JP2610959B2 - DC feeder circuit protection device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a DC feed circuit protection device.

(Prior Art) The present applicants have proposed a DC feeding circuit protection system as shown in FIG. 2 in an earlier application (Japanese Patent Application No. 62-235837). In the figure, 21 is a substation, 22 is a feeder for supporting the feeder wire 22, 23 is a feeder for supporting the feeder wire 22, etc., 24 is a concrete column supporting the beam 23, 25 is a rail, 27 is the ground, and 28 is a trolley wire. Is shown. A is a circuit protection device for forcibly short-circuiting.
For example, it operates when a short circuit occurs at a point 29, for example, and has a function of forcibly shorting the beam 23 to the rail 25. That is, by forming a short circuit quickly as described above and increasing the fault current from the path 26b,
It is intended to facilitate detection at a protective substation at a substation.

On the other hand, as shown in FIG. 3, even when the feeder line 22 comes into contact with a structure having a low grounding resistance such as the bridge 30, the circuit protection device A operates in the same manner as described above to form a short circuit, and the ground 27 is The current flowing back to the rail 25 through the substation 21 is reduced to prevent unnecessary operation of a DC high-voltage grounding relay for detecting a DC bus ground fault in the substation 21.

(Problems to be Solved by the Invention) By the way, in the circuit protection device described above, the feeder 22
In addition to the DC voltage acting upon contact with the beam 23 and the like, a surge voltage higher than this acts instantaneously. Therefore, the circuit protection device is required to have a characteristic that it does not operate with a surge voltage but operates with a lower DC voltage.

Therefore, an object of the present invention is to provide the above characteristics,
In addition, it is an object of the present invention to provide a DC feeder circuit protection device capable of obtaining a reliable operation state.

(Means for Solving the Problems) Therefore, in the DC feeder circuit protection device of the present invention, a bridge,
While a first and a second discharge tube are connected in series between a first lead connected to a metal body such as a train line support beam and a second lead connected to the rail side, the first lead and the second discharge tube are connected in series. A capacitor is connected between the two leads and trigger means is provided for lowering the potential between the two discharge tubes when the terminal voltage of the capacitor reaches a predetermined voltage.

(Effect) Even if a relatively high surge voltage instantaneously acts on the device, the terminal voltage of the capacitor does not increase so much and the trigger means does not operate. If it is lower than the sum of the discharge starting voltages of the tubes, no device operation is performed.

On the other hand, when a DC voltage lower than the surge voltage acts, the terminal voltage of the capacitor gradually increases, and when this voltage reaches a predetermined voltage, the trigger means lowers the potential between the first discharge tube and the second discharge tube. At this time, if the voltage applied to the first discharge tube exceeds the discharge start voltage of the first discharge tube, the first discharge tube performs a discharge operation, and subsequently, the second discharge tube performs a discharge operation, and a short circuit occurs. A circuit will be configured.

(Example) Next, a specific example of the DC feeder circuit protection device of the present invention will be described in detail with reference to the drawings.

In FIG. 1, reference numeral 1 denotes a first lead, and 2 denotes a second lead. The first lead 1 is on a metal body such as a bridge or a train line support beam, and the second lead 2 is on a rail side. What is connected. A first and second discharge tube (arrestor) is provided between the first and second leads 1 and 2.
3 and 4, a series connection circuit of the first and second voltage dividing resistors 5 and 6, and a series connection circuit of the surge absorber resistor 7 and the pulse generating capacitor 8 are connected in parallel with each other. Further, a series connection circuit of a discharge tube 9 for pulse generation and a primary side of a transformer 10 is connected in parallel to the capacitor 8 for pulse generation. On the secondary side of the transformer 10, a closed circuit is formed by serially connecting the second voltage-dividing resistor 6, the discharge tube 11 for decoupling with the main circuit, and the capacitor 12, respectively.
A resistor 13 is connected to the decoupling capacitor 12 in parallel. And the first and second discharge tubes 3, 4
And the series connection point Q of the first and second voltage dividing resistors 5 and 6 are mutually connected. Reference numeral 14 denotes an operation display CT.

Next, the operation state of the above device will be described. First,
When a voltage is applied between the second leads 1 and 2, the pulse generating capacitor 8 is charged. When the terminal voltage of the capacitor 8 reaches the discharge starting voltage of the pulse generating discharge tube 9, An input to the transformer 10 is made. Then, a trigger voltage is output on the secondary side of the transformer 10.
This trigger voltage is set to be a negative potential,
As a result, the potential of the series connection point P of the first and second discharge tubes 3 and 4 decreases, and as a result, the discharge of the first discharge tube 3 is performed. Subsequently, the discharge of the second discharge tube 4 is stopped. Then, the device operates to short-circuit the first lead 1 and the second lead 2.

On the other hand, when a surge voltage, that is, a high voltage acts on the device within a short time, the charging of the pulse generating capacitor 8 is not sufficiently performed, so that the terminal voltage of the pulse generating capacitor 8 is reduced. The device operation is prevented because it does not rise so much.

As described above, the protection device can prevent the operation of the device when the surge voltage is equal to or less than the sum of the discharge starting voltages of the two discharge tubes 3 and 4 connected in series. Is operated for a long time, when the voltage exceeds the discharge start voltage of the discharge tubes 3 and 4 alone, the operation is performed. It is possible to reliably perform a short-circuit operation at the time of occurrence of an accident.

In the above-described embodiment, an example is shown in which the trigger means is constituted by the discharge tube 9 for pulse generation, the transformer 10, and the like, but this can be replaced by another circuit configuration.

(Effect of the Invention) As described above, in the DC feeder circuit protection device of the present invention, it is possible to reliably perform an operation at the time of occurrence of an accident while preventing a malfunction due to a surge voltage. It is possible to improve.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of a DC feeder circuit protection device according to the present invention, and FIGS. 2 and 3 are explanatory diagrams of an example of use. 1... First lead, 2... Second lead, 3, 4... Discharge tube, 8... Pulse generating capacitor, 9... Pulse generating discharge tube, 10.

Continuation of the front page (72) Inventor Ichie Inoue 2-1-1, Hiromachi, Shinagawa-ku, Tokyo, Japan (72) Inventor Sakuro Tsukuda 2-9-1, Matsuzakicho, Abeno-ku, Osaka-shi, Osaka 2-2-6 ( 72) Inventor Hiroshi Tanaka 2-9-15-1 Sakai, Musashino City, Tokyo (72) Inventor Ichiro Deno 10-7-21 Tokiwa, Urawa-shi, Saitama Tokiwa-cho Apartment 3-104 (72) Inventor Hayashi Masami 5-30-1, Mukoso, Amagasaki City, Hyogo Prefecture (72) Inventor Ichiro Shimada 1-13-1 Hosen, Hodogaya-ku, Yokohama, Kanagawa Prefecture (72) Inventor Kunichi Inoue 2-31 Gotenyama, Takarazuka City, Hyogo Prefecture JP-A-60-139130 (JP, A) JP-A-55-117414 (JP, A) JP-A-60-177641 (JP, U) JP-A-48-63233 (JP) , U) "A report on the protection method for the electric circuit directly attached to the Honshi Bisan Line (Railway Electrification Association)

Claims (1)

(57) [Claims] A first and a second discharge tube are connected in series between a first lead connected to a metal body such as a bridge or a train line support beam and a second lead connected to a rail side. A capacitor is connected between the first lead and the second lead, and trigger means is provided for reducing the potential between the two discharge tubes when the terminal voltage of the capacitor reaches a predetermined voltage. DC feed circuit protection device characterized by the above-mentioned.