KR870002361Y1 - Detector of layer short - Google Patents

Abstract

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Description

Rare short detector

1 is an overall circuit diagram of the present invention.

Figure 2 is a state of use of the subject innovation device.

3 is a cover of the detector of the present invention

Figure 3 (a) is for use when testing windings with a recessed surface,

Figure 3 (b) is for use when testing windings with raised surfaces.

* Explanation of symbols for main parts of the drawings

2: OP amplifier 3, 3 ': Metal core

4, 4 ': coil BZ: buzzer

LED: Light emitting element 6: Sawtooth generator

C: Transmitter B: Detector

D: Detection part A: Cover of inserted detection part

B: Raised detector cover

The present invention relates to a rare short detection device that detects various short circuits of electrical devices having windings such as transformers, motors, or choke coils, and at the same time detects even the rare shorted areas.

Conventionally, when an electrical device having a winding is shorted due to poor insulation or moisture between the windings, there is no test method. Therefore, the operation state of the device was measured at the time of input current measurement or power input, and it was estimated whether or not the rare short. In addition to the problem of accuracy and reliability, the inspection method was unable to determine the location of the rare shorted part. Therefore, the repair had to unwind and rewind the entire winding, resulting in inefficient time and economics.

Therefore, in the case of an electric device having several separate windings, a signal having a predetermined frequency is applied while each winding is connected in series to detect a rare short circuit, and the signal is detected and analyzed for each winding. An interlayer short circuit detecting device (Japanese Patent Publication No. 57-8464) of an electric winding has been proposed in which a short circuit determines whether or not a short circuit is compared with a setting data device having reference data accumulated in advance. In order to apply the reference signal, it is troublesome to connect each winding in series so that it is necessary to pre-analyze the signal detected from each winding, which complicates the structure of the equipment. It is necessary to pay close attention to the task because it is necessary to input the reference data in advance. In addition to such a problem, such equipment can not only determine whether each winding is a rare short, but also can not determine which part of the winding is a rare short so it was not widely spread.

The present invention is to solve the problems that the conventional interlayer short circuit detection device is described in detail according to the accompanying drawings as follows.

A power supply circuit (A) is configured to step down the input AC power with a PT and rectify it as a bridge rectifier 1 to obtain a direct DC voltage as the capacitor C ₁ (C ₂ ). The input of 2) connects the detector B wound by winding the coil 4 to the metal core 3 and outputs the buzzer BZ and light emission by causing the TR 5 to be turned "ON" or "OFF". Transmitter (C) which causes the device (LED) to operate and the output of the saw toth wave generator 6 winding the coil 4 'to the metal core 3' via the TR 17 The power supply of the power supply circuit A is supplied to the OP amplifier 2, the sawtooth wave generator 6, the buzzer BZ and the light emitting element LED, and the detector is provided on one side of the main body G. And a transmitter to form a detector D, and the cover D may be selectively fitted with a recessed or raised cover.

In the drawings, reference numeral 7 denotes a capacitor for removing a ripple so that the power supplied to the buzzer BZ becomes a DC voltage, and 8 denotes a frequency that may occur between the sawtooth wave generators 6 of the OP amplifier 2. Capacitor for preventing interference due to occurrence, 9 is a variable resistor for adjusting the offset voltage so that the output voltage of the OP amplifier 2 is less than or equal to OV in the initial state of applying power. Switch.

According to the present invention, the power is first turned on and the variable resistor 9 is adjusted so that the output voltage of the OP amplifier 2 becomes "OV" or less, so that the TR (5) is turned off. The buzzer BZ and the light emitting device LED do not flow and do not operate.

On the other hand, the sawtooth wave generator 6 is oscillated by an applied power source and its output is applied to the TR 17 and amplified to a sufficient size, and then flows through the coil 4 'of the transmitter C. As the current flows in the waveform, a high induced voltage according to the narrow falling edge width of the sawtooth output oscillation voltage waveform is generated, thereby generating a magnetic field line in the air gap of the transmitter C core.

Therefore, this magnetic force line is transmitted to the core 3 of the detector B so that the signal voltage is induced in the coil 4.

In this initial stand-by state, it is a conductor by a complete open loop, so the signal voltage input to the OP amplifier 2 is minute and therefore cannot invert its output. Becomes

After the light emitting device (LED) is disturbed by adjusting the variable resistance as described above, the sensor cover of FIG. 3 (a) or the cover of the sensor of FIG. Select one and insert it into the detector of the body detector and the transmitter, and then close the winding of the object under test.

That is, if the winding of the object under test is in a normal state, each winding forms a kind of open loop in a state in which no power is applied, and as in the initial standby state, the magnetic force lines generated in the air gap of the transmitter C are detected by the detector (B). ), The OP amplifier 2 maintains the previous output state as it is, and the winding is normal when the buzzer (BZ) or the light emitting device (LED) is not operated. You will see that it has not been shorted.

On the contrary, if the winding is rare shorted, since a few of the rare shorted windings form a closed loop, the magnetic lines from the air gap of the transmitter (C) are detected through the rare shorted loop (B). It is effectively delivered to the coil, which is induced in the coil 4 to invert the output of the OP amplifier 2 to give a "+" output voltage.

Accordingly, the TR 5 is turned on so that a current flows through the buzzer BZ and the light emitting device LED, and thus, the alarm reminder indicates that the winding of the object under measurement is shorted by light emission.

In addition, in the case of investigating the occurrence of a rare short such as a motor or a franc having a large number of windings, in the present invention, a signal is detected by a narrow distance between the transmitter and the detector. It is also possible to find out if the shorted part is part of the winding.

The capacitor 7 of FIG. 1 reduces the pulsation of the output of the OP amplifier 2 when the buzzer is operated so that the buzzer sounds smoothly. If necessary, it is easy to carry by replacing the power supply circuit A with a small battery. Of course, it can be used more conveniently at the site or outdoor work.

In this way, the present invention can not only know whether the winding of the electrical equipment is rarely shorted, but also identify which part of the winding is in the rare short state, so that it can be conveniently used for the maintenance of various electrical equipments having the windings. In addition, it is possible to know the position of the shorted part accurately, so that only a part of the winding of the corresponding part needs to be replaced or re-wound, so that maintenance and repair can be quick, economical advantages, and the size or shape of the winding It is practical because it can be used without receiving, and the present invention is a useful design having a large effect that is easy to handle since it only needs to close the detection unit to the measurement object without wiring or other troublesome work.

Claims (2)

In the well-known thing which inputs the reference signal and the detected input signal to the OP amplifier 2, and the buzzer BZ and the light emitting element LED are driven by the output, the metal core 3 is input to the input of the OP amplifier 2; ) And the magnetic force line of the transmitter C having the coil 4 'and the metal core 3' connected to the output of the sawtooth generator 6, connected to the detector B of the coil 4 A LAYER SHORT detector, which is transmitted to the detector B so as to generate an output of the OP amplifier 2 connected thereto. 2. The rare shot according to claim 1, wherein a detector cover (B) having a contact surface recessed or containerd with a detector (D) having a detector (B) and a transmitter (C) can be selectively fitted. Detector.