KR100968588B1 - Uninterrupted power supply bypass device for repairing underground power lines and equipments and method thereof - Google Patents

Abstract

The present invention relates to an uninterruptible bypass device for repairing underground power distribution equipment, and a bypass method using the same. An underground power distribution facility (low voltage cable, used by an electricity supplier in an urban area to supply electricity to the ground rather than to the ground user) The present invention relates to an uninterruptible bypass device for repairing underground power distribution facilities for repairing the underground junction box, etc. without power failure, and a bypass method using the same.

In order to achieve the above object, the present invention provides a bypass cable for parallel connection between a facility of an electric supplier and a facility of a user, and the bypass cable and underground distribution low voltage facility (secondary low voltage terminal of a ground transformer, low voltage connection box, A connector for connecting a contact between the user and the supplier); An uninterruptible control device having a function of dividing each line into several circuits and controlling an operation state between the circuits; An uninterruptible bypass device for repairing underground power distribution equipment, including a protective cover for protecting a connector of each bypass cable from the outside, and a bypass method using the same.

Underground power distribution equipment, bypass cable device, bypass cable, connector, uninterruptible control device, protective cover

Description

Uninterrupted power supply bypass device for repairing underground power lines and equipments and method

The present invention relates to an uninterruptible bypass device for repairing underground power distribution equipment and a bypass method using the same. More specifically, the underground power distribution equipment used by an electricity supplier in an urban area to supply electricity to the ground rather than to the ground user The present invention relates to an uninterruptible bypass device for repairing underground power distribution facilities for repairing a low voltage cable (ground connection box, etc.) without power failure, and a bypass method using the same.

In Korea, electricity generated by using hydroelectric power, thermal power, nuclear power, etc. has a voltage of about 1 to 50,000 volts, which is boosted to 154,000 volts or 345,000 volts in a high-voltage substation. The low pressure substation is sent to a low voltage substation, and the pressure is reduced to 22,000 to 66,000 volts and transmitted to a transformer near the user.

The electricity transmitted to the transformer near the user is reduced to 220 volts and supplied to the user.

On the path to supply electricity to the power plant, there is a section of overhead lines connected through steel towers and underground lines to bury the wires in the ground.In recent years, when designing a new city through urban development, most underground lines In addition, the existing overhead line section is being replaced by underground lines for urban aesthetics.

However, in the case of adopting a transmission method using overhead lines, various electric works such as transformer repair or power pole replacement can be performed while continuously supplying electricity to users using uninterrupted power distribution methods such as Korean Patent Nos. 355492 and 407376. However, in the case of adopting a transmission method using underground lines, it is very dangerous to remove underground cables from the ground transformers near the user, so that various electric works cannot be performed in a state where power failure is notified and electricity is cut off.

In the case of using the underground line method, a typical problem in which the above uninterruptible method cannot be used is that the structure of the ground transformer is different from that of the overhead line transformer. In contrast, underground distribution facilities are buried underground, which makes it difficult to separate live underground cables from underground equipment without confirmation.

Therefore, the importance of repair and maintenance of underground power distribution facilities buried underground is emphasized.

This is because low-voltage cable is considered to be less important than high-voltage cable, but in reality, accidents or failures are much higher than high-voltage cable due to the leakage of low voltage cable or poor management of low voltage cable.

For example, when a short circuit occurs in a state in which the low-voltage junction box is narrow or the equipment in the junction box is poorly maintained, the pedestrian may be electrocuted during rainy weather.

Even if the electric power company's equipment manager or people working in electrical safety are aware of such risks, in order to repair the defective points, after negotiating a power failure with a user who receives electricity from the junction box, In the state of interruption, there is a hassle and inconvenience of maintaining the low voltage cable inside the junction box at the same time.

However, this is a real problem, especially users who are supplied with electricity through underground distribution lines are buildings adjacent to roads with more than four lanes, and there are PC rooms and entertainment establishments operating inside, so friction with them Can not be avoided.

Therefore, there is a problem in that additional work costs are generated because work must be done at dawn or on a holiday that is not currently in operation, and even if this is impossible, a defective part is left for a long time and causes a short circuit.

Accordingly, in order to solve such a problem, Korean Patent Registration No. 10-769583 discloses "a method for replacing a ground transformer in an underground distribution line by an uninterruptible construction method". There is a problem that it is not applicable to the maintenance of the low voltage junction box of the underground distribution line and the low voltage line passing through the junction box because it is limited to replacement.

Therefore, the present invention has been invented to solve the above problems, by using a bypass cable application method to connect the power to the ground transformer in a live state to continuously power the user such as home, office, factory, etc. Supply is to provide an uninterruptible bypass device for repairing underground distribution facilities and a bypass method using the same to allow the underground distribution facilities to be repaired or replaced in an uninterrupted state.

In order to achieve the above object, the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention, one side is connected to the low voltage terminal of the ground transformer, low voltage connection box or the user's inlet via the connector 20 as a medium. Bypass cable 10; And an uninterruptible control device (30) having a function of controlling the operation state between circuits by connecting the other side of the bypass cable (10) and dividing each line into several circuits. Live confirmation lamp 31 for recognizing whether or not, an imaging confirmation lamp 32 for recognizing the missing phase between the branch circuit, and an on / off switch 33 for controlling the operation of the uninterruptible control device. And a connection unit 34 having a plurality of connection terminals to which the bypass cable is connected so that each line can be separated into several circuits, and a line confirmation switch 35 for confirming whether a closed circuit of each line to be operated in parallel is configured. It includes an uninterruptible control device 30 having a). The line check switch 35 has a line check lamp 36 that is turned on to check whether the closed circuit is configured when a DC current transmitted to a contact with a predetermined magnitude is detected by returning through a closed circuit.
In addition, the bypass method using the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention, the underground low-voltage wiring cable line of the ground transformer 100 in the uninterrupted construction section to detect the transition point and user matters and to determine the work method Determining a first step;

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A second step of determining and laying the number of installation of the bypass cable 10 or the installation section in the working section after the measurement of the load current of the circuit to be bypassed;

A third step of confirming whether the on / off switch (33) of the uninterruptible control device (30) is off and connecting the bypass cable (10) to the uninterruptible control device (30) through a connector (20);

A fourth step of connecting the bypass cable 10 to the ground transformer 100, the low voltage junction box 110, and a user inlet;

A fifth step of confirming whether the normal circuit is configured by operating the line check switch 35 after checking the live and missing state through the uninterruptible control device 30, and operating the on / off switch 33 in parallel operation Wow;

A sixth step of cutting the low-voltage cable 120 at the work site, installing an insulation cap, and measuring a voltage at a user's entry point;

A seventh step of installing the insulation cap after cutting the low-voltage cable 120 at the power supply side of the working place, and then inspecting the cable in the working section direction and checking the oblique state;

And an eighth step of performing repair work on the underground power distribution facility when there is no abnormality after measuring the current of the bypass cable 10.

As described above, according to the present invention, an uninterruptible bypass device for repairing underground power distribution equipment and a bypass method using the same, a connector is used to facilitate disconnection between the contacts, and bypass connectors suitable for different locations. It can be used semi-permanently because it is used in combination with the cable, and the effect of reducing another failure factor can be reduced by minimizing the external influence of the installed equipment.

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

1 is a block diagram showing an uninterruptible bypass device for repairing underground power distribution equipment according to the present invention, Figures 2 to 4 is a block diagram showing a connector of the uninterruptible bypass device for repairing underground power distribution equipment according to the present invention. 5A and 5B are a side view and a plan view showing an uninterruptible control device for an uninterruptible bypass device for repairing underground distribution facilities according to the present invention, and FIG. 6 is a protective cover for an uninterruptible bypass device for repairing underground distribution facilities according to the present invention. It is a perspective view showing.

In addition, Figure 7a is a view showing a normal parallel operation state of the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention, Figure 7b shows a closed circuit in the operating state of Figure 7a, Figure 8a is a ground according to the present invention It is a figure which shows the abnormal parallel operation state of the uninterruptible bypass apparatus for repairing power distribution facilities, and FIG. 8B shows the closed circuit in the operation state of FIG. 8A.

As illustrated in FIG. 1, the present invention includes a bypass cable 10 for parallel connection between a facility of an electric provider and a facility of a user. One side of the bypass cable 10 is connected to the underground distribution low voltage facility, that is, the secondary low voltage terminal of the ground transformer 100, the low voltage connection box 110, and the user inlet (contact point between the user and the supplier) through the connector 20. It is connected, the other side is connected to the uninterruptible control device 30. In addition, the present invention is connected to the other side of the low-voltage terminal, low-voltage junction box 110, the bypass cable 10 connected to the user inlet point of the acupressure transformer 100, each line is connected to a number of circuits, for example ground transformer and low voltage connection It is divided into a circuit between a ship, a ground transformer and a circuit between a user entrance point, and includes an uninterruptible control device 30 having a function of controlling an operation state between circuits. In addition, the present invention comprises a protective cover 40 for protecting the connector 20 of each bypass cable 10 from the outside.

In more detail, the bypass cable 10 is made of an insulated wire made of a silicone rubber material that exhibits the characteristics of the silicone rubber as it is, and has high tear, heat resistance, high voltage, high strength, and super heat resistance.

In addition, the cable is very flexible and easy to wire and install.

The connector 20, as shown in Figures 2 to 4, the ground transformer connector 21, the inlet connector 22 which is a connector that is connected to the contact point between the user and the electricity supplier that is the user inlet, the low-voltage connection box Connector 23. The ground transformer connector 21 is fixed to the low voltage terminal block 210 and the bypass cable 10 of the ground transformer 100, the fastening hole 211 is formed in the plate 212, as shown in FIG. A conductor portion 215 having a fastening hole 216 that is connected to the detachable easy pin using a pin (not shown) and is matched with a fastening hole 211 formed in the low pressure terminal block 210, and the low pressure terminal block. Consists of the fastening bolt 230 is fastened to the fastening holes (211,216) formed in the 210 and the conductor portion 215.

That is, the fastening hole 216 of the conductor portion 215 is matched with the fastening hole 211 of the low voltage terminal block 210, and then fastened through the fastening bolt 230 to be electrically connected to the uninterruptible control device 30. It is supposed to be connected.

As shown in FIG. 3, the pull-in connector 22 is connected to the low-voltage termination connecting member 225 connected to the user side to be easily detached and connected by using the bypass cable 10 and the fixing pin ( 220 and the low voltage terminal member 225 having a plurality of connection parts 226 to which the conductor part 220 is inserted and electrically connected.

As shown in FIG. 4, the low pressure junction box connector 23 is easily connected and detached using a bypass cable 10 and a fixing pin, and a low pressure cable 120 is connected to an upper side thereof. Consists of a conductor portion 230 made of a type.

In this case, the connectors 20 may be formed of other types of connectors, but the present invention is not limited thereto.

As shown in FIGS. 5A and 5B, the uninterruptible control device 30 can recognize whether there is an open phase between the live confirmation lamp 31 and the branch circuit to recognize whether the bypass cable 10 is live. Integrated phase check lamp (32), an on / off switch (33) for controlling the operation of the uninterruptible control device (30), and a bypass cable (10) so as to separate each line into several circuits. It comprises a connecting portion 34 to which the joined conductor portion is connected. The connection part 34 is provided with a plurality of connection terminals as shown in FIG. 5A and connected to the other side of each bypass cable connected to the low voltage connection box, the user inlet point, and the like, respectively. In addition, the uninterruptible control device 30 includes a line check switch 35 capable of confirming the parallel operation state, that is, whether a closed circuit of each line in parallel operation is configured.

FIG. 6 shows an example of a protective cover 40 for protecting the connector 20 of each bypass cable 10 from the outside, wherein the protective cover is for a ground transformer, a termination member, a low voltage junction box, and a bypass. It consists of a protective cover for a pass cable.

Here, as shown in FIG. 7A, the uninterruptible control device 30 configures the closed circuit of FIG. 7B in a normal bypass parallel operation state, and whether or not the closed circuit is configured includes a normal bypass section. It is an important medium for judging whether or not there is.

At this time, the line check switch 35 provided in the uninterruptible control device 30 is closed when the line check lamp 36 is turned on by returning a DC current transmitted with a predetermined magnitude to a contact through a closed circuit. It will check whether the configuration of.

On the other hand, as shown in Figure 8a, when the parallel operation in the abnormal operation state, as shown in Figure 8b, the closed circuit is not formed so that the line confirmation lamp 36 does not turn on, thereby detecting this You can check for errors and correct them.
That is, since the closed circuit is formed in the connected state of FIG. 7B, the line confirmation lamp 36 is turned on because the DC current is returned through the closed circuit, but the closed line circuit is not formed in the connected state of FIG. 8B, so the line confirming lamp 36 is not lit. Do not. This allows you to check whether each line is normally connected to form a closed circuit.

If this error is not found and the parallel operation is continued, parallel operation is performed between the other ground transformers, which causes various problems such as burnout of the transformer and generation of a power failure customer.

Therefore, before performing the repair or replacement work process of the underground power distribution equipment using the present invention to perform a line survey of the work interval, the bypass circuit is configured based on the information obtained at this time.

However, many problems arise if the correct circuit is not formed by utilizing the function of the present invention before parallel operation, and thus the present invention can realize the uninterruptible bypass process of the underground power distribution facility by incorporating this function.

Hereinafter, an uninterruptible bypass process using the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention configured as described above will be described with reference to the flowchart of FIG. 9.

① The operator explores the underground low-voltage wiring cable line of the ground transformer 100 in the uninterrupted construction section, grasps the transition place and the user details, and decides the working method.

② After measuring the load current of the line to be bypassed, determine the number of laying of the bypass cable (10) or laying section in the working section and install it.

③ Check whether the on / off switch 33 of the uninterruptible control device 30 is off and connect the bypass cable 10 to the uninterruptible control device 30 through the connector 20.

④ After connecting the bypass cable 10 to the ground transformer 100, the low-voltage junction box 110, the user inlet and the like, install a protective cover 40 for each structure.

⑤ After checking the live and missing state through the live check lamp 31 and the open phase check lamp 32 provided in the uninterruptible control device 30, check whether the normal circuit is configured by operating the line check switch 35. Then, the on / off switch 33 is operated to run in parallel.

⑥ Cut the low voltage cable 120 at the load side of the work place, install the insulation cap, and measure the voltage at the user's entrance point.

⑦ Measure the load of pressurized bypass cable (10) and check for any abnormality.

⑧ After cutting the low voltage cable (120) on the power supply side of the work place, install the insulation cap, inspect the cable in the working section direction and check the oblique state.

⑨ If there is no abnormality after measuring the current of the bypass cable 10, repair the underground power distribution equipment.

후에 After the completion of maintenance work, the demolition shall be carried out in the reverse order of installation.

Through such repair work, it is possible to prevent the occurrence of inconvenience or economic loss of users, such as a number of homes or businesses, which are powered by underground distribution facilities, thereby narrowing the low-voltage junction box (110), Repair of complex facilities inside the low voltage junction box (110), replacement of underground distribution trunk cables, replacement of incoming cables from the low voltage junction box (110) to the user entry point, earth leakage cable replacement, maintenance of the insertion point, ground transformer (100) replacement, load between banks It is a new uninterruptible bypass device for repairing underground power distribution facilities that can be adjusted and a bypass method using the same.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the scope of the appended claims. It will be understood by those skilled in the art that various modifications may be made and equivalents may be resorted to without departing from the scope of the appended claims.

1 is a block diagram showing an uninterruptible bypass device for repairing underground distribution facilities according to the present invention,

2 is a block diagram showing a ground transformer connector of the uninterruptible bypass device for repairing underground power distribution equipment according to the present invention;

3 is a block diagram showing a connector for the inlet of the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention,

Figure 4 is a block diagram showing a connector for a low-voltage junction box of the uninterruptible bypass device for maintenance of underground power distribution equipment according to the present invention,

5A and 5B are a side view and a plan view showing an uninterruptible control device of an uninterruptible bypass device for repairing underground power distribution facilities according to the present invention;

6 is a perspective view showing a protective cover of the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention;

Figure 7a is a view showing a normal parallel operation state of the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention,

7B is a closed circuit in the operating state of FIG. 7A;

8A is a view showing an abnormal parallel operation state of the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention;

8B is a closed circuit in the operating state of FIG. 8A;

9 is a flowchart showing the operation process of the uninterruptible bypass device for repairing underground power distribution facilities according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: bypass cable 20: connector

30: uninterruptible control device 40: protective cover

Claims (7)

delete delete delete In the uninterrupted bypass device for repairing underground power distribution equipment, A bypass cable 10 having one side connected to the low voltage terminal of the ground transformer, the low voltage junction box, or the user's inlet via the connector 20; And The other side of the bypass cable 10 is connected to each of the uninterruptible control device 30 has a function that can divide each line into several circuits and control the operation state between circuits, whether the bypass cable 10 is live or not Live confirmation lamp (31) for recognizing the, phase detection lamp 32 for recognizing the missing phase between the branch circuit, on / off switch (33) for controlling the operation of the uninterruptible control device and A connection unit 34 having a plurality of connection terminals to which the bypass cable is connected so that each line can be separated into a plurality of circuits, and a line check switch 35 for confirming whether a closed circuit of each line to be operated in parallel is configured. An uninterruptible bypass device for repairing underground distribution facilities, including an uninterruptible control device (30). The method of claim 4, wherein The line check switch 35 is provided with a line check lamp 36 that is turned on to check whether the closed circuit configuration, when the DC current transmitted to a contact with a constant magnitude is detected by the return loop. Uninterruptible bypass device for repairing underground power distribution equipment. delete delete

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