KR19980056244U - Grounding point detection device of power line - Google Patents

Abstract

The grounding point is found on the power line to which AC power is input, so that the electronic device and the electric device can be grounded.

The ground voltage of the ground line, the two power lines, and the two power lines is selected as the ground point according to the user's operation, and the user can switch the switch to the ground line by alarming whether the ground point is selected correctly so that the user can select the ground point correctly. Select the midpoint voltage point of the two power lines and the two power lines as the ground point, and detect whether electromagnetic waves are generated at the selected ground point, and alarm when an electromagnetic wave is generated so that the user can confirm whether the ground point is set correctly. As a result, the user switches the switch to select the ground points one by one to determine whether an alarm occurs, and when the alarm does not occur, it is possible to determine that the ground point is set correctly.

Description

Ground point detection device of power line

The present invention relates to a grounding point detection apparatus for a power supply line that detects a grounding point in a power supply line to which an AC power source is input, thereby grounding various electronic devices and electrical devices.

In general, microwave ovens and washing machines, and various electronic devices and electrical devices using AC power supply are grounded to prevent damage from electric shocks and electromagnetic leakage by grounding the case.

However, in homes where electronic and electrical devices are used, there is no ground point to ground these devices.

Therefore, many users are connecting the case of the device to the water pipes and the like to ground.

As such, connecting the case of the device to a water pipe by using a connection line and grounding the wire has to be extended from the device to the water pipe, which causes the connection line to be exposed to the outside.

In recent years, 220V AC power is supplied to homes so that the ground wires can be connected together to ground the device to the ground wire of the power supply.

That is, the 220V AC power supplied to the home is a single-phase three-wire type having two power lines VL1 and VL3 and one ground line VL3, as shown in FIG. 1A, to the power lines VL1 and VL2. The voltage of 220V is supplied, and the voltage of 110V is supplied to the power supply line VL1 and the ground line VL3, and the power supply line VL2 and the ground line VL3, respectively.

When the electronic device and the electric device are connected to the ground line VL3, the device may be grounded to prevent damage caused by an electric shock accident and leakage of electromagnetic waves.

However, although AC power may be supplied to each home in the single-phase three-wire type described above, AC power may be supplied only by the power lines VL1 and VL2, not connected to the ground line VL3, and FIGS. 1B and FIG. As shown in FIG. 1C, one of the two power lines VL11 and VL12 and the VL21 and VL22 may be grounded to supply 110V or 220V AC power.

In addition, even if AC power is supplied to each household in a single-phase three-wire system, electrical work is often performed without extending the ground wire to the power outlet.

Therefore, when the equipment is grounded to the grounding point of the power line, the grounding point should be detected by accurately determining the input type of AC power.

As a technique for detecting a ground point in a power line, Utility Model Registration No. 7734 of Korea 1994 is known.

According to the conventional technology, one virtual ground point is set, the power difference between the virtual ground point and the two power lines is detected to determine the input type of AC power, and the two power sources are determined according to the determined AC power input type. The instrument was grounded by setting the midpoint voltage point of one or two of the lines to the ground point.

However, the conventional technology has a problem that it takes about 510sec time, high error rate, complicated circuit configuration, low productivity, high production cost, to detect the ground point in the power line.

In addition, when AC power is supplied in a single-phase three-wire type, it is preferable to ground the device to the ground wire. However, the conventional technology has a problem in that the device cannot be grounded to the ground wire because a means for selecting a ground wire is not provided.

Therefore, the purpose of the present invention is to select the ground voltage point of the ground line, two power lines and two power lines as the grounding point according to the user's operation, and to alert the user that the grounding point is correctly selected so that the user can select the grounding point correctly. It is to provide a ground point detection device.

In order to achieve the above object, the grounding point detecting apparatus of the power supply line of the present invention sets a midpoint voltage point of a grounding line, two power supply lines, or two power supply lines to a grounding point by switching a switch.

In addition, by detecting whether electromagnetic waves are generated at the set ground point and alarming when electromagnetic waves are generated, the user can confirm whether the ground point is set correctly.

Therefore, according to the present invention, it is possible to determine whether an alarm is generated while the user selects the ground points one by one by switching the switch, and when the alarm is not generated, it is possible to determine that the ground point is correctly set.

1A to 1C are views illustrating a form in which AC power is input.

Figure 2 is a front view showing a case of the ground point detection device of the power line of the present invention.

Figure 3 is a rear view showing a case of the ground point detection device of the power line of the present invention.

4 is an enlarged sectional view taken along the line A-A of FIG.

5 is a circuit diagram showing a ground point selection unit in the ground point detection device of the present invention.

Figure 6 is a circuit diagram showing an electromagnetic wave alarm in the ground point detection apparatus of the present invention.

Explanation of symbols on the main parts of the drawings

10: case body 11: selection switch

13, 14: power connection terminal 15: ground wire connection terminal

16 ground connection portion 17 electromagnetic shielding layer

21: grounding point setting unit 31: electromagnetic wave detection plate

32: waveform shaping part 33: amplifier

34: electromagnetic wave detection determination unit 35: alarm unit

Hereinafter, an apparatus for detecting a ground point of a power line of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 2 to 6.

Figure 2 is a front view showing a case of the grounding point detection device of the power line of the present invention, Figure 3 is a rear view of the case.

Here, reference numeral 10 denotes a case main body, and the main body 10 is provided with a selection switch 11, for example, a slide switch, for selecting a ground point in accordance with a user's operation.

The plug 12 is installed on the rear surface of the main body 10.

The plug 12 is provided with a power connection terminal 13 and 14 connected to a power terminal of a power outlet (not shown), as well as a known power plug, and a ground wire connected to the ground terminal of the power outlet. The connection terminal 15 is provided, and the lower portion of the main body 10 is provided with a ground connection portion 16 such as a jack to connect the ground terminal of the electronic device and the electrical device.

An inner surface of the main body 10 is coated with a conductive metal material to form an electromagnetic wave shielding layer 17 as shown in FIG. 4, and the electromagnetic wave shielding layer 17 is grounded to a ground point described later.

5 is a circuit diagram showing a ground point selector in the ground point detection apparatus of the present invention.

As shown therein, the ground point setting unit 21 sets the two power connection terminals 13 and 14 as the ground point and sets the midpoint voltage point of the two power connection terminals 13 and 14 as the ground point. And a selection switch 11 for selecting a ground point set by the ground line connecting terminal 15 or the ground point setting unit 21 as a ground point according to a user's operation.

The ground point setter 21 may include a selection terminal of the selection switch 11 through resistors R11 and R12 and capacitors C11 and C12 to which the power connection terminals 13 and 14 are connected in parallel, respectively. The resistors R13 and R14 are connected in series between the a12) and the a14 and a power supply connecting terminal 13 and 14, and the connection points of the resistors R13 and R14 are selected terminals of the selection switch 11 (a). a13).

Figure 6 is a circuit diagram showing an electromagnetic wave alarm in the ground point detection apparatus of the present invention.

As shown therein, an electromagnetic wave detection plate 31 for detecting electromagnetic waves generated at the ground point selected by the selection switch 11 and a waveform for limiting the amplitude of the detection signal of the electromagnetic wave detection plate 31 and removing negative electromagnetic waves. The shaping section 32, an amplifier 33 for amplifying the output signal of the waveform shaping section, an electromagnetic wave detection determining section 34 for judging the detection of electromagnetic waves with the output signal of the amplifier 33, and the electromagnetic wave detection determination It is comprised by the alarm part 35 which alerts when the part 34 determines detection of an electromagnetic wave.

In the waveform shaping unit 32, the electromagnetic wave detection plate 31 is connected to the input terminal of the amplifier 33 through the resistor R21, and the power supply Vcc is applied to the connection point through the reverse diode D21. In addition, the anode of the diode D22 is connected and the cathode of the diode D22 is grounded.

In the ground point detection device of the power line of the present invention configured as described above, when the plug 12 provided on the back of the case body 10 is inserted into the power outlet, the power terminal of the power outlet is connected to the power connection terminals 13 and 14. AC power is supplied and the ground terminal of the power outlet is connected to the ground wire connection terminal 15.

The power connection terminals 13 and 14, which are connected to the power terminal of the power outlet and supplied with AC power, are connected to the selection switch 11 through resistors R11 and R12 and capacitors C11 and C12 connected in parallel. The connection points of the resistors R13 and R14 respectively connected to the selection terminals a12 and a14 and detecting the midpoint voltage point of the AC power supplied to the power connection terminals 13 and 14 are connected to the selection switch 11. A ground line connecting terminal 15 connected to the selection terminal a13 and connected to the ground terminal of the power outlet is connected to the selection terminal a11 of the selection switch 11.

In this state, as the user switches the selection switch 11, the ground point of the power line is selected.

That is, when the movable terminal of the selector switch 11 is connected to the select terminal a11, the ground line connecting terminal 15 is selected as the ground point, and the movable terminal of the selector switch 11 is connected to the select terminal a12. In this case, the power connection terminal 13 is selected as the ground point, and when the movable terminal of the selector switch 11 is connected to the selection terminal a13, the midpoint voltage point of the power connection terminals 13 and 14 is selected as the ground point. When the movable terminal of the selection switch 11 is connected to the selection terminal a14, the power supply connection terminal 13 is selected as the ground point.

In this state, the electromagnetic wave detection plate 31 detects the electromagnetic wave generated at the selected ground point by switching the selection switch 11, and the detected electromagnetic wave passes through the resistor R21 of the waveform shaping unit 32, and then a diode. The upper limit level of the electromagnetic wave is limited by D21, and the negative electromagnetic wave is removed by the diode D22 and then input to the amplifier 33 and amplified.

The output signal of the amplifier 33 is input to the electromagnetic wave detection determining unit 34 to determine whether the electromagnetic wave is detected, and when the electromagnetic wave is detected, the alarm unit 35 is driven to alert the detection of the electromagnetic wave.

Therefore, the user can determine whether the ground point is correctly selected by the alarm of the alarm unit 35.

That is, when the alarm unit 35 of the electromagnetic wave alarm unit generates an alarm sound with the movable terminal of the selection switch 11 connected to the selection terminal a11 and the ground wire connection terminal 15 is selected as the ground point, the ground point may not be correctly selected. If the alarm unit 35 does not generate an alarm sound, the ground point is correctly selected.

The selector switch 11 is selectively connected to the selection terminals a12, a13, and a14 so that electromagnetic waves can be generated even when the power connection terminal 13, the midpoint voltage point of the AC power source and the power connection terminal 15 are selected as the ground point. When the alarm unit 35 of the alarm unit generates an alarm sound, the ground point is not selected correctly. When the alarm unit 35 does not generate an alarm sound, the ground point is correctly selected.

In addition, the present invention by coating a conductive metal material on the case body 10 to form an electromagnetic wave shielding layer 17, by connecting the electromagnetic wave blocking layer 17 to the selected ground point by switching the selection switch 11 to the case The electromagnetic wave generated in the main body 10 may be blocked.

As described above, the present invention detects a grounding point of a power line and connects an electronic device and an electrical device to the detected grounding point to ground, thereby preventing an electric shock that may occur when a user touches the case of the device. can do.

Claims (3)

Grounding point setting unit for setting the two power connection terminals to ground point and setting the midpoint voltage point of the two power connection terminals as the grounding point, and grounding point connecting terminal connected to the single-phase three-wire grounding wire or grounding point set by the grounding point setting unit And a selection switch which selects a ground point according to a user's operation, and an electromagnetic wave alarm unit which determines whether electromagnetic waves are generated at the ground point selected by the selection switch and alerts when an electromagnetic wave is generated. The grounding point detection apparatus of claim 1, wherein the selection switch and the electromagnetic wave alarm unit are embedded in the case body, and the case body is coated with an electromagnetic wave blocking layer and connected to the ground point. The electromagnetic wave detection unit according to claim 1 or 2, wherein the electromagnetic wave detection unit detects electromagnetic waves generated at the ground point selected by the selection switch, and waveform shaping for limiting the amplitude of the detection signal of the electromagnetic wave detection plate and removing negative electromagnetic waves. And an amplifier for amplifying the output signal of the waveform shaping unit, an electromagnetic wave detection determining unit for determining the detection of electromagnetic waves by the output signal of the amplifier, and an alarm unit for alarming when the electromagnetic wave detection determining unit determines the detection of electromagnetic waves. Grounding point detection device of the power line, characterized in that configured.