UA63560A - Protection device for the submersible motor of a water pump drive - Google Patents

Abstract

The proposed protection device for the submersible motor of a water pump drive contains an automatic cut-out, a power-supply unit, a unit for monitoring the mains voltage, a water upper level detector, a water lower level detector, a no-water condition detector, an insulation resistance monitoring unit, a signal processor, a phase current monitoring unit, a logic control unit, an indication unit, an adjusting unit, a timer, a motor winding temperature detector, and a light indicator.

Description

Description of the invention

The invention relates to electrical engineering and can be used to protect the submersible electric motor 2 of a water pump, mainly in agriculture when taking water from a well.

A known device for protecting an electric motor with a pump drive, containing a temperature sensor, a voltage source, a low-pass filter, a first battery, a control unit and a pulse generator (|). The input of the low-pass filter is intended for connection to the zero point of the secondary winding of the power transformer.

The temperature sensor, installed near the stator windings of the submersible electric motor, is connected 70 in series with a diode between the zero point of the electric motor winding and its grounded body. The control unit is made in the form of two comparison units, the outputs of which are connected to the executive mechanisms.

This device allows you to exclude the influence of insulation resistance on the measurement of the heating temperature of the stator windings of the electric motor.

The disadvantage of this device is the lack of elements to protect the submersible electric motor against failure of the electric pump supply 12 controlled by the pressure in the well, which can lead to the occurrence of "dry friction" in the pump, an increase in the gas factor of the pumped liquid and, therefore, to the deterioration of engine cooling and power cable.

A well-known control and protection station, which consists of a phase-sensitive protection device FUZ-M, a universal two-position regulator UDR-2, containing a power supply unit, an OR logic element and a control unit, an insulation resistance control unit, a switch for operating modes, a signal lamp of reduced insulation resistance, automatic switch, electromagnetic starter, ammeter (21.

This station has the following disadvantages: 1. No preliminary analysis of the network is carried out, the signal about the reduction of the insulation resistance of the stator winding of the electric motor does not affect the operation of the station as a whole, the insulation resistance of the power cable is not evaluated. Because of this, it is possible to turn on the unit in emergency mode; " 2. The signal of any emergency situation is memorized and self-starting of the unit is not possible even after normal operating conditions are restored, the disappearance of the supply voltage resets the emergency signal and it is possible to turn on the unit in emergency mode again;

Q. The frequency of starts is not limited, although electric motor manufacturers do not recommend more than two or three starts per hour, otherwise the electric motor will overheat; Ge) 4. The station has too high sensitivity to asymmetry of supply voltages for real conditions in agriculture and therefore gives many false positives. at

The closest technical essence to the proposed invention is the control and protection station of submersible electric pump units "Charivnytsia-1", which consists of an automatic switch, a phase control unit

From currents, an electromagnetic starter, a network analysis unit, a power supply unit, an executive unit, a motor insulation resistance control unit, a signal processing unit, a logic unit, an indication and adjustment unit, a timer and measuring transducers |Z).

The use of preliminary analysis of the network, assessment of the insulation resistance of the stator windings of the electric motor and the power cable, as well as limiting the number of unsuccessful starts in a row minimizes the probability of turning the unit into a deliberate emergency mode. Conducting analysis of phase currents and analysis of the network during operation of the unit increases reliability and reduces the probability of false starts. Start and stop from" the unit by the timer signal simplifies the control of units working directly on the ring network.

The disadvantage of this device is the insufficient degree of protection of the electric motor due to possible overheating of its windings. In addition, when using the prototype device, the frequency of unit starts is limited for a specified time. So, according to GOST 10428, there should be only 2 starts per hour, which increases the time the electric motor stays in the disconnected state. Moreover, the frequency of starts is limited by the increased temperature of the electric motor and the need to reduce it to an acceptable level. Long-term stoppage of the electric pump unit does not ensure water withdrawal from the well, which slows down the filling of the special container and increases the time of absence of water supply to consumers. b 20 The task of the invention is to improve the protection efficiency of the submersible electric motor of the water pump and reduce the time the electric motor stays in the disconnected state. c The problem is solved by the fact that in the known device for the protection of the submersible electric motor of the water pump, which includes an automatic switch, the input of which is connected to the network, and the output - to the power supply unit, the network analysis unit and the measuring unit, an electromagnetic starter, the output of which is connected connected to an electric motor, a measuring transducer of upper, lower levels and dry run, a resistance control unit in insulation, the input of which is connected to the output of the electromagnetic starter, the network analysis unit, the inputs of which are connected to the outputs of the automatic circuit breaker and the output of the insulation resistance control unit, and the output is to the signal processing unit, the inputs of which are connected to the outputs of the phase control unit currents, a network analysis unit and a power supply unit, and outputs - with a logic unit, an indication and setting unit, a measuring converter and a timer, the input of which is connected to the signal processing unit, and the output - to the logic unit, in accordance with the proposed invention, are additionally introduced a motor winding temperature control unit that responds to the maximum allowable temperature excess, the input of which is connected to the output of the electromagnetic starter, and the output to the network analysis unit, and a light indication unit that is connected to the output of the insulation resistance control unit, which shows three levels of insulation resistance: high, admissibly lowered and low, by, respectively, because of the absence of light, flashing and constant light indicator light.

The introduction of a winding temperature control unit in the known device, which reacts to an unacceptable temperature increase, provides additional protection of the submersible electric motor at start-up. The specified block does not allow starting an electric motor that is in an overheated state. Such a situation can occur after a "dry run" or after several failed starts.

The motor winding temperature control unit in the protection device, as well as the insulation resistance control unit, works on the principle of resistance measurement before starting. At the same time, the insulation resistance control unit measures the resistance between the housing and the motor winding, responding to an unacceptable decrease in insulation resistance, and the temperature control unit measures the winding resistance between the phases of the electric motor, responding to an unacceptable increase in its 7/0 resistance due to heating. Since the resistance of copper windings with temperature is linear, the multiplicity of the increase in resistance can be judged by the multiplicity of the temperature increase.

The introduction of the winding temperature control unit allows starting the electric motor not a fixed number of times (2 starts per hour according to GOST 10428) regardless of its temperature state, but based on the fact of its actual temperature. Due to this, it is possible to reduce the duration of the electric motor in the 7/5 Off state and to start it immediately or with a short delay interval, as soon as the temperature of its windings drops to an acceptable level.

The input of the light indication unit, connected to the output of the insulation resistance control unit, which shows three levels of insulation resistance: high, admissibly lowered and low, respectively, by the absence of light, flashing and constant light of the indicator, allows the operator to easily and visually assess the level of insulation resistance 2 of the electric motor and make the necessary decision.

In fig. a block diagram of the protection device of the submersible electric motor of the water pump is presented.

The protection device of the submersible electric motor of the water pump (not shown in the figure) consists of a circuit breaker 1, a phase current control unit 2, an electromagnetic starter 3, a network analysis unit 4, a power supply unit 5, an executive unit b, an insulation resistance control unit 7, a processing unit signals 8, LOGIC control unit 9, indication and adjustment unit 10, timer 11, measuring transducers 12, winding temperature control unit 13 and electric motor 14. The insulation resistance control unit 7 is connected to the light indication unit 15, which shows three levels of resistance isolation Block b contains an executive relay that controls the winding of the electromagnetic starter 3, the contacts of which turn on and off the electric motor 14. The contacts of the starter Z are controlled by its winding (this connection is shown by a dashed line in the figure). The input of the circuit breaker 1 is connected to the network, and the output is connected to the network analysis unit 4, to the power supply unit 5, to the executive unit b and the phase current control unit 2. The inputs of the insulation resistance control unit 7 and ise) of the winding temperature control unit 13 are connected to the output of the electromagnetic starter 3, and the outputs of units 7 and 13 are connected to the input of the network analysis unit 4. The inputs of the signal processing unit 8 are connected to the outputs of the network analysis unit 4, the power supply unit 5 and the phase current control unit 2, and the outputs of block 8 are connected to the inputs of the me) logic block 9, timer 11, measuring transducers 12 and the display and setting block 10. The inputs of the logic block 9 are connected to the outputs of the signal processing block 8, timer 11, measuring converters 12 and the indication and adjustment unit 10, and the outputs of the unit 9 are connected to the inputs of the executive unit 6, the indication and adjustment unit 10. The inputs of the electromagnetic starter C are connected to the outputs of the phase current control unit 2 and the executive unit b, and the outputs of the kacha Z are connected to the electric motor 14. "

The light indication unit 15 by the absence of light, flashing or constant light shows three of the insulation resistance levels: high, admissibly low, and emergency low. If the insulation resistance exceeds 5 MΩm, then block 15 shows a high level of resistance, if the resistance is in the range from ZMOm to 0.5 MΩm, then block 15 ;" shows an admissibly low level of resistance, and if the insulation resistance is below 0.5 MΩ, then unit 15 shows an emergency low level of resistance.

The protection device of the submersible electric motor of the water pump works as follows.

Automatic switch 1 supplies power to network analysis unit 4 and power supply unit 5. At the same time, network analysis unit 4 receives signals from insulation resistance control unit 7 and winding temperature control unit 13. Units 7 and 13 supply constant voltages to the stator windings electric motor and measure the voltage drop, respectively, between the winding and the case and between the phases of the winding. The specified voltage drop is proportional to the Corresponding resistance.

Me, Information from the insulation resistance control unit 7 is sent to the light indication unit 15. If the insulation resistance o exceeds 5 MΩ, then the unit 15 shows a high level of resistance by the absence of illumination of the indicator of the unit 15.

If the resistance is in the range from ХХМОм to 0.5MoΩ, then the unit 15 shows an admissibly reduced level of insulation by flashing the indicator. If the insulation resistance is below 0.5 MΩ, the unit 15 shows an emergency low level of resistance by constantly lighting the indicator.

In the event of a decrease in the insulation resistance of the stator winding relative to the motor housing 14 or an increase

P of the temperature of this winding, which is registered by increasing its resistance to the maximum permissible value, the output signal from the network analysis unit 4 will be similar to the signal of the asymmetry of the supply voltages. From unit 4, the signal is sent through the signal processing unit 8 to the logic unit 9. From unit 5, power is supplied through the signal processing unit 8 to the logic unit 9, the timer 11 and to the measuring transducers 12. In the event that the appropriate signals are supplied to the logic unit 9 by the timer 11 or measuring transducers 12 (upper or lower level) and the absence of an emergency signal from unit 4 for 5-10 minutes (set by the display and adjustment unit 10), the logic unit 9 sends a signal to the executive relay of unit 6, after which the electromagnetic starter is activated

The phase current control unit 2 is included in the operation, the signal from which is sent through the signal processing unit 8 65 to the logic unit 9 and to the display and adjustment unit 10. The electric motor 14 is turned off in normal mode by the signals of the timer 11 or measuring transducers 12 (upper or lower level), and in emergency mode - by signals from blocks 4, 2 or 12 (namely, from the dry run measuring transducer).

The level of permissible phase currents is set by the display and setting unit 10 when setting up the protection device, and the recovery from starting currents is carried out by the signal processing unit 8. In the event of an emergency shutdown of the submersible electric motor 14, the protection device switches to network analysis mode, measuring insulation resistance and winding temperature and through the specified a period of time after the temperature drops to an acceptable level will try to turn on the electric motor again. Moreover, a permanent or periodic malfunction will reset the countdown of the given time interval. The number of possible unsuccessful starts in a row is set by the block 7/0 710. When the set number of unsuccessful starts in a row is reached, there will be no more attempts to start the electric motor 14, and the block 10 will issue an emergency signal.

The test mode is started by the button of the display and adjustment unit 10. At the same time, the analysis of the network, the measurement of the insulation resistance and the temperature of the stator winding of the electric motor is performed in 10-20 seconds, after which the self-check of the logic unit 9 is performed (if the self-check result is negative, the unit 10 will issue a signal /5 emergency) , the count of consecutive unsuccessful starts is reset and the electric motor is started.

Sources of information: 1. A.s. USSR Mo1302369, MKY НО2Н 7/08, 1985. 2. Grundulis A.O. Protection of electrical motors in agriculture. - 2nd ed., revised. and additional - M.:

Agropromizdat, 1988. - 111p. 3. Patent of Ukraine Mo40823 A (declaratory), IPC" nNOhn7/O8, 2001, application Mo2000063515, 15.08.2001, Byul.

Mo7 (prototype).

Claims (1)

The formula of the invention What I about I " Protection device for the submersible electric motor of the water pump, which contains an automatic switch, the input of which is connected to the network, and the output - to the power supply unit, the network analysis unit and the measuring unit, the electromagnetic starter, the output of which is connected to an electric motor, a measuring transducer of upper, lower levels and dry running, an insulation resistance control unit, the input of which is connected to the output of the electromagnetic starter, a network analysis unit, the inputs of which are connected to the outputs of the automatic circuit breaker and the output of the insulation resistance control unit, and the output - with the signal processing unit, the inputs of which are connected to the outputs of the x control unit, phase currents, the network analysis unit and the power supply unit, and the outputs - with the logic unit, the display and adjustment unit, the measuring converter and the timer, the input of which is connected connected to the signal processing unit, and the output - to the logic unit, which differs in that the motor winding temperature control unit is introduced, and, with respect to the reaction is for the maximum allowable temperature excess, the input of which is connected to the output of the electromagnetic ("From the starter, and the output is to the network analysis unit, and the light indication unit, which is connected to the output of the insulation resistance monitoring unit, which shows three levels of insulation resistance : high, admissibly lowered and low, by, respectively, absence of light, flashing and constant light of the indicator. " - and? (o) (95) 1 (o) (42) 60 b5