SU1651248A1 - Device for determination of location and extent of fault of bars of squirrel cage rotor of asynchronous motor - Google Patents

Description

The invention relates to a control and measuring technique and can

be used to determine the state of the squirrel cage rods of an induction motor. The aim of the invention is to improve the accuracy and simplification of the device. The device contains the first inductor 1 in

; as a U-shaped magnetic circuit with a winding 2, the second inductor 3, made similarly, with a winding 4, watts ·

l The invention relates to measuring technique and intended. but to determine the location of damage and the condition of short-circuited about: a coil of rotors of asynchronous motors such as squirrel cage.

The circuit of the invention - improving the accuracy of determining the location and extent of damage to the squirrel cage rotor rods of an induction motor, as well as simplifying the device

2

meter 5, the winding of which is connected in parallel to the winding 4, and the current winding - in series with the winding 2 and the power source, which is used as a source of power frequency voltage. Inductors 1 and 3 are applied to the rotor 6 of the engine above the test rod 7. The device highlights the active components of the current and losses in the rod, which characterize its state, and also allows you to determine the location of the defect on the rod. The presence of defects is determined by the testimony of a wattmeter 5.

In this case, the smaller the wattmeter 5, the more significant the defect. The invention improves the accuracy of control by using a wattmeter 5, which is properly connected, as a measuring device, and also simplifies the device by using a power supply voltage source as a power source.

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use as a power source voltage source of industrial frequency.

/ FIG. 1 shows the electrical circuit of the device; in fig. 2 is a graph of wattmeter readings versus rod number Ν, explaining the method for finding a defective rod.

The device contains the first inductor 1, made in the form of P-obra1651248 A1

3

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four

of the magnetic core with the exciting winding 2 wound on it, the second inductor 3, also made in the form of a U-shaped magnetic circuit with measuring winding 4 hidden on it, wattmeter 5, the voltage winding of which is connected between the first and second terminals of the measuring winding 4, and The current winding of the wattmeter 5 is connected in series with the excitation winding 2 and the power source (not indicated in the drawing), which is used as a power frequency voltage source. Inducers 15 and 1 are applied to the rotor 6 of the induction motor above the test rod 7.

The device works as follows. 20

Over each _; rod 7 squirrel cage rotor 6 sequentially install the inductors 1 and 3 and connect the device to a voltage source of industrial frequency. 25 The current 1p flowing through the winding 2 of the first inductor 1 creates a stream in its magnetic core, which covers the rod 7 and induces a current 1 ^ in it. This current in turn creates a magnetic flux in the magnetic core of the second inductor 3. Under the influence of magnetic flux in the winding 4, an EMF is generated. An operational rod 7 has the resistance, determined by the cross section and the specific resistance of the material. Poor quality of connection with the ring, closing all the rods, as well as the presence of damage in the form of ₄ θ cracks and ruptures increases the resistance of the rod, the more significant the malfunction. The resistance of a rod having a gap is approximately equal to infinity.

With a healthy rod 7, the current 1 ^ in the rod 7 is maximum, since the resistance of the specified rod is small, therefore, the current 1 is maximum ₍ and the magnetic flux in the magnetic core of the second inductor 3. Accordingly, the emf induced by the magnetic flux in the measuring winding 4 is also maximum.

If the rod 7 has a latent defect, then its active resistance to · 55 is greater than the resistance of a working rod, the current I flowing through the defective rod 7 decreases, with

this will be less magnetic flux in the winding 4. If the rod 7 has a break, then the current 1 ₂ and the EMF of the winding

4 are zero.

Thus, the more serious the defect of the rod 7, the greater its resistance, less current 1 ^, less EMF induced on the winding 4, which is reflected in the readings of the wattmeter 5.

The first inductor 1 with the exciting winding 2 and the rotor 7 rod 7 is essentially a current transformer, the number of turns of the primary winding is 400-600 times more than the number of turns of the secondary operating winding (rotor rod) .. This allows you to create currents 200-600 A in the controlled rod and identify defects that do not manifest at lower currents. The second inductor 3 with winding 4 provides a measurement of the amount of current flowing in the rod 7. Moreover, the greater the resistance of the rod 7 (the more significant defect), the less copper losses, characterizing the state of the rotor rod 6. and which are measured by the proposed device.

According to the results of the control of all rods, a schedule of indications is compiled. wattmeter 5 from the number of the rod P =

= £ (Ν). Zero wattmeter readings

5 indicate a rupture of the rod, the deviation of the wattmeter 5 from the average P__ by more than 50% in the direction of reduction indicates the presence of a defect in the rod, which can lead to rupture of the rod during operation. Moreover, what. less wattmeter readings, the more significant is the defect.

To find the place of the hidden defect inductors move along the entire length of the rod being tested. In the corresponding section of the rod, the wattmeter 5 will be minimal, which corresponds to the presence of a latent defect in this area.

The invention allows to increase the accuracy of determining the state of the squirrel cage rod, as well as to simplify the device compared to the known one by using the power frequency source of industrial frequency instead of the pulse generator in the known device as the power source.

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Claims (1)

Claims' device for determining the location and the degree of damage to the rotor squirrel cage rods of the induction motor, containing the first and second U-shaped inductors, respectively, with exciting and measuring windings applied to the rotor above the test rod, the first output of the exciting winding is connected to the first output of the power source, characterized in that 248 In order to improve the accuracy and simplify the device, a power meter is additionally inserted, the second output of the exciting winding is connected through the current winding of the power meter to the second output of the power source, the first output of the measuring winding is connected to the second output winding of the specified winding, and as the source power supply voltage source is used.