and the public. Therefore, the proposed device for protecting the motor from emergency operating modes allows you to achieve your goal, i.e. expand the functionality of the prototype circuit, increase the reliability of protecting the electric motor from emergency operation, save material resources for the repair of a submersible electric pump unit, improve water quality and eliminate product shortages, the occurrence of diseases of animals and birds in agriculture.

The utility model can be used in industry and agriculture to increase the service life and to protect the submersible motor of a centrifugal electric pump unit from emergency operation: from jamming of the shaft due to the destruction of the thrust bearing, 0t short circuit and overload.

Claims (1)

A device for protecting a submersible motor from emergency operation, comprising an electric motor connected to the network via series-connected power elements of the thermal overload protection device, power contacts of the magnetic starter and a circuit breaker, to the power terminals of which the first terminals of the three-phase battery are connected from the power terminals of the magnetic starter static capacitors and the first and second inputs of an automatic control circuit based on a magnetic starter, p the first output of the coil of which is connected to the first input of the automatic control circuit, the second output of the coil of the magnetic starter is connected via the normally open contact of the upper level sensor of the automatic control system of the water supply system, the opening contact of the thermal overload protection device, the closing contact of the "Start" button and the opening contact of the button "Stop" with the second input of the automatic control circuit, and the make contact of the lower level sensor of the automatic control system I have a water supply unit connected in parallel to the closing locking contact of the magnetic starter and the Start button, characterized in that the terminals of the additional three-phase battery of static capacitors connected in triangle to the power terminals of the magnetic starter and in phase with the first terminals are the second terminals of the three-phase static battery capacitors.