KR100202599B1 - Overcurrent protection of inductive motor - Google Patents

Abstract

In the over-current protection device of the induction motor of the present invention, the over-current protection device of the induction motor comprising a converter for rectifying and converting commercial AC power to direct current, and converts the converted direct current value to a desired frequency and voltage, wherein A current detector connected to the positive side of the direct current to detect current, and a current sensor connected to the output side of the converter to detect the current through the signal combination with the output of the current detector to determine the cause of the occurrence of overcurrent; It is configured to protect the inverter and the motor at the same time by suppressing the overcurrent, and it is effective to identify the cause of the overcurrent and take appropriate measures.

Description

Induction motor overcurrent protection device

The present invention relates to an induction motor, and more particularly to an overcurrent protection device of the induction motor.

1 shows a conventional induction motor control apparatus, comprising a three-phase power source 1, a rectifier 2 for rectifying the three-phase power source, and a filter for removing pulsation of the rectified power source. (3), a current detector (4) connected to the filter (3) side for detecting a current, and a switching element (5) constituting an inverter for turning on or off to drive the motor (11). 10) and a control unit 12 for controlling the on / off of the switching elements to change the DC value rectified from the filter into an AC voltage and a frequency port to drive the motor at a desired frequency.

The induction motor as described above may be damaged due to an overcurrent flowing into the inverter or the motor. The induction motor may be classified into three types as follows.

The first is an arm short, the upper and lower one-stage switching elements are turned on at the same time, the high-voltage DC voltage is applied to the upper and lower two switching elements, and the short circuit causes a tremendous overcurrent to flow. As an overcurrent flowing from the ground to the ground, this also causes damage to the inverter, and finally, the set material is an output short-circuit current, in which the unbutter and the motor are fatally damaged by the current flowing through the inverter and the motor.

In the conventional case, in order to prevent damage of the inverter and the motor due to such overcurrent, the current detector 4 is connected to the negative site ⓐ as shown in FIG. 1 to detect the current flowing to the negative side. As illustrated in FIG. 2, the detection result of the current detector 4 was determined by the controller 21 of the controller in comparison with the reference value.

If an abnormality occurs according to the determination result of the determiner 21, the operation of the pulse width variation controller 15 is stopped, an abnormality is displayed through the input / output unit 24, and the current flowing through the inverter and the motor. To protect the inverter.

However, since the overcurrent protection method of the induction motor connecting the current detector to the conventional negative site as described above detects only the overcurrent flowing to the negative side as described above, the positive side cannot be judged, and only the high current is displayed. There was a problem that the proper action is impossible because it is not known whether the overcurrent flows as a cause.

Accordingly, an object of the present invention, in order to solve the above problems by detecting the current directly in the switching element to suppress the overcurrent to protect the inverter and the motor at the same time and to determine the cause of the overcurrent overcurrent of the induction motor that can take appropriate measures To provide protection.

1 is a circuit diagram of an overcurrent protection device of an induction motor according to the prior art.

2 is a detailed connection diagram of the current detector and the control unit of FIG.

3 is a circuit diagram of an overcurrent protection device for an induction motor according to the present invention.

4 is a conceptual diagram of overcurrent detection and protection of an overcurrent protection device for an induction motor according to the present invention.

5 is a detailed connection diagram of the current sensor and the controller of FIG.

* Explanation of symbols for the main parts of the drawings

104 109: current detector 110: current sensor

120: control unit

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

The overcurrent protection device of the induction motor according to the present invention includes a current detector 104 directly at each switching element as shown in FIG. 109) and a current sensor 110 for detecting an output short circuit between the motor connection point, that is, each connection point (a, b, c) of the switching small pair connected to the power supply of the single phase and the motor 111. As shown in FIG. 4, the current flowing through the path A (one dashed line), the current flowing through the B path (the thick solid line), and the current flowing through the C path (the thick dotted line) are detected so that the overcurrent can be recognized by type. do.

More specifically, referring to FIG. 5, a combination of signals output through the current detector 200 connected to the positive site, the current detector 200 ′ connected to the negative site, and the current sensor 110 is used. A combination of X, Y, and Z determines whether the determiner 121 is normal, ground fault, short circuit, or dark short.

That is, in case of over current, if the abnormal signal output is 0, the combination of X, Y, and Z is 1 1 1 is normal, 0 0 1 is ground fault, 0 0 0 is output terminal, and 0 1 0 is dark short. All.

The process for blocking the overcurrent is from detection to shutdown 6 All operations must be performed within sec, so all operations must be done by the switching element and by hardware rather than by the line.

In addition, when the current detector is connected to the negative site and the positive site except the current sensor, three types of overcurrent can be determined by the combination of X and Y. In this case, 1 1 is normal and 0 1 is the hem, 0 0 means dark short or output short.

In addition, the current detector may be directly connected only to the switching element on the positive side, since the detection speed may be slow at the negative and may be detected at one place without detecting each of the three switching elements.

On the other hand, the combination of X, Y, Z is input to the microcomputer in addition to the determiner 121, when detecting the abnormality, the signal is not applied to the inverter and the motor through the pulse width modulation control unit 122 and at the same time input and output unit In 124, the user may indicate whether there is an abnormality and the type of overcurrent so that appropriate measures may be performed.

As described above, according to the present invention, by detecting the direct current in the switching element, the overcurrent is suppressed to protect the inverter and the motor at the same time, and it is possible to determine the cause of the overcurrent and take appropriate measures.

Claims (5)

An overcurrent protection device of an induction motor, comprising: a rectifier for rectifying a commercial AC power source into a direct current, and converting the changed direct current value into a desired frequency and voltage. An overcurrent protection device of an induction motor, comprising a detector and a current sensor connected to an output side of the converter to detect a current to determine a cause of an overcurrent through a signal combination with an output of the current detector. . The induction motor according to claim 1, wherein the current detector is also connected to the DC negative side, and the output is configured to determine the cause of the overcurrent through a signal combination with the output of the current detector and the current sensor connected to the positive side. Overcurrent protection device. The overcurrent protection device of claim 1, wherein the overcurrent protection device of the induction motor includes an input / output unit capable of displaying a cause of the overcurrent generation. An overcurrent protection device of an induction motor, comprising: a rectifier for rectifying and converting a commercial AC power source into a direct current, and converting the converted direct current value into a desired frequency and voltage. A first current detector and a second current detector connected to the negative side of the direct current to detect a current to determine a cause of the overcurrent through a combination of signals with the first current detector; Induction motor overcurrent protection device. The overcurrent protection device of claim 4, wherein the overcurrent protection device of the induction motor includes an input / output unit capable of displaying the occurrence and cause of the overcurrent.