JPH0564783U - Ground fault detector - Google Patents

Abstract

(57) [Abstract] [Purpose] To accurately detect the ground fault of at least one of a pair of lines connecting the switch and the control panel. [Structure] Line L1 connected to push button switch S1
a and L1b are connected to a first DC power supply 21, and a second DC power supply 22 is connected in series with the DC power supply 21. Keep connected. Therefore, when at least one of the lines L1a and L1b is grounded, the detection resistor R0
A current flows in a fixed direction. This makes the line L
Even if both 1a and L1b have a ground fault, they can be detected.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 INDUSTRIAL APPLICABILITY The present invention is suitable for a switch input device in which a power supply line, a switch connected to the power supply line, and an input circuit for determining whether or not the switch is operated are arranged apart from each other via a pair of lines. The present invention relates to a ground fault detection device.

[0002]

[Prior Art]

 In a switch input device in which a switch and an input circuit for discriminating whether or not the switch is operated are arranged apart from each other through a pair of lines, a ground fault of the line causes an abnormality in discriminating a switching state. May occur. For example, in a fire extinguisher that extinguishes carbon dioxide gas from a container provided in a predetermined fireproof compartment by releasing it into the fireproof compartment, a container valve that releases the carbon dioxide gas in the container into the fireproof compartment is opened / closed. The control panel to be controlled is connected through a pair of lines to a manual starter or the like housed in an operation box arranged away from the control panel, and when the manual starter is operated, the carbon dioxide gas is discharged. With the configuration that discharges, the discharge may be erroneously performed due to the ground fault of the above line.

FIG. 4 is an electric circuit diagram of the switch input device 1 including a general ground fault detection circuit. Lines k1 and k2 from the control panel 2 are drawn into an operation box 3 arranged at a position apart from the control panel 2, and a push button switch 4 connected in series between these lines k1 and k2. Are connected. A discriminating circuit 5 in the control panel 2 discriminates whether or not the push button switch 4 is conducted, and drives a load 6 such as an electromagnetic solenoid for driving the container valve in accordance with the discriminated result.

In the control panel 2, the discrimination circuit 5 is interposed in the line k2, and the voltage of the DC power supply 7 is applied to the line k1. Further, in order to detect the ground fault, resistors r1 and r2, which have the same resistance value and are connected in series, are interposed between the terminals of the DC power supply 7, and the connection point 8 thereof is It is grounded via the control panel 2 etc. The voltage between the terminals of the resistors r1 and r2 is detected by the voltage detecting means v1 and v2, respectively.

Therefore, for example, at the time of maintenance and inspection of the control panel 2, if the line k1 comes into contact with the control panel 2 to cause a ground fault, a current flows through the path indicated by reference numeral α1. That is, direct current power supply 7-line k1-ground fault resistance rX to control panel 2-connection point 8-resistor r2-Current flows in the path of direct current power supply 7 and voltage between terminals of resistance r2 changes. Thus, the ground fault on the line k1 can be detected.

Similarly, when the line k2 is ground-faulted, as indicated by the reference symbol α2, the DC power supply 7-the resistor r1-the connection point 8-the ground fault resistance rY to the control panel 2-the line k2-the discrimination circuit 5 -A current flows in the path of the DC power supply 7, and the voltage detecting means v1 detects the voltage change between the terminals of the resistor r1. Therefore, the ground fault of the line k2 can be detected. In this way, the ground fault of the lines k1 and k2 can be detected. Based on the detection result, the discrimination circuit 5 stops driving the load 6.

[0007]

[Problems to be solved by the device]

 In the above-described configuration, it is possible to detect that one of the lines k1 and k2 is ground-faulted, but when both the pair of lines k1 and k2 are ground-faulted, the current flowing into the connection point 8 is Since the directions are opposite to each other, they are canceled at the connection point 8, and the voltage detection means v1 and v2 cannot detect the voltage change due to the ground fault as described above, resulting in detection failure. At this time, the lines k1 and k2 are both grounded and short-circuited. Therefore, the current flows as indicated by the reference symbol α3, and the push button switch 4 becomes the same as in the conducting state. I will end up.

An object of the present invention is to provide a ground fault detection device capable of reliably detecting a ground fault of a pair of lines used in association with each other.

[0009]

The present invention is a device for detecting a ground fault of a pair of lines used in association with each other, and a first DC power supply connected between the lines. A second DC power supply connected in series to the first DC power supply, and an electrode of the second DC power supply opposite to the electrode connected to the first DC power supply is connected to ground potential And a detection unit that performs a ground fault detection based on a voltage between terminals of the detection resistor.

[0010]

[Action]

 According to the present invention, a first DC power supply is connected between a pair of lines used in relation to each other, such as a connection between a control device and a switch arranged apart from the control device. There is. A second DC power supply is also connected in series to the first DC power supply, and an electrode of the second DC power supply opposite to the electrode connected to the first DC power supply is detected. It is connected to the ground potential via a resistance for use.

Therefore, when at least one of the pair of lines is ground-faulted, the current from the first or second DC power source to which each line is connected is connected to the detection resistor grounded from these lines. Return to each power supply via. Therefore, the ground fault of the line can be detected by detecting the voltage across the terminals of the detection resistor by the detection means such as a voltmeter. Further, even if the pair of lines are both ground-faulted, the current flowing to the ground potential through these lines is added to the detection resistor and flows, whereby at least one of the lines is grounded. It is possible to accurately detect that the connection has occurred.

[0012]

【Example】

 FIG. 1 is an electric circuit diagram of a fire extinguisher 11 including a ground fault detection circuit according to an embodiment of the present invention, and FIG. 2 is a block diagram showing the configuration of the fire extinguisher 11. A plurality of fire extinguishing areas A1, A2, ..., An (hereinafter referred to as a reference numeral A when collectively referred to) are gas containers P1, P2, ..., Pn (referred to as reference numeral P when collectively referred to). ) Is set. Carbon dioxide gas is filled in each gas container P, and when the container valve 12 of the gas container P is opened, the carbon dioxide gas is injected from the nozzle 14 to the area A through the pipe line 13 and thus extinguishes the fire. Is done.

Operation boxes B1 to Bn (generally denoted by reference numeral B) are provided corresponding to the respective gas containers P, and push button switches S1 to Sn (generally referred to as generic names) in the operation box B are provided. Is indicated by the reference sign S), the electromagnetic solenoid 16 of each container valve 12 is excited through the control panel 15 to extinguish the fire as described above.

FIG. 3 is an electric circuit diagram for explaining the basic idea of the ground fault detection according to the present invention. The push button switch S1 in the operation box B1 is connected between the lines L1a and L1b. In the control panel 15, the line L1a is connected to the positive pole of the first DC power supply 21, and the line L1b is connected to the negative electrode of the DC power supply 21 via the determination circuit C1. The negative electrode of the DC power source 21 is also connected to the positive electrode of the second DC power source 22, and the negative electrode of this DC power source 22 is connected to the ground potential of the control panel 15 or the like via the detection resistor R0. .. The discriminating circuit C1 discriminates whether or not the push button switch S1 is operated, and controls the electromagnetic solenoid 16 of the gas container P1.

Therefore, when the line L1a is ground-faulted, as indicated by reference sign β1, a direct current power supply 21-line L1a-a ground fault resistance RX of the line L1a-a detection resistance R0-a DC power supply 22-a DC power supply 21. A current flows through the path of, and thus the ground fault of the line L1a can be detected by the voltage generated between the terminals of the detection resistor R0.

Similarly, when the line L1b is ground-faulted, as indicated by a reference sign β2, the DC power source 22-the discrimination circuit C1-line L1b-the ground fault resistance RY of the line L1b-the detection resistor R0-the DC power source 22. A current flows through the path of, and the ground fault of the line L1b can be detected by the voltage across the terminals of the detection resistor R0.

Furthermore, when both the lines L1a and L1b are ground-faulted, the currents of the paths indicated by the reference symbols β 1 and β 2 are added and flow through the detection resistor R0, which is described in the section of the prior art. As described above, it is possible to reliably prevent the detection failure due to the cancellation of the currents flowing when the two lines L1a and L1b are both grounded. With respect to the remaining push button switches S2 to Sn, the DC power supplies 21 and 22 and the detection resistor R0 are shared, and the ground fault detection is similarly performed.

Referring to FIG. 1, one contact of push button switch S1 in operation box B1 is connected to the positive electrode of DC power supply E1 via line L 1a. The other contact of the push button switch S1 is connected to the switching state determination circuit 31 via the lines L1b and H6. A resistor R31 is interposed in the line H6.

The electric power of the DC power supply E1 is also given to the DC-DC converter E2 in the ground fault detection circuit 20 via the lines H1 and H2. The DC power supply E1 is, for example, 24V, and the DC-DC converter E2 creates a DC voltage of -15V with respect to the input voltage of 24V and derives it between the lines H3 and H4. Therefore, the lines H2 and H3 having the potential of 0 V are both grounded in the DC-DC converter E2.

The line H4 is connected to the ground potential from the detection resistor R11 via the line H5. The inter-terminal voltage of the detection resistor R11 is input to the amplifier circuit 23 via the lines H7 and H8 and amplified, and then input to the ground fault determination circuit 26 from the line H9.

In the ground fault determination circuit 26, the reference voltage Vf1 created by the variable resistor VR1 interposed between the lines H3 and H4 is compared with the voltage input via the line H9, and the input voltage is When the voltage is equal to or higher than the reference voltage Vf1, an output indicating that a ground fault has occurred is output to the output circuit 27 via the line H10.

In the output circuit 27, the relay coil RY1 is excited when the transistor TR1 becomes conductive due to the output through the line H10. As a result, the relay switch RS1 is conducted, the ground fault signal is derived, the buzzer 28 sounds, and the warning lamp 29 lights up.

That is, when the line L1a is ground-faulted, the direct current power source E1-line L1a-line H5-detection resistor R11-line H4- (DC-DC converter E2) as indicated by reference numeral i1. -Line H2-A current flows through the path of the DC power supply E1, and when the ground fault does not occur, the occurrence of the ground fault can be detected from the voltage across the terminals of the detection resistor R11 which is zero.

When the line L1b is ground-faulted, as indicated by reference numeral i2, (DC-DC converter E2) -line H3-resistor R31-line H6-line L1b-line H5-detection resistor R11. -A current flows in the path of the line H4- (DC-DC converter E2), which also enables ground fault detection to be performed from the voltage across the terminals of the detection resistor R11.

Further, even when the lines L1a and L1b both have a ground fault, the current indicated by the reference numeral i1 and the current indicated by the reference numeral i2 flow in the same direction in the detection resistor R11. As described above, in the present embodiment, the detection failure does not occur due to the cancellation of the ground fault current as described in the section of the related art, and at least one of the lines L1a and L1b is grounded. Can be reliably detected.

Further, the switching state determination circuit 31 determines from the potential of the line H6 whether or not the push button switch S1 is conductive, and controls the electromagnetic solenoid 16 of the gas container P1 according to the determination result.

Note that the remaining push button switches S2, S3, ..., Sn are also provided with a switching state determination circuit 31 similarly to the push button switch S1 described above, and are connected to the push button switches S2 to Sn. Also for the lines L2a, L2b; L3a, L3b; ... Lna, Lnb, the ground fault can be detected as in the case of the lines L1a, L1b described above.

As described above, in the fire extinguisher 11 according to the present invention, it is possible to accurately detect the ground fault of the line between each push button switch S and the control panel 15, and the occurrence of the ground fault is detected by the buzzer 28 and the warning lamp. It can be notified by 29.

[0029]

[Effect of the device]

 As described above, according to the present invention, it is possible to detect that not only one of the pair of lines connecting the control device and the switch, but also both lines are grounded. Therefore, the ground fault of the line can be accurately detected, and the malfunction of the control device is not caused.

[Brief description of drawings]

FIG. 1 is an electric circuit diagram of a fire extinguisher 11 including a ground fault detection circuit according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of the fire extinguisher 11.

FIG. 3 is an electric circuit diagram for explaining the basic idea of ground fault detection according to the present invention.

FIG. 4 is an electric circuit diagram of a switch input device 1 including a general ground fault detection circuit.

[Explanation of symbols]

 11 Fire Extinguisher 12 Container Valve 15 Control Panel 20 Ground Fault Detection Circuit 21, 22, E1 DC Power Supply 26 Ground Fault Judgment Circuit 28 Buzzer 29 Warning Light 31 Switching State Judgment Circuit B1-Bn Operation Box S1-Sn Push Button Switch R0, R11 Detection Resistance

Claims (1)

[Scope of utility model registration request] 1. A device for detecting a ground fault of a pair of lines used in association with each other, comprising: a first DC power supply connected between the lines; and a series connected to the first DC power supply. A second DC power supply connected to the second DC power supply, a detection resistor that connects, in the second DC power supply, an electrode opposite to the electrode connected to the first DC power supply to a ground potential, and the detection resistance. A ground fault detection device comprising: a detection unit that performs ground fault detection based on a voltage between terminals of a resistor.