KR101008234B1 - Receive and change electricity equipment for special high-tension is ground formation - Google Patents

Abstract

The present invention relates to a special high-voltage water substation facility, and more particularly, to a special high-voltage water substation facility, which is connected to a switch installed between an inlet and a power fuse of a circuit configured inside the water substation facility, wherein the power fuse and power supply and supply It is composed of a grounding switch installed between the transformer transformer current transformer for the user to operate in an insulated state from the converter, and is connected at the same time, the circuit is built-in, it is connected to or disconnected from the ground by operating the grounding switch and the switch It relates to special high pressure water substation equipment.

Water substation equipment, grounding, grounding switch, switchgear, LBS, ASS

Description

{Receive and change electricity equipment for special high-tension is ground formation}

The present invention relates to a special high-voltage water substation facility, and more particularly, to a special high-voltage water substation facility, which is connected to a switch installed between an inlet and a power fuse of a circuit configured inside the water substation facility, wherein the power fuse and power supply and supply It is composed of a grounding switch installed between the transformer transformer current transformer for the user to operate in an insulated state from the converter, and is connected at the same time, the circuit is built-in, it is connected to or disconnected from the ground by operating the grounding switch and the switch It relates to special high pressure water substation equipment.

In general, since electric power demand is high in private electric facilities such as buildings or factories, it is impossible to receive electricity that can be used as it is from a power company, such as a general electric equipment having a low voltage of 110V or 220V.

Therefore, in general private electric installations, the high voltage of 3,300V or 6,600V should be received from the distribution line of the substation and transformed into the commercial voltage again. The transformer must be transformed, and the device that enables this is the water substation facility.

The water substation facility includes a power receiving facility for receiving high voltage and special high pressure supplied from a substation, a substation facility for stepping down high voltage and special high voltage received from a substation to a commercial voltage, electric equipment of each part of the building, Distribution equipment for supplying lights and switch devices and other safety devices are integrally formed to supply electricity safely and efficiently into the building.

1 shows a disconnected diagram of a water substation facility 100 according to the prior art.

The special high voltage power is received from the substation through the distribution system composed of overhead distribution lines and underground distribution lines to the water substation facility 100 of each consumer, and the supplied high voltage power supplies the substation facility 100 having the configuration as shown in FIG. 1. It is stepped down to the commercial voltage and supplied to the customer.

At this time, there are a number of methods of receiving power using a power distribution device of a special high voltage consumer, such as a cubicle type using a panel, a frame type receiving power by installing a frame, and an H-type power receiving method receiving power by using electric poles. The water substation facility 100 according to the present invention is a special cubicle type special high voltage water substation facility using a panel, and as shown in FIG. 1, an inlet receiving power from a distribution line in one or more enclosures 101. 111 and a DS connected to the downstream of the inlet 111 and transmitting power supplied through the inlet 111 and installed on the load end line and separating the downstream equipment from the converter during an accident or maintenance at the load end. Switchgear 113 composed of ASS or LBS, and lightning arrester 115 connected to the downstream of the switchgear 113 and mounted to protect the load disconnection line in the event of an abnormal voltage in the load disconnection line. And a power fuse 117 that is connected downstream of the switch 113 and protects the downstream device when an accident current is energized due to a short-circuit or ground fault of the load stage, and cuts off the accident current at high speed to prevent the spread to the distribution line. Connected to the downstream of the power fuse 117, and connected to the transformer transformer transformer 119 for power supply and instrumentation to facilitate measurement of high voltage and high current, and the transformer transformer transformer 119 for power supply and gauge to measure the amount of power A main circuit breaker 120 connected to a downstream power transformer 130 and a transformer transformer current transformer 119 for power supply and supply and protecting downstream branch lines, substation equipment 140, and power distribution equipment 150 from accident currents; One or more substations 140 connected to one or more downstream of the main circuit breaker 120 to step down the special high voltage received by the user to a commercial voltage required by the user, and one or more downstreams of the substation 140. Commercial warfare The process branches to the configuration includes a power distribution unit 150 to be supplied to each load.

However, in the case of the special high-voltage water substation equipment according to the prior art, the power fuse in the downstream of the switch is operated due to the overload accident and the short circuit accident. In case of maintenance work such as replacement of downstream equipment, the worker must ground manually.However, the grounding work inside the panel can prevent the worker's safety from electric shock or arcing. In particular, when the fuse is blown due to the operation of the power fuse, both ends of the power fuse should be grounded. In the case of the air-insulated type, the conductors connecting the components are made of bare conductors, which may cause an electric shock accident. A ground fault may be caused by grounding the inlet port of the switch's primary side by mistake. , In the case of a gas insulation type it can not be ground at the same time the both ends of a power fuse, because the converter is also located in the steel of the sealing state.

In order to solve the above problems, the first and second ground switches are installed at both ends of the power fuses so as to be connected to the ground, thereby simultaneously grounding both ends of the power fuse in an emergency, and interlocking with the first and second ground switches, the main breaker and It is an object of the present invention to provide a special high-voltage water substation having a ground to protect against electric shock and breakdown by operating a circuit breaker for the substation.

In order to solve the above problems, the present invention relates to a special high voltage water substation having a ground, and having first and second ground switches installed at both ends of the power fuse to be connected to ground, and the first and second ground switches and the main switch. It consists of interlocking circuit breakers and circuit breakers for substation equipment manually or automatically simultaneously.

The present invention installs a grounding switch at both ends of the power fuse and operates from the outside completely insulated from the converter, thereby promoting the safety of the operator from electric shock or arcing during maintenance work, and simultaneously powering both ends of the power fuse to operate the power fuse. Therefore, even in the case of disconnection, all devices downstream of the inlet in the water substation can be grounded to prevent an electric shock accident and trouble occurrence.

As shown in FIG. 3, the present invention is a facility for receiving and transforming electricity of a special high voltage, and is connected to an inlet 11 to which electricity is supplied to the interior of the water substation and a downstream of the inlet 11. A first ground switch (15) connected between the division switch (12) and the power fuse (13) connected downstream of the division switch (12) and connected to the ground (14); A second ground switch (18) connected between the power fuse (13) and the transformer transformer current transformer (16) for supplying power connected to the downstream of the power fuse (13); It is connected to the downstream of the transformer transformer transformer 16 for power supply and supply consists of one or more transformer substation 40 and one or more downstream of the substation 40 to branch the commercial voltage A main circuit breaker 20 for simultaneously blocking the power distribution facilities 50 for supplying the respective loads; Downstream of the main circuit breaker 20 is connected to the high-voltage electricity to drop the electricity of the commercial voltage, consisting of one or a plurality of transformers, the transformer for the substation equipment for blocking the electricity flowing into the transformer ( 21 and a substation facility 40 is installed; And a distribution facility 50 connected to the downstream of the substation 40 to supply electricity to each load connected to the downstream by branching electricity of the commercial voltage lowered from the substation 40. , The configuration is built in one or a plurality of enclosures (10).

In this case, the division switch 12 and the first and second ground switches 15 and 18 are operated by manual or electric power so that both ends of the power fuse 13 are simultaneously connected to the ground 14, and the division switch 12 and the first and second ground switches 15 and 18 are connected to the ground 14 by operating the main breaker 20 and the substation breaker 21 manually or automatically. .

5 and 8, the first and second ground switches 15 and 18 are coupled to each other by a hinge on one side of the lower fuse holder and a hinge bar on the other end of the rotation bar. It is composed of a ground plate formed in the form is formed in a structure that connects both ends of the power fuse simultaneously with the ground 14 by manual or electric.

That is, the present invention will be described in more detail with reference to one embodiment.

As shown in FIG. 3, the inlet port 11 receives electric power from the distribution line in the enclosure 10, the division switch 12 connected downstream of the inlet port 11, and the division switch 12. A lightning arrester 17 connected downstream, a power fuse 13 connected downstream of the division switch 12, and a transformer current transformer for a power supply and supply instrument having a primary side connected downstream of the power fuse 13; 16), a wattmeter 30 connected to the secondary side of the transformer unit for transformer unit 16 for measuring the amount of power, and a branch line downstream of the downstream of the primary transformer downstream of the transformer unit for transformer unit 16 The user needs the main breaker 20 to protect the furnace, the substation facility 40 and the power distribution facility 50 from an accidental current, and a special high voltage which is connected to one or more downstream of the main breaker 20. Of the substation facility 40 for stepping down to a commercial voltage, and the substation facility 40 Is connected to one or multiple pieces to flow to branch the nominal voltage is constructed contains a distribution equipment 50 to be supplied to each load.

In this case, the division switch 12 installed between the inlet 11 and the power fuse 13 may be separated or integrated with the power fuse 13 and the first and second ground switches 15 and 18. .

In addition, the first and second ground switches are installed to be connected to the ground 14 between the switchgear 12 and the power fuse 13 and between the power fuse 13 and the transformer current transformer 16 for power supply. The ground 14 and the power fuse 13 may be operated by manually or electrically operating the first and second ground switches 15 and 18 and the division switch 12 while the user 15 and 18 are insulated from the converter. ) Both ends of the main circuit breaker 20 and the substation breaker 21 are operated manually or automatically, thereby grounding all devices downstream of the inlet 11 to prevent electric shock and failure. .

FIG. 5 illustrates that the first and second ground switches 15 and 18, which are connected to the division switch 12, are connected to the downstream, and are integrated with the division switch 12, are disconnected from the ground 14. All of the first and second ground switches 15 and 18 integrated in the division switch 12 and the division switch 12 are disconnected and disconnected from the ground 14 without sending power downstream, and FIG. 7. The division switch 12 is disconnected and the first and second ground switches 15 and 18 integrated in the division switch 12 are simultaneously grounded at both ends of the power fuse 13 without transmitting power downstream. In connection with 14), all devices downstream of the division switch 12 are grounded.

FIG. 8 illustrates that the first and second ground switches 15 and 18, which are configured separately from the division switch 12, simultaneously connect both ends of the power fuse 13 with the ground 14 to open the division switch 12. All the devices downstream of the ground) are grounded, and the operations of the first and second ground switches 15 and 18 are the same as those integrated in the division switch 12.

9 is an internal circuit diagram of a gas insulated special high voltage water substation facility having grounds according to another embodiment according to the present invention, and the gas insulated special high voltage water substation facility is included in one or a plurality of enclosures 10. Inlet or outlet 11 which is installed so that the devices are insulated from the outside in the gas insulation case filled with one or more sealed and insulated gas, and connected to the downstream of the inlet 11 ), An arrester 17 connected downstream of the division switch 12, a power fuse 13 connected downstream of the division switch 12, and a primary side downstream of the power fuse 13; The transformer transformer current transformer 16 connected to the power supply and supply gauge, the power meter 30 connected to the secondary side of the transformer power transformer 16 for measuring the power supply and gauge, and the transformer current transformer for the power supply gauge Connected downstream and downstream of the primary The user needs a main breaker 20 to protect the branch line, the substation facility 40 and the power distribution facility 50 from an accidental current, and a special high voltage connected to one or more downstream of the main breaker 20. And a power distribution facility 40 for stepping down to a commercial voltage, and a power distribution facility 50 connected to one or more downstream of the substation facility 40 and branching a commercial voltage to each load. .

At this time, the division switch 12 installed between the inlet 11 and the power fuse 13 is interlocked with the power fuse 13, between the power fuse 13 and the transformer transformer current transformer for power supply The second ground switch 18 installed between the ground 14 and the second ground switch 18 and the switch unit 12, the main circuit breaker 20, and a circuit breaker 21) by manually or electrically operated at the same time both ends of the ground 14 and the power fuse 13 is connected to ground all the devices downstream of the inlet (11) to prevent electric shock and failure.

FIG. 10 is an outline view of a plurality of enclosures of a gas insulated special high voltage water substation having grounds, and FIG. It is also.

As shown in FIG. 11, when the user rotates the ground handle 60 upward by manual or electric movement to open the first and second ground switches 15 and 18, the power fuse 13 and the ground 14 When the ground handle 60 is disconnected and the first and second ground switches 15 and 18 are inserted by rotating the ground handle 60 downward by manual or electric power, both ends of the power fuse 13 are connected to the ground 14. do.

When the ground handle 60 rotates downward, the ground handle 60 is interlocked so that the blocking handle 70 of the division switch 12 disappears.

1 is an internal circuit diagram of a special high-voltage water substation facility according to the prior art,

2 is an internal device layout of the special high-pressure water substation facility according to the prior art,

3 is an internal circuit diagram of a special high voltage water substation having a ground according to the present invention;

4 is a device arrangement diagram of a special high-voltage water substation installation having a ground according to the present invention;

5 is a state diagram showing the switching of the switch (operational connection), the ground switch open (ground and disconnection) during the operation of the air insulated switchgear with a ground switch integrated according to the present invention,

Figure 6 is a state diagram showing the opening and closing of the switch (ground break), the ground switch open (ground and disconnection) during the operation of the air insulated switchgear with a ground switch integrated according to the present invention,

7 is a state diagram showing the opening of the switch (disconnected wire), the ground switch input (connecting to ground) during the operation of the air insulated switchgear with a ground switch integrated according to the present invention,

8 is a state diagram showing the grounding switch input (grounding and connection) during operation, the grounding switch according to the present invention is separated from the switch;

9 is an internal circuit diagram of a gas insulated special high voltage water substation having grounds formed according to another embodiment of the present invention;

10 is an external view of a plurality of enclosures of a gas insulated special high-voltage water substation facility having grounds formed in another embodiment according to the present invention;

11 is a configuration diagram showing the operation of the ground operation handle formed in the enclosure of the gas-insulated special high-voltage water substation facility in which the ground is formed in another embodiment according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: enclosure 20: main breaker

30: power meter 40: substation equipment

50: power distribution equipment

Claims (3)

In a facility for receiving and transforming electricity of a special high voltage, It is connected to the ground (14) connected to the switchgear 12 is installed between the inlet 11 is supplied with electricity in the water-station equipment and the power fuse 13 connected to the downstream of the inlet (11) A first ground switch 15; A second ground switch (18) connected between the power fuse (13) and the transformer transformer current transformer (16) for supplying power connected to the downstream of the power fuse (13); It is connected to the downstream of the transformer transformer transformer 16 for power supply and supply consists of one or more transformer substation 40 and one or more downstream of the substation 40 to branch the commercial voltage A main circuit breaker 20 for simultaneously blocking the power distribution facilities 50 for supplying the respective loads; Downstream of the main circuit breaker 20 is connected to the high-voltage electricity to drop the electricity of the commercial voltage, consisting of one or a plurality of transformers, the transformer for the substation equipment for blocking the electricity flowing into the transformer ( 21 and a substation facility 40 is installed; And a power distribution facility 50 connected to the downstream of the substation facility 40 and branching electricity of a commercial voltage dropped from the substation facility 40 to supply to each load connected downstream. The configuration is built into one or more enclosures 10, The division switch 12 and the first and second ground switches 15 and 18 are operated by manual or electric movement so that both ends of the power fuse 13 are simultaneously connected to the ground 14, and the division switch 12 ) And the first and second ground switches 15 and 18 are connected to the ground 14 by operating the main breaker 20 and the substation breaker 21 manually or automatically. The first and second ground switches 15 and 18 are pivotally coupled to one side of the lower fuse holder by a hinge and are pivotally coupled to the other end of the pivot bar by a hinge and are formed in a plate shape. The special high-voltage water substation installation having a ground, characterized in that formed in a structure that connects both ends of the power fuse at the same time with the ground (14). delete delete

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