KR101126214B1 - Transformer connection change method under live line - Google Patents

Abstract

The present invention relates to an uninterruptible transformer change connection method on a distribution system transmission line that can reduce the energy load by evenly distributing the power load while preventing damage caused by power failure.
According to the present invention, the first auxiliary cable 14 is connected between the first terminal of the first switch 11 and the B line, and the second auxiliary cable 15 is connected to the primary side bushing cap 3 of the transformer 1. Connecting between two terminals of the first switch 11 (S1), the third auxiliary cable 24 between the third terminal of the second switch 21 and the A line in the state that the second switch 21 is open And connecting the fourth auxiliary cable 25 between the primary side bushing cap 3 of the transformer 1 and the four terminals of the second switch 21 (S2), and the first switch 11 is on. Step (S3) of turning off the cutout switch 5 on the branch cable (4) in the state, the step of disconnecting one end of the branch cable (4) from the B line (S4), the first switch 11 Step (S5) of turning on the second switch 21 immediately after turning off), turning on the cutout switch 5 on the branch cable (S6), the first auxiliary cable 14 and the second Auxiliary cable (15), the third auxiliary cable (24) and the fourth auxiliary cable (25) It is composed of the step (S7) separating from the primary side bushing cap (3) of the line B and line A and the transformer (1) and the terminals of the first and second switchgear (11, 21), respectively.

Description

Transformer connection change method under live line

The present invention relates to an uninterruptible transformer change connection method on a distribution system transmission line, and more specifically, when the load of any one line on the extra-high voltage transmission line supplied through the two-phase three-phase line of 22.9KV in the distribution system, uninterrupted state The present invention relates to a method for changing an uninterruptible transformer on a new distribution system transmission line that can reduce energy load by equally distributing power load while preventing damage caused by power failure by replacing the connection line of the column transformer.

In general, the voltage generated in a power plant is boosted to a predetermined high voltage and then transmitted through a power transmission system, and after a voltage drop to a special high voltage of approximately 22.9 KV at a substation, it is supplied through a power distribution system, and the voltage is dropped again from a column transformer and supplied to a customer. Will be. At this time, the columnar transformer connected to the distribution system transmission line from the substation, as shown in Figure 1, connects a plurality of columnar transformers on each of the A, B, C of the three-phase Y connection of the distribution system, The secondary side of these columnar transformers is connected to the low-voltage line connected by Y or delta connection according to the characteristics of the customer.

However, if the load is excessively concentrated on any one of the three-phase A, B, and C lines of the distribution system, depending on the customer's condition, an unbalanced load between the lines results in inefficient power consumption. This will cause a waste of energy. In order to solve the load imbalance between each line of the distribution system, it is required to connect the column transformer that supplies power to each customer from the existing line to another line, and the previous connection of the column transformer in this distribution system Since a power failure of the power supply was required, the transformer was connected to the transformer only after the power failure. Therefore, the damage caused by the power failure of the customer was caused, and in order to suppress such power failure, the load unbalance between the lines of the distribution system was suppressed. The situation was tolerated the disadvantages of wasting power.

The present invention has been proposed based on the problems related to the load imbalance between the respective lines of the conventional distribution system as described above, and the present invention transfers a transformer connected to an arbitrary line of the distribution system to another line in an uninterrupted state. It is possible to provide a new method of changing the uninterruptible transformer on the distribution system transmission line, which can be connected to prevent power waste and damage caused by power outage due to unbalance of loads between lines.

According to one feature of the invention, any branch (B) on the three-phase line (A, B, C) of the distribution system through which the high voltage of 22.9 KV flows through the branch cable (4) to which the cutout switch (5) is connected. In a power distribution system including a transformer (1) connected to a primary side of a transformer and a low voltage line supplied to a customer on a secondary side of the transformer, the branch cable (4) of the columnar transformer (1) is connected to a line (B) with no charge. In the method of connecting to another line (A) in the

With the first switch 11 having 1 and 2 terminals and the second switch 21 having 3 and 4 terminals prepared, the first auxiliary cable 14 is connected to the 1 terminal of the first switch 11 and the B line. Connecting between the second auxiliary cable 15 between the primary terminal bushing cap 3 of the transformer 1 and the two terminals of the first switch 11 (S1),

With the second switch 21 open, the third auxiliary cable 24 is connected between the three terminals of the second switch 21 and the A line, and the fourth auxiliary cable 25 is connected to the primary side of the transformer 1. Connecting between the bushing cap (3) and the four terminals of the second switch 21 (S2),

Turning off the cutout switch 5 on the branch cable 4 in the state where the first switch 11 is on (S3),

Disconnecting one end of the branch cable (4) from the B line and connecting it to the A line (S4),

Immediately after turning off the first switch 11, turning on the second switch 21 (S5),

Turning on the cutout switch 5 on the branch cable 4 (S6),

The primary auxiliary bushing cap (3) of the first auxiliary cable (14), the second auxiliary cable (15), the third auxiliary cable (24) and the fourth auxiliary cable (25) are connected to the B line, the A line, and the transformer (1), respectively. Separating from the terminals of the first and second switchgear (11, 21) (S7),

Provided is an uninterruptible transformer change connection method on a distribution system transmission line, comprising:

According to another feature of the present invention, one end of the first auxiliary cable 14 and the third auxiliary cable 24 has an annular portion 27 which is fastened so as to be electrically energized with the lines A, B, and C. The insulating clamp 26 is provided, and the inner side of the annular portion 27 is provided with a method for changing an uninterruptible transformer on a distribution system transmission line, characterized in that a sharp blade portion 28 or a tooth portion is formed.

According to another feature of the present invention, a bushing clamp 6 having a finger portion 7 which electrically engages with the bushing cap 3 of the transformer 1 is detachably provided, and this finger shape is provided. On one side of the portion 7 of the distribution system, characterized in that two connecting holes (8, 9), one end of the second auxiliary cable (15) and the fourth auxiliary cable (25) are coupled to each other so as to conduct electricity. A method of connecting an uninterruptible transformer on a transmission line is provided.

According to one feature of the invention, any branch (B) on the three-phase line (A, B, C) of the distribution system through which the high voltage of 22.9 KV flows through the branch cable (4) to which the cutout switch (5) is connected. In a distribution system including a transformer (1) connected to a primary side of a transformer and a low voltage line supplied to a customer on a secondary side of the transformer, the branch cable (4) of the columnar transformer (1) under uninterrupted line (B). In the method of connecting to another line (A) in the

The first auxiliary cable 14 is connected to the first switchgear in a state in which two terminals of the first switchgear 11 having 1,2 terminals and 4 terminals of the second switchgear 21 having 3 and 4 terminals are made common. Connecting between the first terminal of the (11) and the B line and connecting the common auxiliary cable (35) between the primary side bushing cap (3) of the transformer (1) and the two terminals of the first switch 11 (S1) ,

Connecting the third auxiliary cable 24 between the third terminal of the second switch 21 and the A line in the state where the second switch 21 is opened (S2);

Turning off the cutout switch 5 on the branch cable 4 in the state where the first switch 11 is on (S3),

Disconnecting one end of the branch cable (4) from the B line and connecting it to the A line (S4),

Immediately after turning off the first switch 11, turning on the second switch 21 (S5),

Turning on the cutout switch 5 on the branch cable 4 (S6),

Separate the first auxiliary cable 14, the second auxiliary cable 15, and the common auxiliary cable 35 from the primary side bushing cap 3 of the B line, the A line, and the transformer 1, respectively. Separating from the terminals of the switchgear (11, 21) (S7),

Provided is an uninterruptible transformer change connection method on a distribution system transmission line, comprising:

According to the present invention, in order to change and connect a transformer connected to one of the three-phase lines of the distribution system in which the extra-high voltage flows through the branch cable 4 to the other line A, the first switch 11 is The first auxiliary cable 14 and the second auxiliary cable 15 connected are connected between the B line and the primary side bushing cap 3 of the transformer 1, and the second switch 21 is opened in a second state. After connecting the third auxiliary cable 24 and the fourth auxiliary cable 25 connected to the switch 21 between the A line and the primary side bushing cap 3 of the transformer 1 to connect the bypass line, After the switch 11 is turned on, the cutout switch 5 on the branch cable 4 is turned off, the branch cable 4 is disconnected from the B line, connected to the A line, and then the first switch 11 is opened. The cutout switch 5 of the branch cable 4 is turned on after preventing the short circuit between the A line and the B line by turning on the second switch 21 immediately after turning off. By disconnecting the auxiliary cables 14, 15, 24 and 25 from the A and B lines and the first and second switchgear 11 and 21, the transformer 1 is disconnected from the three-phase line of the distribution system in the uninterrupted state. It can be changed, thereby achieving the effect of preventing the power waste due to the unbalance of the load between the lines and the damage caused by the power failure of the prisoner.

In addition, the present invention replaces the second auxiliary cable 15 and the fourth auxiliary cable 25 with a common auxiliary cable 35 between the two terminals of the first switch 11 and the four terminals of the second switch 21. By connecting them in common and carrying out the work as described above, it is possible to easily and safely change the wiring position on the three-phase line of the distribution system of the transformer 1 in the uninterrupted state, thereby reducing the power due to the unbalance of the load between the lines. The damage caused by waste and consumer power outages can be prevented.

1 is a diagram illustrating a connection state on a transmission line of a distribution system before changing a transformer.
2 is a flowchart showing a change connection sequence of a transformer
Figure 3 is a flow chart of the next step showing the changing connection sequence of the transformer
4 is a state in which the transformer is moved
5 is a block diagram of an insulating clamp of the auxiliary cable according to the present invention
6 is a block diagram of a bushing clamp according to the present invention
7 and 8 are flowcharts of yet another embodiment of the present invention.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. First, FIG. 1 shows a connection state of a distribution system before changing a connection of a transformer. As illustrated, a primary bushing 2 of a transformer 1 is connected to a B cable in a three-phase line of a distribution system through a branch cable 4. It is connected to the bushing cap (3) coupled to. The cutout switch 5 is connected to the branch cable 4. In this state, in order to connect the branch cable 4 to the A line uninterrupted state, first, the first switch 11, the second switch 21 and the first to fourth auxiliary cables (14, 15, 24, 25) And prepare a first auxiliary cable 14 between the first terminal of the first switchgear 11 and the B line, and connect the second auxiliary cable 15 to the second terminal of the first switch 11 and the transformer ( It is connected to the bushing cap (3) fastened to the primary side bushing (2) of 1) (S1). At this time, for the sake of safety, the first switch 11 performs a connection work in the open state. However, the connection work may be performed in a state where the first switch 11 is energized. This constitutes a parallel circuit for the branch cable 4 between the B line and the transformer 1.

Next, while the second switch 21 is opened, the third auxiliary cable 24 is connected between the three terminals of the second switch 21 and the A line, and the fourth auxiliary cable 25 is connected to the transformer 1. Connect between the primary side of the bushing cap (3) and the four terminals of the second switch 21 (S2). As a result, a temporary line is formed between the A line and the transformer 1. At this time, the second switch 21 must be left open to prevent a short between the A line and the B line.

Next, after the first switch 11 is turned on, the cutout switch 5 on the branch cable 4 is turned off (S3). If the first switch 11 is connected in the on state in the above-described step S1, the cutout switch 5 is turned off while maintaining the on state.

Next, one end of the branch cable 4 is disconnected from the B line and connected to the A line (S4). If the cut-out switch 5 on the branch cable 4 is not turned off before the end of the branch cable 4 is moved from the B line to the A line, the A cable and the A line at the moment of connecting the branch cable 4 to the A line. There should be no short between the B lines.

Next, immediately after the first switch 11 is turned off, the second switch 21 is immediately turned on to cut off the connection between the B line and the transformer 1 and establish a connection between the A line and the transformer 1 (S5). ). At this time, the second switch 21 should be turned on immediately after the first switch 11 is turned off, and if the first switch 11 and the second switch 21 are in the on state at the same time, the A line and the B If a short is generated between the lines and the first switch 11 is turned off and the second switch 21 is turned on after a considerable time has elapsed, a power failure occurs in the customer connected to the secondary side of the transformer 1 during that time. Therefore, the off time point of the first switchgear 11 should be earlier than the on time point of the second switchgear 21, but it is preferable to reduce the parallax as much as possible.

Subsequently, the cutout switch 5 on the branch cable 4 is turned on so as to conduct electricity between the A line and the transformer 1 through the branch cable 4 (S6).

Next, the first auxiliary cable 14 and the second auxiliary cable 15 are separated from the bushing cap 3 of the B line and the transformer 1, respectively, and the third auxiliary cable 24 and the fourth auxiliary cable ( 25) separates the first opening 11 and the second opening 21 from these auxiliary cables 14, 15, 24, 25 after separating the line A and the bushing cap 3 of the transformer 1, respectively. (S7). This terminates the transformer's change connection on the transmission line of the distribution system in the uninterrupted state.

Figure 5 shows an insulating clamp 26 formed on one end of the auxiliary cable of the preferred embodiment according to the present invention, the insulating clamp 26 is formed with a ring-shaped portion 27 made of a conductor three-phase extra-high voltage line (A) It is electrically connected to, B, C). At this time, when the sharp blade portion 28 is formed inside the annular portion 27 so that the three-phase extra-high voltage lines A, B, and C are sheathed wires, the insulating clamp 26 is fastened to this line. The blade portion 28 of the annular portion 27 penetrates the coating layer so as to quickly and surely secure the electrical connection with the inner copper wire.

FIG. 6 is a configuration diagram of a bushing clamp 6 according to an embodiment of the present invention, in which the bushing clamp 6 is formed at one end of the insulating rod 20 so as to be energized by the bushing cap 3 of the transformer 1. The bushing clamp 6 is composed of a conductor and is provided with a finger portion 7 which is pivotally expanded or contracted. The finger shape portion 7 is contracted by holding the insulating rod 20 and turning it to one side. Then, it is fastened to the bushing cap 3 of the transformer 1 to conduct electricity, and when the insulating rod 20 is turned to the opposite side, the finger portion 7 is expanded to be separated from the bushing cap 3. Two connection holes 8 and 9 are formed at one side of the finger portion 7 of the bushing clamp 6. As described above, the connecting holes 8 and 9 are auxiliary cables connected to the first switch 11 as described above in order to effectively implement an uninterruptible transformer change connection method on the transmission line of the distribution system according to the present invention. 15) and the auxiliary cable 25 connected to the second switch 21 is configured to electrically connect to the bushing cap (3) of the transformer (1) together. By using such a bushing clamp 6 it is possible to quickly and easily carry out the modified connection of the transformer according to the invention.

7 and 8 are flowcharts of still another embodiment of the present invention, which is different from the above-described embodiment in the above-described embodiment between the two terminals of the first switch 11 and the four terminals of the second switch 21. The second auxiliary cable 15 and the fourth auxiliary cable 25 are connected to the bushing cap 3 of the transformer 1, respectively, but in this embodiment, the second terminal and the second terminal of the first switch 11 are connected. Four terminals of the switch 21 are connected in common and are connected to the bushing cap 3 of the transformer 1 by a common auxiliary cable 35.

According to this modified embodiment, first, in a state in which two terminals of the first switchgear 11 having 1,2 terminals and 4 terminals of the second switchgear 21 having 3 and 4 terminals are made as common terminals, The first auxiliary cable 14 is connected between the first terminal of the first switch 11 and the B line, and the common auxiliary cable 35 is connected to the primary side bushing cap 3 and the first switch 11 of the transformer 1. Connect between two terminals (S1). Subsequently, in the state where the second switch 21 is opened, the third auxiliary cable 24 is connected between the three terminals of the second switch 21 and the A line (S2).

 The subsequent steps are substantially the same as in the above-described embodiment. That is, when the first switch 11 is turned on, the cutout switch 5 on the branch cable 4 is turned off (S3), and one end of the branch cable 4 is disconnected from the B line and connected to the A line ( S4), immediately after turning off the first switch 11, the second switch 21 is turned on (S5). Next, the cutout switch 5 on the branch cable 4 is turned on (S6), and the first auxiliary cable 14, the second auxiliary cable 15, and the common auxiliary cable 35 are connected to the B line and the A, respectively. By disconnecting from the primary side bushing cap 3 of the line and transformer 1 and from the terminals of the first and second switchgear 11 and 21 (S7), an uninterruptible transformer change connection on the distribution system transmission line is completed. .

While the preferred embodiments of the present invention have been described above, various modifications, changes, or changes in order may be made within the spirit of the present invention defined by the claims, and such modifications and modifications are equivalents of the present invention. All of them will fall within the scope of the present invention. For example, in the first embodiment of the present invention, the first switch 11 is connected first in step S1, and the second switch 21 is later connected in step S2. There will be no change in the basic idea of the invention. Further, in the first or second embodiment of the present invention, after connecting the third auxiliary cable 24 between the three terminals of the second switch 21 and the A line in step S2, in step S4 Although one end of the branch cable 4 is disconnected from the B line and connected to the A line, the first auxiliary cable 24 is disconnected from the B line after the one end of the branch cable 4 is disconnected from the B line. It is also possible to connect between the three terminals of A) and the A line, and then the branch cable 4 may be connected to the A line, and any change in this order will be included in the scope of the present invention.

Claims (4)

The primary side of the transformer is connected to an arbitrary line (B) on the three-phase line (A, B, C) of the distribution system through which the high voltage of 22.9 KV flows through the branch cable (4) to which the cutout switch (5) is connected. In the distribution system including a transformer (1) connected to the low-voltage line supplied to the customer on the secondary side of the, change the branch cable (4) of the transformer (1) from the line (B) to another line (A) under uninterruption In the connecting method, the first auxiliary cable 14 is connected between the first terminal of the first switch 11 and the B line, and the second auxiliary cable 15 is connected to the primary side bushing cap 3 of the transformer 1. Connecting between the two terminals of the first switch 11 (S1), the third auxiliary cable 24 in the state that the second switch 21 is open, the third terminal of the second switch 21 and the A line And connecting the fourth auxiliary cable 25 between the primary side bushing cap 3 of the transformer 1 and the four terminals of the second switch 21 (S2), and the first switch 11 is With on Turning off the cutout switch 5 on the branch cable 4 (S3), disconnecting one end of the branch cable 4 from the B line and connecting it to the A line (S4), and the first switch 11 Immediately after turning off the second switch 21 on (S5), turning on the cutout switch 5 on the branch cable (S6), the first auxiliary cable 14 and the second auxiliary cable (15) and the third auxiliary cable (24) and the fourth auxiliary cable (25) from the primary side bushing cap (3) of the B line, the A line and the transformer (1), respectively, and the first and second switch 11 And disconnecting from the terminals of (21) (S7) characterized in that the uninterruptible transformer change connection method on the distribution system transmission line.
The method of claim 1,
In the step S1, an insulating clamp 26 having an annular portion 27 is formed at one end thereof to be electrically connected to the lines A, B, and C, and is sharp inside the annular portion 27. By using the first auxiliary cable 14 formed with the blade portion 28 or the toothed portion, and electrically connecting the first terminal of the first switch 11 and the B line,
The step S2 is provided with an insulating clamp 26 having an annular portion 27 formed thereon to be electrically connected to the lines A, B, and C, and having a sharp inside of the annular portion 27. An uninterruptible transformer on a distribution system transmission line, which electrically connects three terminals of the second switch 21 and the A line with each other by using a third auxiliary cable 24 having a blade portion 28 or a toothed portion. Change connection method.
The method according to claim 1 or 2,
The steps S1, S2 and S7,
A finger shape portion 7 electrically engaged with the bushing cap 3 of the transformer 1 is provided, and one side of the finger shape portion 7 has the second auxiliary cable 15 and the fourth auxiliary cable. By using the bushing clamp 6 in which two connecting holes 8 and 9 are formed, one end of which is electrically connected to one end of the 25, respectively.
The second auxiliary cable 15 is selectively connected or disconnected between the primary bushing cap 3 of the transformer 1 and the two terminals of the first switch 11, and the fourth auxiliary cable 25 is connected to the transformer. A method for changing an uninterruptible transformer on a distribution system transmission line, characterized in that it is selectively connected or disconnected between the primary terminal bushing cap (3) and the four terminals of the second switch (21).
The primary side of the transformer is connected to an arbitrary line (B) on the three-phase line (A, B, C) of the distribution system through which the high voltage of 22.9 KV flows through the branch cable (4) to which the cutout switch (5) is connected. In the distribution system including a transformer (1) connected to the low-voltage line supplied to the customer on the secondary side of the, change the branch cable (4) of the transformer (1) from the line (B) to another line (A) under uninterruption In the connection method,
The first auxiliary cable 14 is connected to the first switchgear in a state in which two terminals of the first switchgear 11 having 1,2 terminals and 4 terminals of the second switchgear 21 having 3 and 4 terminals are made common. Connecting between the first terminal of the (11) and the B line and connecting the common auxiliary cable (35) between the primary side bushing cap (3) of the transformer (1) and the two terminals of the first switch 11 (S1) ,
Connecting the third auxiliary cable 24 between the third terminal of the second switch 21 and the A line in the state where the second switch 21 is opened (S2);
Turning off the cutout switch 5 on the branch cable 4 in the state where the first switch 11 is on (S3),
Disconnecting one end of the branch cable (4) from the B line and connecting it to the A line (S4),
Immediately after turning off the first switch 11, turning on the second switch 21 (S5),
Turning on the cutout switch 5 on the branch cable 4 (S6),
Separate the first auxiliary cable 14, the second auxiliary cable 15, and the common auxiliary cable 35 from the primary side bushing cap 3 of the B line, the A line, and the transformer 1, respectively. Separating from the terminals of the switchgear (11, 21) (S7),
Connection method for changing the uninterruptible transformer on the distribution system transmission line, characterized in that consisting of.

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