KR930005368Y1 - Ground checking system of dc power supply - Google Patents

Abstract

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Description

DC Power Ground Checking Device

1 is a circuit diagram of a DC power ground check device of the present invention and a wiring diagram of a DC power line.

2 is a state diagram for tracking the grounded feeder of the DC power line using the DC power ground check device and the clamp meter of the present invention.

3 is a flowchart when the ground current flowing through the DC power ground check device of the present invention is small in ground resistance.

4 is a flowchart when the ground current flowing through the DC power ground check device of the present invention has a large ground resistance.

* Explanation of symbols for main parts of the drawings

1-3: feeder of load 4: clamp meter

5, 6: resistance 7, 8: display lamp

9: variable resistor 10: current meter

11: switch 100: DC power ground check device

P, N: DC power terminal

The present invention relates to a DC power ground presence check device in a DC power supply, and more specifically, it is possible to track a feed line of a grounded DC power line in a live state when a ground occurs in a DC power line used in each factory. The present invention relates to a DC power ground check device.

Typically a power supply that generates a regulated direct current load from an alternating current power supply has a converter that is suitable for connecting to an alternating current power supply and has input terminals and output terminals for load connection.

Such a transducer may be one of the prior art, ranging from a three phase transducer to a single phase transducer.

Whichever is selected, the converter has a switch, such as a silicon controlled rectifier (SCR), which rectifies the alternating current and supplies a direct current load to the output when the switch is properly regulated and conducting.

Controlled by the firing signals of the control circuit of energization of the switch.

The method for generating the firing signal is based on generating a signal representing an AC power source as an input voltage, comparing the signal with a reference signal, and generating the firing signal according to a predetermined correlation existing therebetween.

The user can then effectively control the generation of the firing signals by controlling the reference signal.

As described above, in case of a DC power grounding accident in a DC power supply which converts AC power into DC power by controlling the reference signal, in order to solve this problem, the main system power is generally turned off (OFF) and then the individual feeder Separately, the ground line was traced by a multi tester or a megger tester.

Therefore, in the case of the DC power grounding accident, the main system power is cut off for the accident repair of the DC power device which is used as the most control, monitoring, and static eliminator power in the factory, causing a serious problem in operation.

The present invention has been devised to solve the above-described problems, the object of the present invention is to trace the grounded feeder in the live state without interrupting the main system power in case of a ground accident of the DC power line used in each factory It is to provide DC power ground check device that can shorten maintenance time and stabilize operation of related equipment by promptly rectifying accident handling.

The present invention is connected to each terminal of the DC power line in series by connecting a lamp having a large value to each terminal of the DC power line and the presence or absence of grounding of the DC power line in order to achieve the above object. A direct current (DC) configured to install a switch, to connect a current meter for monitoring the ground current and a variable resistor for adjusting the ground current in series, and to connect one side of each lamp and the variable resistor to a common ground point. The switch is connected to one terminal of the DC power supply connected to an unlit lamp of the lamp when grounding of the DC power supply line is performed by using a clamp meter for checking each feeder line connected to the DC power supply line. Connect and check each feeder with the clamp meter to find grounded feeder Characterized in that the rock.

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

Referring to FIG. 1, a power supply line (1), (2), (3) for transmitting the power of the DC power line to a plurality of loads is connected to the DC power line, and the DC power line is connected to the DC power line through the terminal P (N). The power ground check device 100 is connected.

Here, the DC power ground check device 100 is connected in series with the resistance (5) and the lamp (7) of the large value connected in series to the terminal (P) of the DC power line, and the terminal (N) of the DC power line A large value resistor 6 and a lamp 8, a switch 11 connectable to a terminal P of the DC power line N, and a current meter 10 connected in series to the switch 11. ) And a variable resistor (9).

On the other hand, one side of the lamp (7), (8) and the variable resistor (9) is connected to a common ground point, the terminal of the switch 11 has an off terminal in addition to the terminal (P) (N).

The lamps 7 and 8 are identical to each other and the resistors 5 and 6 respectively connected to the lamps 7 and 8 are also identical to each other.

In this configuration of the present invention, in the case where the ground is not generated in the feed lines 1, 2, and 3 of each load connected to the DC power line while the switch 11 is placed in the OFF terminal, the DC Each current flowing through the P-phase lamp 7 and the N-phase lamp 8 connected to the terminals P and N of the power line, respectively, is the same so that the lighting brightness of the lamps 7 and 8 is the same. Done.

That is, when the input voltage of the DC power line is 110 volts, the voltage across the P-phase lamp 7 and resistor 5 connected to the terminal P of the DC power line is 55 volts, The voltage across the N-phase lamp 8 connected to the terminal N of the DC power line and the resistor 6 is also equal to 55 volts.

On the other hand, as shown in FIG. 2, when the P phase of the feeder line 3 connected to the terminal P of the DC power supply line among the feeder lines 1, 2, and 3 of FIG. There is no current flowing through the phase 7 lamp and the resistor 5 so that the phase 7 lamp 7 is extinguished, and the input voltage of the DC power line is applied across the N phase lamp 8 and the resistor 6. Since all of them are caught, the N phase lamp 8 is brighter.

That is, when the input voltage of the DC power line is 110 volts (V), the voltage across the P-phase lamp 7 and resistor 5 connected to the terminal P of the DC power line is 0 volts, The voltage across the N-phase lamp 8 and resistor 6 connected to the terminal N of the DC power line is 110 volts.

Therefore, when the P phase of the feed line 3 connected to the DC power line is grounded, the P phase lamp 7 is turned off in the lit state, and the N phase lamp 8 is kept in the lit state. It can be seen visually that the power line is grounded and the N-phase DC power line is not grounded.

Subsequently, in order to track the grounded power supply line, the switch 11 is continuously turned on instead of turning on the terminal 11 of the DC power line connected to the P-phase lamp 7 which is turned off. The switch 11 is turned on at the terminal N of the DC power line to which the N-phase lamp 8 is connected.

Then, the resistance value of the variable resistor 9 is varied to set the current represented by the current meter 10 to be about 1A.

Here 1A is a current value that can be sufficiently detected by the DC clamp meter (4).

Then measure the current one by one using the DC clamp meter (4), but measure the P and N phases simultaneously.

At this time, in the normal feed lines 1 and 2 that are not grounded, the current of the P phase and the N phase of the current are offset by the same current value and the directions of the currents are reversed, so that no current is detected in the DC clamp meter 4.

On the other hand, in the grounded abnormal feed line 3, the current of the P-phase current and the N-phase current are different from each other so that a current is detected in the DC clamp meter 4.

On the other hand, as shown in FIG. 3, when the grounding resistance of the grounded abnormal feed line 3 is small, the ground current I _G of the grounded feed line 3 is lowered from the lamp 7 at the ground point of the feed line 3. ), And then to the common ground point of (8), followed by the current direction 12 of the N phase of the switch 11, and the current direction 13 of the lamp 8 and the resistor 6 of the N phase, respectively.

At this time, since both ends of the P-phase lamp 7 are grounded, no current flows, while the current I 1 flowing across the N-phase lamp 8 is

Becomes

If the resistance of the lamps 7 and 8 is 162 kV and the resistances of the resistors 5 and 6 are 1.3 kΩ, Becomes

Thus, the earth current (I _G) is _G = I + N set current value (I _G) on the ramp (8) because the current value of the ground current current meter (10) is I = G = 1A + 75.4mA ≒ 1.075A is do.

Therefore, in the present invention, when the ground current is checked, the current value of 1A set to the current meter 10 by using the variable resistor 9 is a current value that can be sufficiently sensed by the DC clamp meta 4. There is no difficulty for the DC clamp meter 4 to track a large ground current of 1.075A.

As shown in FIG. 4, when the grounding resistance of the grounded abnormal load line 3 is large, the current value that can be detected at least by the DC clamp meter 4 is about 0.2A, and both ends of the P phase and the N phase Resistance value R to be 0.2A at 110V voltage, Becomes

Therefore, ground resistance (R _G ) is 550 In the following case, the ground current I _G is greater than 0.2 A, which is the minimum sensed current value of the DC clamp meter 4, so that the grounding point of the feeder can be traced by the check device of the present invention.

At this time, the variable resistor 9 is assumed to be a zero resistance.

Therefore, the ground current flows through the ground resistance R _G of the feed line 3 to the common ground point of the lamps 7 and 8, and then almost in the current direction 15 of the N phase of the switch 11. While flowing, almost no current flows in the N-phase lamp 8 and the resistance 6.

In addition, when the DC clamp meter (4) is used with a precision meter, that is, a mA measuring meter, it is possible to check the ground resistance (R _G ) of a larger resistance value.

For example, if you use a DC clamp meter (4) that can measure up to 1 mA R _G 110k If it is possible to check with the check device of the present invention.

As described above, the DC power ground check device of the present invention finds and copes with the grounding point of the feeder line quickly and safely in live state without interrupting the main power system when the DC power line grounding used in each plant's facility line occurs. It has an excellent effect to reduce maintenance time and stabilize operation of related equipment.

Claims (1)

Connect a large value of resistors (5) and (6) to each terminal (P) (N) of the DC power line and lamps (7) and (8) for checking the grounded phase of the DC power line in series. And a switch 11 connectable to each terminal (P) (N) of the DC power line, the current meter (10) for monitoring the ground current in the switch 11 and for adjusting the ground current While connecting the variable resistor (9) in series, the feed line of each load is configured to connect one side of each of the lamp (7), (8) and the variable resistor (9) to a common ground point ( 1), (2) and (3) are used together with the clamp meter (4) to check and when connected to the lamp (8) of the lamp (7), (8) out of the lamp when the ground of the DC power line occurs The switch 11 is connected to one end N of the DC power supply, and each of the feed lines 1, 2, and 3 is checked by the clamp meter 4 to make it live. DC power supply ground checking apparatus characterized in that it naedorok find the ground power supply line (3).