RU157281U1 - DEVICE FOR CONTROL OF HOUSING INSULATION OF ELECTRIC MACHINE WINDING - Google Patents

Abstract

A device for monitoring the housing insulation of windings of electrical machines, containing a power source and a measuring device, characterized in that it additionally contains an amplitude detector, a charging circuit of a first resistor and a diode, which is connected to a capacitor and through a second resistor with the first input of an amplitude detector, the second input of which connected to the minus of the power supply and the second plate of the capacitor, while the first input of the amplitude detector is the first output of the device, which is intended to be connected to current-carrying elements of electrical machines, the second input of the amplitude detector is the second output of the device, which is intended to be connected to the body of electrical machines, the output the amplitude detector is connected to the measuring device, and the power source is a single high-voltage pulse generator.

Description

The utility model relates to the field of technical diagnostics of electric machines and is intended to diagnose the state of the “case” insulation of the stator windings of electric motors and field windings of electric machines (EM).

Known devices for monitoring interturn insulation of the windings of electrical machines. For example, by A.S. USSR No. 1255965, according to the patent of the Russian Federation No. 2426139, decl. 04/28/2010. These devices check the interturn insulation, but do not control the housing insulation, that is, the insulation between the live parts (phase) and the mechanism body.

The closest analogue is a device containing a resistance meter (ohmmeter) and a stabilized DC power source. The measurement is carried out by connecting a resistance meter to the body and phase of the electric machine. See the Handbook on the adjustment of electrical installations and electrical automation, Kiev, "Naukova Dumka", 1972. P. 119.

This device allows you to measure the case insulation, but for its operation, a high-precision stabilized power source for 500, 1000 or 1500 V is required, which is not always possible under operational conditions. In addition, the accuracy of the measurement depends on many factors (power stability, accuracy of the measuring device, external mechanical stress, such as vibration). In addition, a high-voltage direct current source is unsafe and requires highly qualified professional service.

The task to which the proposed device is directed is to create a mobile, reliable, accurate, easy-to-use device for monitoring the casing insulation of EM windings.

This problem is solved in that, like the closest analogue, the device for monitoring the housing insulation of the windings of electrical machines contains a power source and a measuring device.

The difference is that it additionally contains an amplitude detector, a charging chain of the first resistor and diode, which is connected to the capacitor and. through the second resistor, with the first input of the amplitude detector, the second input of which is connected to the minus of the power source and the second capacitor plate, while the first input of the amplitude detector is the first output of the device, which is designed to connect to live parts of electrical machines, the second input of the amplitude detector is the second the output of the device, which is designed to be connected to the body of electrical machines, the output of the amplitude detector is connected to the measuring device, and the power source The company is a generator of single high-voltage pulses.

In FIG. 1 shows the proposed device. An apparatus for monitoring the insulation body EM coils comprises a power supply 1 and the measuring device - ohmmeter 2. The apparatus also comprises a charging resistor chain 3 of R ₁ and a diode D, is connected to the capacitor C, and a resistor R _2, the first input of the amplitude detector 4. This input is the first output of the device 5, which is designed to be connected to current-carrying elements of the EM - phases A, B or C. The second input of the amplitude detector 4 is connected to the negative of the power source 1, the second lining of the capacitor C and is the second output house 6 of the device, and is designed to connect to the EM housing. The power source 1 is a generator of high voltage (500-1500 V) pulses. Amplitude detector 4 (peak) detector can be performed as described in the book Nesterenko B.K., Integrated operational amplifiers, Moscow, Energoizdat, 1982, p. 88. The amplitude detector 4 monitors the amplitude of the input signal until the signal reaches its maximum value, which is stored at the output of the amplitude detector until the next pulse arrives. The load of the amplitude detector is a measuring device - an ohmmeter 2, which reflects the value of the measured resistance value of the housing insulation.

A device for monitoring the housing insulation of the windings EM works as follows.

Connect the device to the corresponding terminals of the measured device (EM). When you turn on the power source 1, which is a generator of high-voltage (500-1500 V) pulses, the capacitor C is charged from a single pulse. Then, the capacitor C is discharged in two parallel chains: amplitude detector 4 and the winding-casing circuit. In the event of a breakdown of the case insulation, the capacitor C quickly discharges, bypassing the amplitude detector 4, at the output of which an ohmmeter will show a zero value. In the case of intact housing insulation, the capacitor C is discharged through the amplitude detector 4, and the corresponding signal is reflected on the measuring device 2. The higher the housing insulation, the greater the current flows through the amplitude detector 4, and the greater the resistance value is indicated on the measuring device 2.

Thus, the proposed device for monitoring the casing insulation of the EM windings allows you to quickly, accurately and easily determine the casing insulation. The device is reliable, mobile and safe to use, and the reliability of diagnosis is increased by increasing the sensitivity of the device.

Claims (1)

A device for monitoring the housing insulation of the windings of electrical machines, containing a power source and a measuring device, characterized in that it further comprises an amplitude detector, a charging chain of a first resistor and a diode, which is connected to a capacitor and through a second resistor with a first input of the amplitude detector, the second input of which connected to the minus of the power source and the second lining of the capacitor, while the first input of the amplitude detector is the first output of the device, which is intended for voltage to the current-carrying elements of electric machines, the second input of the amplitude detector is the second output of the device, which is designed to connect to the body of electric machines, the output of the amplitude detector is connected to a measuring device, and the power source is a generator of single high-voltage pulses.

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