KR102694310B1 - Apparatus for replacing transformer - Google Patents

Abstract

The present invention relates to an uninterruptible ground voltage transformer replacement device and method, and is characterized by including a step in which a server collects each load power of a target ground transformer to be replaced and an adjacent ground transformer adjacent to the target ground transformer, a step in which the server analyzes each of the collected load powers to determine whether a current load state is a light load, and a step in which, if the current load state is determined to be a light load, the server requests performance of a first uninterruptible replacement method in which the target ground transformer is replaced in such a manner that the load power of the target ground transformer is shared by the adjacent ground transformers.

Description

{APPARATUS FOR REPLACING TRANSFORMER}

The present invention relates to an uninterruptible replacement device and method for a ground transformer, and more specifically, to an uninterruptible replacement device and method for a ground transformer capable of stably replacing a ground transformer by collecting the load power of the ground transformer and determining in advance whether the load power can be shared during replacement.

In general, power supplied from substations to consumers is supplied to consumers through high-voltage distribution lines of overhead lines and underground lines, and for this purpose, a ground transformer is provided that steps down the high-voltage power of 22.9 kV to a low-voltage of 380/220 V.

Meanwhile, if a failure occurs during the operation of the ground transformer, or if the allowable current exceeds the limit due to aging or an increase in the customer's load, the ground transformer needs to be replaced.

At this time, in order to improve the reliability of electricity quality, power outages in the underground sector inevitably occur during the process of performing maintenance on power facilities. However, due to the diversification of user characteristics and the spread of advanced IT devices, it is realistically very difficult to negotiate a ceasefire for a certain period of time. Accordingly, complaints and demands for compensation for damages due to delays in work hours are increasing. Therefore, recently, most ground transformers are being replaced late at night through difficult ceasefire negotiations with customers. This is causing problems of increased workload for those in charge of replacing ground transformers and employees of the company.

In response to this situational awareness, there is a need for technology development to efficiently replace ground-level transformers installed in urban areas and densely populated areas, thereby reducing work time and costs.

The background technology of the present invention is disclosed in Korean Patent Publication No. 10-1080680 (November 1, 2011), entitled ‘Transformer Uninterrupted Replacement Method.’

The present invention has been created to solve the above-mentioned problems, and an object of one aspect of the present invention is to provide an uninterruptible replacement device and method for an above-ground transformer, which can replace an above-ground transformer without interruption by utilizing a nearby above-ground transformer to reduce construction costs and ensure safe work when replacing an above-ground transformer.

A method for uninterruptible replacement of a ground transformer according to one aspect of the present invention is characterized by including a step in which a server collects each load power of a target ground transformer to be replaced and an adjacent ground transformer adjacent to the target ground transformer, a step in which the server analyzes each of the collected load powers to determine whether a current load state is a light load, and a step in which the server requests performance of a first uninterruptible replacement method in which replacement of the target ground transformer is performed in such a manner that the load power of the target ground transformer is shared by the adjacent ground transformers if the current load state is determined to be a light load.

In the present invention, in the collecting step, the server is characterized in that it collects each load power using each terminal device connected to the target ground transformer and the adjacent ground transformer.

In the present invention, in the judging step, the server is characterized in that it compares the combined power of the load power of the target ground transformer and the load power of the adjacent ground transformer with the power capacity of the adjacent ground transformer to determine whether the current load state is light load.

In the present invention, in the judging step, the server is characterized in that it determines that the load is light if the total power is smaller than the power capacity of the adjacent ground transformer.

In the present invention, if it is determined that the current load state is not a light load, the method further comprises a step of requesting execution of a second uninterruptible replacement method in which the replacement of the target ground transformer is performed in such a manner that the load power of the target ground transformer is shared by a mobile transformer car.

In the present invention, the first uninterruptible power replacement method is characterized in that the replacement of the target ground transformer is performed while the low-voltage cable of the target ground transformer and the low-voltage cable of the adjacent ground transformer are connected in parallel to form a bypass route.

In the present invention, it is characterized in that the target ground transformer and the adjacent ground transformer are connected in parallel through a detection switch connected to the low-voltage cable of the target ground transformer and the low-voltage cable of the adjacent ground transformer.

An uninterruptible replacement device for a ground transformer according to one aspect of the present invention is characterized by including a target ground transformer to be replaced, a terminal device which collects each load power of an adjacent ground transformer adjacent to the target ground transformer, a low-voltage cable which connects a low-voltage terminal of the target ground transformer and a low-voltage terminal of the adjacent ground transformer to form a bypass route for uninterruptible replacement of the target ground transformer, and a server which determines whether a light load is present based on the load power collected from the terminal device and determines a replacement method for the target ground transformer based on the determination result.

In the present invention, the terminal device is characterized by including a terminal for acquiring load power from the target ground transformer and the adjacent ground transformer, and a main terminal for transmitting the acquired load power to the server.

The present invention is characterized by further including a phase detection switch that is connected to the low-voltage cable and performs phase detection by connecting the target ground transformer and the adjacent ground transformer in parallel.

In the present invention, when the presence of a light load is determined by the server, the invention further comprises a method for replacing the target ground transformer according to the presence of a light load and an output device for outputting the collected load power through a notification.

An apparatus and method for uninterrupted replacement of a ground transformer according to one aspect of the present invention can perform uninterrupted replacement of a ground transformer by forming a bypass route from a target ground transformer to an adjacent ground transformer during replacement so that the load power generated during replacement is borne by the adjacent ground transformer.

According to another aspect of the present invention, an uninterruptible replacement device and method for a ground transformer can prevent safety accidents that may occur during the replacement process of a target ground transformer by preventing parallel operation turning on when the low-voltage system of the ground transformer and the low-voltage system of an adjacent ground transformer are not in phase.

FIG. 1 is a schematic diagram illustrating an uninterruptible power replacement device for a ground transformer according to one embodiment of the present invention.
FIG. 2 is a schematic diagram for explaining a test switch of an uninterruptible power replacement device for a ground transformer according to one embodiment of the present invention.
FIG. 3 is a block diagram illustrating a ground transformer uninterruptible replacement device according to one embodiment of the present invention.
FIG. 4 is a flowchart for explaining a method for uninterrupted replacement of a ground transformer according to one embodiment of the present invention.
FIG. 5 is a flowchart for explaining a step of collecting load power in a method for uninterrupted replacement of a ground transformer according to one embodiment of the present invention.

Hereinafter, a ground transformer uninterruptible replacement device and method according to an embodiment of the present invention will be described in detail with reference to the attached drawings. In this process, the thickness of lines and the size of components illustrated in the drawings may be exaggerated for the sake of clarity and convenience of explanation. In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, the definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a schematic diagram illustrating an uninterruptible power replacement device for a ground transformer according to one embodiment of the present invention.

Referring to FIG. 1, an uninterruptible ground transformer replacement device according to one embodiment of the present invention includes a target ground transformer (110) to be replaced, an adjacent ground transformer (120) adjacent to the target ground transformer (110), and a low-voltage cable (130) that connects a low-voltage terminal of the target ground transformer (110) and a low-voltage terminal of the adjacent ground transformer (120) to form a bypass route for uninterruptible replacement of the target ground transformer (110).

The above-ground transformer can be used to step down the high voltage of 22.9 kV to a low voltage of 380/220 V for distribution from a substation to a consumer. In addition, the above-ground transformer can be equipped with a low voltage terminal connection for connecting a low voltage cable (130), and the low voltage terminal connection can be installed without disconnecting the existing cable connected to the above-ground transformer.

The target ground transformer (110) indicated in this embodiment refers to a ground transformer that needs to be replaced due to reasons such as a failure occurring during operation of the ground transformer, aging, or exceeding the allowable current due to an increase in the customer's load.

In addition, the adjacent ground transformer (120) indicated in this embodiment is a ground transformer that temporarily bears the load power of the target ground transformer (110) while the target ground transformer (110) is being replaced, and a ground transformer located at a distance that can be connected to the target ground transformer (110) through a low-voltage cable (130) may correspond to the adjacent ground transformer (120). At this time, the low-voltage cable (130) is basically manufactured to have a length of 25 m, and can be extended so that several low-voltage cables (130) can be connected to connect the target ground transformer (110) and the adjacent ground transformer (120).

An uninterruptible power replacement device for a ground transformer according to one embodiment of the present invention may further include a detection switch (140) that is connected to a low-voltage cable (130) and performs detection by connecting a target ground transformer (110) and an adjacent ground transformer (120) in parallel.

FIG. 2 is a schematic diagram for explaining a ground transformer uninterruptible power replacement device inspection switch (140) according to one embodiment of the present invention.

Referring to FIG. 2, the phase-checking switch (140) may include a connection part (141) for connecting a low-voltage cable (130) of a target ground transformer (110), a connection part (141) for connecting a low-voltage cable (130) of an adjacent ground transformer (120), an operating part (142) for controlling the start of the phase-checking switch (140), a control part (143) for aligning the low-voltage system of the target ground transformer (110) and the low-voltage system of the adjacent ground transformer (120) with each other in phase, and a display part (144) for indicating whether the low-voltage system of the target ground transformer (110) and the low-voltage system of the adjacent ground transformer (120) are in phase or reverse phase.

The phase detection switch (140) starts operation by the operating unit (142) and performs phase detection by adjusting the phase of the low-voltage system of the target ground transformer (110) to be in-phase with the adjacent ground transformer (120) through the control unit (143). In addition, the phase detection switch (140) is provided with a display unit (144) that displays whether the low-voltage system of the target ground transformer (110) and the low-voltage system of the adjacent ground transformer (120) are in-phase or reversed, so that the phase detection switch (140) can display in real time whether the target ground transformer (110) and the adjacent ground transformer (120) are in-phase.

A connection part (141) provided on one side of a ground-mounted switch (140) is connected to a low-voltage cable (130) of a target ground transformer (110), and a connection part (141) provided on the other side is connected to a low-voltage cable (130) of an adjacent ground transformer (120), thereby forming a bypass route connecting the target ground transformer (110), the ground-mounted switch (140), and the adjacent ground transformer (120) while the target ground transformer (110) is being replaced. At this time, the target ground transformer (110) and the adjacent ground transformer (120) can be connected in parallel through the ground-mounted switch (140).

The inspection switch (140) can prevent safety accidents that may occur during the replacement process of the target ground transformer (110) by preventing parallel operation from being turned on when the low-voltage system of the target ground transformer (110) and the low-voltage system of the adjacent ground transformer (120) are not in phase. In addition, the inspection switch (140) can prevent damage to the adjacent ground transformer (120) or abnormal current from flowing into the load by stopping parallel operation when an overcurrent occurs due to an overload of the low-voltage system of the target ground transformer (110) or a short-circuit accident during work.

FIG. 3 is a block diagram illustrating a ground transformer uninterruptible replacement device according to one embodiment of the present invention.

Referring to FIG. 3, an uninterruptible ground transformer replacement device according to one embodiment of the invention includes a terminal device (200) that collects each load power of a target ground transformer (110) and an adjacent ground transformer (120), and a server (300) that determines whether a light load is present based on the load power collected from the terminal device (200) and determines a replacement method of the target ground transformer (110) based on the determination result.

The terminal device (200) may include a terminal (210) that acquires load power from a target ground transformer (110) and an adjacent ground transformer (120), and a main terminal (220) that transmits the acquired load power to a server (300).

The terminal (210) is connected to a ground transformer and can collect data for calculating load power such as voltage, current, and temperature flowing to the ground transformer.

The terminal (210) is connected to a ground transformer and can collect load power of the ground transformer. Collection of load power can be accomplished through a current sensor, voltage sensor, and temperature sensor included in the terminal (210).

The terminal (210) transmits the collected load power to the main terminal (220). For example, the terminal (210) can transmit the collected load power to the main terminal (220) via wireless communication using an RF modem.

The main terminal (220) transmits the load power received from the terminal (210) to the server (300). For example, the main terminal (220) can transmit the load power to the server (300) through a wireless network using CDMA.

Since the terminal device (200) including the terminal device (210) and the main terminal device (220) measures the load power of each ground transformer (110, 120), the server (300) can determine the load power by adding the load power of the target ground transformer (110) and the adjacent ground transformer (120) in advance of replacing the target ground transformer (110), thereby stably performing the replacement of the target ground transformer (100). In addition, the server (300) can measure the load power of each ground transformer by time through the terminal device (200), and select the time when the load power is the least generated based on the measured load power as the replacement time of the target ground transformer (110), thereby reducing the burden that will occur on the adjacent ground transformer (120) when replacing it.

The server (300) analyzes the load power received from the main terminal (220) to determine whether the current load state is light load. Here, light load means a state in which the combined power of the load power of the target ground transformer (110) and the load power of the adjacent ground transformer (120) at the time when the replacement work of the target ground transformer (110) occurs does not exceed the power capacity of the adjacent ground transformer (120). At this time, the power capacity of the ground transformer can be calculated as the maximum allowable power that the ground transformer can share without causing a breakdown of the ground transformer, and can generally be calculated as 110% of the capacity of the ground transformer. However, the present embodiment is not limited thereto, and the power capacity of the ground transformer can vary depending on the type of transformer or the development of the ground transformer.

Here, the current load status is a criterion for determining whether the load power of the target ground transformer (110) can be shared by the adjacent ground transformer (120) during the time when the replacement work of the target ground transformer (110) occurs, and can be divided into a light load state in which the total power does not exceed the power capacity of the adjacent ground transformer (120), and a non-light load state in which the total power exceeds the power capacity of the adjacent ground transformer (120).

For example, the power capacity of an adjacent ground transformer (120) having a capacity of 100 KVA can be calculated as 110 KVA, and if the load power of the target ground transformer (110) at the same time is 27 KVA and the load power of the adjacent ground transformer (120) is 16 KVA, the combined power is 43 KVA, which does not exceed the power capacity of 110 KVA, and thus can be determined as light load.

The server (300) determines that the load is light when the combined power of the load power of the target ground transformer (110) and the load power of the adjacent ground transformer (120) is less than the power capacity of the adjacent ground transformer (120).

In addition, if the server (300) determines that the current load state is light load, it can request the worker to perform the first uninterruptible replacement method, in which the replacement of the target ground transformer (110) is performed in such a way that the load power of the target ground transformer (110) is shared by an adjacent ground transformer (120), using a predetermined terminal carried by the worker.

According to one embodiment of the present invention, a ground transformer uninterruptible replacement device may further include an output device that outputs a replacement method of a target ground transformer (110) according to whether the load is light and the collected load power through a notification when the server (300) determines whether the load is light.

At this time, the output device may include a monitor, a speaker, a warning light, etc., and the replacement method and the collected load power may be displayed on the screen through the monitor so that the manager managing the server (300) can be informed, or it may be output through sound. In addition, the server (300) may output the replacement method and the collected load power through a smartphone or a portable terminal so that a worker performing the replacement of the ground transformer in the field can immediately know the load power of the target ground transformer (110).

FIG. 4 is a flowchart of a method for uninterrupted replacement of a ground transformer according to one embodiment of the present invention.

Referring to FIG. 4, a method for uninterruptible replacement of a ground transformer according to one embodiment of the invention includes a step (S100) in which a server (300) collects each load power of a target ground transformer (110) to be replaced and an adjacent ground transformer (120) adjacent to the target ground transformer (110), a step (S200) in which the server (300) analyzes each collected load power to determine whether the current load state is a light load, and a step (S300) in which the server (300) requests execution of a first uninterruptible replacement method in which the target ground transformer (110) is replaced in such a way that the load power of the target ground transformer (110) is shared by the adjacent ground transformers (120).

The step (S100) of collecting the load power of each of the target ground transformer (110) to be replaced and the adjacent ground transformer (120) adjacent to the target ground transformer (110) by the server (300) will be explained through FIG. 5.

FIG. 5 is a flowchart of a step (S100) of collecting load power in a method for uninterrupted replacement of a ground transformer according to one embodiment of the present invention.

Referring to FIG. 5, step S100 may include a step (S110) of acquiring load power from a terminal (210), a step (S120) of transmitting the load power acquired from the terminal (210) to a main terminal (220), and a step (S130) of transmitting the load power received from the main terminal (220) to a server (300) using a wireless network.

In the acquisition step (S110), the terminal (210) is connected to each ground transformer and collects each load power.

In the step (S120) of transmitting to the main terminal (220), the terminal (210) transmits the collected load power to the main terminal (220). For example, the terminal (210) can wirelessly transmit the collected load power to the main terminal (220) using an RF modem.

In the step (S130) of transmitting to the server (300), the main terminal (220) can transmit the received load power to the server (300). For example, the main terminal (220) can transmit the received load power to the server (300) using a CDMA wireless network.

In the step (S200) of analyzing each collected load power to determine whether the current load state is a light load, the server (300) compares the combined power of the load power of the target ground transformer (110) and the load power of the adjacent ground transformer (120) with the power capacity of the adjacent ground transformer (120) to determine whether the current load state is a light load.

At this time, the server (300) determines that the total power is less than the power capacity of the adjacent ground transformer (120) and determines that it is a light load.

If the server (300) determines that the current load status is light load, it requests the worker to perform the first uninterruptible replacement method, in which the target ground transformer (110) is replaced in a manner in which the load power of the target ground transformer (110) is shared by an adjacent ground transformer (120), using a predetermined terminal held by the worker (S300).

Here, the first uninterruptible replacement method refers to a technology that enables the replacement of the uninterruptible ground transformer by forming a bypass route by connecting the target ground transformer (110) and the adjacent ground transformer (120) using a cable and a test switch (140) so that the adjacent ground transformer (120) shares the load power of the target ground transformer (110) while the replacement of the target ground transformer (110) is performed.

Specifically, according to the first uninterruptible power replacement method, a worker can perform a series of steps including connecting a low-voltage terminal of a target ground transformer (110) and a phase-checking switch (140) to a low-voltage cable (130), connecting a low-voltage terminal of an adjacent ground transformer (120) and a phase-checking switch (140) to the low-voltage cable (130), performing phase-checking through the phase-checking switch (140), connecting the target ground transformer (110) and the adjacent ground transformer (120) in parallel by turning on the phase-checking switch (140), replacing the target ground transformer (110), and opening the phase-checking switch (140) to remove the low-voltage cable (130).

That is, the first uninterruptible replacement method is performed by replacing the target ground transformer (110) while the low-voltage cable (130) of the target ground transformer (110) and the low-voltage cable (130) of the adjacent ground transformer (110) are connected to form a bypass route.

Here, the target ground transformer (110) and the adjacent ground transformer (120) can be connected in parallel through a test switch (140) connected to the low-voltage cable (130) of the target ground transformer (110) and the low-voltage cable (130) of the adjacent ground transformer.

Meanwhile, if the current load state is determined not to be light load at step S200, the present embodiment may further include a step of requesting the execution of a second uninterruptible replacement method in which the replacement of the target ground transformer (110) is performed by having the mobile transformer car share the load power of the target ground transformer (110) through a predetermined terminal carried by the worker (S400).

Here, the second uninterruptible replacement method refers to a technology that enables uninterrupted replacement of the ground transformer by connecting the target ground transformer (110) and the mobile transformer car to form a bypass route so that the mobile transformer car shares the load power of the target ground transformer (110) while the replacement of the target ground transformer (110) is performed.

As described above, the apparatus and method for uninterruptible replacement of a ground transformer according to one embodiment of the present invention collects the load power of each ground transformer in advance when replacing a ground transformer to determine whether the load power of the target ground transformer (110) can be borne by an adjacent ground transformer (120) during replacement, and forms a bypass route between the target ground transformer (110) and the adjacent ground transformer (120) during replacement so that the load power generated during replacement is shared by the adjacent ground transformer (120), thereby facilitating the replacement of the ground transformer in an uninterruptible manner. In addition, by providing a ground-mounted switch (140) that connects the target ground transformer (110) and the adjacent ground transformer (120) in parallel, if an overcurrent occurs due to an overload of the low-voltage system of the adjacent ground transformer (120) or a short-circuit accident during work during the replacement process, the parallel operation can be stopped, thereby preventing damage to the adjacent ground transformer (120) or abnormal current from flowing into the load.

Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Accordingly, the true technical protection scope of the present invention should be determined by the following patent claims.

110: Target Ground Transformer
120: Adjacent ground transformer
130: Low voltage cable
140: Opener for the sword
141: Connection
142: Control Panel
143: Control Unit
144: Display section
200: Terminal device
210: Terminal
220: Main terminal
300: Server

Claims (1)

A terminal device that collects the load power of each ground transformer to be replaced and an adjacent ground transformer adjacent to the target ground transformer;
A low-voltage cable connecting the low-voltage terminal of the above-mentioned target ground transformer and the low-voltage terminal of the adjacent ground transformer to form a bypass route for uninterrupted replacement of the above-mentioned target ground transformer; and
It includes a server that determines whether the current load status is light load based on the load power collected from the terminal device and determines the replacement method of the target ground transformer based on the determination result.
The above server compares the combined power of the load power of the target ground transformer and the load power of the adjacent ground transformer with the power capacity of the adjacent ground transformer to determine whether the current load state is light load.
The above server determines that the total power is less than the power capacity of the adjacent ground transformer, and
If the above server determines that the current load status is light load, it determines the first uninterruptible replacement method, in which the load power of the target ground transformer is shared by the adjacent ground transformers, as the replacement method of the target ground transformer.
The above terminal device,
A terminal that obtains load power from the above target ground transformer and the adjacent ground transformer; and
Including a main terminal that transmits the acquired load power to the server,
A ground transformer replacement device further comprising a phase detection switch connected to the low-voltage cable to perform phase detection by connecting the target ground transformer and the adjacent ground transformer in parallel.