RU121939U1 - MOTOR INSULATION CONTROL DEVICE - Google Patents

Abstract

A device for monitoring the insulation of an electric motor, containing parameter sensors, a module for generating voltage and current signals, means for supplying cooling air, a module for on-line monitoring of partial discharges (PD), a module for generating temperature signals, an industrial computer (PC) and sensors for PD, high-frequency PD signal , temperature of copper, steel and cooling air of the electric motor, current and voltage transformers, while the output of the PD sensor is connected to the first input of the on-line PD control module, the output of the high-frequency PD signal sensor is connected to the second input, the output of the on-line PD control module is connected to the first PC input, the outputs of the copper and steel temperature sensors are connected to the first input of the temperature signal generation module, the cooling air sensor output is connected to the second input, the temperature signal generation module output is connected to the second PC input, to the first and second inputs of the voltage and current signal generation module the stator winding is connected electr motor through voltage and current transformers, the outputs of voltage and current sensors of the electric motor are connected to the third and fourth inputs, the output of the voltage and current signal generation module is connected to the third input of the PC, characterized in that the device includes a vibration sensor of the electric motor and a vibration level meter, and the input the vibration sensor is connected to the motor housing, and its output is connected to the input of the vibration meter, the output of which is connected to the fourth input of the PC.

Description

The utility model “Device for monitoring the insulation of the electric motor” relates to electrical engineering, and more particularly, to the diagnosis of the state of insulation of electric motors and can be used at industrial enterprises in order to reduce the emergency conditions of engines, for example, at compressor stations of the main gas pipeline.

The rules for operating gas pipelines regulate the monitoring of the operability, reliability and safety of compressor station equipment (CS) using technical and software tools for monitoring and diagnostics. They must, with the required reliability, evaluate the technical condition of the equipment of the compressor station and predict its change no less than the period before the next measurement. Installation of monitoring and diagnostic systems should be provided during new construction and renovation of the compressor stations, as well as in the process of modernization of the operating compressor stations. The fully functional systems put into operation should ensure operation taking into account the real actual state of each type, type and specific object of the diagnosed equipment.

A device for monitoring the insulation of an electric motor (patent for a utility model of the Russian Federation 91631 G01R 31/12 publ. 02.20.2010), which is the prototype of this utility model. This device contains parameter sensors, a module for generating voltage and current signals, means for supplying cooling air, a module for monitoring partial discharges (PD), a module for generating temperature signals, an industrial computer (PC) and sensors for PD, a high-frequency signal for PD, copper temperature, steel and cooling air of the electric motor (ED), current and voltage transformers, while the output of the PD sensor is connected to the first input of the on-line control module of the PD, the output of the sensor of the high-frequency signal of the PD is connected to the second input, the output of the on-line control module of the PD is connected to the first PC input, the outputs of the copper and steel temperature sensors are connected to the first input of the temperature signal generation module, the output of the ED cooling air sensor is connected to the second input, the output of the temperature signal generation module is connected to the second PC input, to the first and second inputs of the voltage and current signal generation module are connected to the stator winding of the ED through voltage and current transformers, the outputs of the voltage and current sensors of the ED are connected to the third and fourth inputs, the output d module generating voltage and current signals is connected to the third input of the PC.

However, this system does not take into account the influence of mechanical factors on the operation of the ED, the main of which is the level of vibration, which reduces reliability, does not allow analyzing the operating modes of the ED, does not provide the functions of automatic control, monitoring and protection of the ED.

The problem to be solved from the use of a utility model is to ensure long-term trouble-free operation of the ED.

EFFECT: energy efficiency and safe operation of complex and expensive technological equipment with ED.

The specified result is achieved by the fact that in the device for controlling the insulation of the ED, containing parameter sensors, a module for generating voltage and current signals, means for supplying cooling air ED, an on-line control module for PD, a module for generating temperature signals, PCs and sensors for PD, a high-frequency signal of PD , temperature of copper, steel and cooling air ED, current and voltage transformers, while the output of the PD sensor is connected to the first input of the on-line control module of the PD, the output of the sensor of the high-frequency signal of the PD is connected to the second input, the output of the on-line control module of the PD is connected to the first PC input, the outputs of the copper and steel temperature sensors are connected to the first input of the temperature signal generation module, the output of the cooling air sensor is connected to the second input, the output of the temperature signal generation module is connected to the second PC input, to the first and the second inputs of the voltage and current signal generation module are connected to the stator winding of the ED through voltage and current transformers, the outputs of the voltage and current sensors of the ED are connected to the third and fourth inputs, the output the voltage and current signal generation module is connected to the third input of the PC, an ED vibration sensor and a vibration level meter are introduced, moreover, the vibration sensor input is connected to the ED case, and its output is with the vibration meter input, the output of which is connected to the fourth PC input.

The insulation control device for ED contains an electric motor 1, parameter sensors, a module for generating voltage and current signals 2, means for supplying cooling air, an on-line module for monitoring partial discharges 3, a module for generating temperature signals 4, an industrial computer 5, and sensors for partial discharges 6, high-frequency the signal of the PD 7, the temperature of copper, steel and cooling air of the electric motor, current transformers 8 and voltage 9, a vibration sensor 10 and a vibration level meter 11. The output of the PD 7 sensor is connected to the first input to the on-line control module of the PD 3. The output of the high-frequency signal sensor of the PD is connected to the second input 7. The output of the on-line control module of the PD is connected to the first input of PC 5. The outputs of the copper and steel temperature sensors are connected to the first input of the temperature signal generation module 4 The output of the ED cooling air sensor is connected to the second input. The output of the temperature signal generation module 4 is connected to the second input of PC 5. The first and second input of the voltage and current signal generation module 2 are connected to the stator winding of ED 1 through voltage transformers 9 and current 8. The outputs of the voltage and current sensors ED are connected to the third and fourth input . The output of the module for generating voltage and current signals 2 is connected to the third input of PC 5. The housing 1 is connected to the input of the vibration sensor 10, the output of which is connected to the input of the vibration level meter 11. The output of the vibration level meter 11 is connected to the fourth input of the PC 5.

The device operates as follows: at the first stage, the condition is checked under which the steel temperature should be higher than the copper temperature, the signals of copper temperature, steel temperature, and temperature of the cooled air come from sensors located inside the ED to the module for generating signals of the temperature of copper, steel and cooled air 4 If the copper temperature is higher, the following condition is whether the current value of the copper temperature exceeds the value of the previous measurement for the set integration period. PC 5 determines the trend of increasing temperature. If this trend is observed, then an analysis of other factors is carried out to determine the causes of heating. First of all, the analysis of the current load is carried out taking into account the thermal inertia of the winding. If the reason for the increase in copper temperature is associated with an increase in current, the algorithm checks if the increase in current is not connected with a decrease in the supply voltage. Next, the condition of exceeding the current values of the vibration level from the meter 11 over the boundary normative values corresponding to the operating rules of ED 1 is checked.

The signals of the voltages and currents of the network and the ED are fed to the module for generating signals of current and voltage 2 through transformers 8 and 9 of current and voltage, respectively.

Using the on-line control module of the PD 3, signals of the magnitude of the current generated by the PD and the magnitude of the electromagnetic pulse from the discharge of the PD are received, the state of high-voltage insulation is monitored.

If the reason for the increase in current is not related to the supply voltage, the next step is to check the increase in the power consumption of the ED, which is calculated by the PC. The cycle of monitoring the trends of changes in parameters is closed at a certain value when the temperature of the cooling air exceeds the temperature of the winding, after which an alarm is issued. When determining the tendency for the temperature in steel to exceed the temperature in copper, the algorithm determines the cause of the heating. If a discrepancy is found between the established algorithms and the conditions for the interaction of parameters, a warning is issued about a malfunction in the cooling system.

Similar algorithms have been developed for other parameters of monitoring the stator winding of the electric motor and vibration levels of the case, which are processed by the PC.

Claims (1)

A device for monitoring the insulation of an electric motor, containing parameter sensors, a module for generating voltage and current signals, means for supplying cooling air, an on-line control module for partial discharges (PD), a module for generating temperature signals, an industrial computer (PC), and sensors for PD, a high-frequency signal of PD temperature of copper, steel and cooling air of the electric motor, current and voltage transformers, while the output of the PD sensor is connected to the first input of the on-line control module of the PD, the sensor output is connected to the second input and the high-frequency signal of the PD, the output of the on-line control module of the PD is connected to the first PC input, the outputs of the copper and steel temperature sensors are connected to the first input of the temperature signal generation module, the output of the cooling air sensor is connected to the second input, the output of the temperature signal generation module is connected to the second PC input, the stator winding of the electric motor through voltage and current transformers is connected to the first and second inputs of the voltage and current signal generation module, to the third and fourth inputs are connected these are the outputs of the voltage and current sensors of the electric motor, the output of the voltage and current signal generation module is connected to the third input of the PC, characterized in that the device includes a vibration sensor of the electric motor and a vibration level meter, the input of the vibration sensor being connected to the motor housing and its output connected to the input of the vibration meter, the output of which is connected to the fourth input of the PC.