KR102588996B1 - System and method for power distribution and monitoring of sequential power distributor - Google Patents

Abstract

The present invention relates to a system and a method for power distribution and monitoring of a sequential power distributor, wherein the system is controlled by a smartphone or remote control to recognize which device is connected to which outlet, accordingly delay and supply power most properly, and monitor the same. The system comprises: an input terminal that receives input information, that is information connecting audio devices corresponding to each channel installed in the sequential power distributor; a control terminal that, if receiving the input information from the input terminal to rearrange the order in which power is supplied to an operator or determine the same as input, generates a switching signal according thereto, determines the difference in delay time of power supplied to the outlet of each channel to generate the same as a delayed switching signal, and generates a confirmation signal to be transmitted to the input terminal; and a sequential power distributor that performs a control operation to change the switching order of the power supplied to the outlet of each channel according to the order changed by the switching signal, and sets the delay time of the power applied to the outlet of each channel according to the delayed switching signal to apply the same, thereby reducing noises in equipment like audio equipment connected to the outlet and minimizing the shock applied to the equipment by recognizing which device is connected to which outlet, accordingly delaying and supplying power most properly, and monitoring the same.

Description

Power distribution and monitoring system and method of sequential power distributor {SYSTEM AND METHOD FOR POWER DISTRIBUTION AND MONITORING OF SEQUENTIAL POWER DISTRIBUTOR}

The present invention relates to a power distribution and monitoring device and method for a sequential power distributor. More specifically, it is controlled by a smartphone or remote control to recognize which device is connected to which outlet and delay power accordingly. It relates to a power distribution and monitoring device and method of a sequential power distributor that can supply and monitor the same.

Generally, multi-outlets are used to supply power to multiple devices. However, multi-outlets have the disadvantage that power is not supplied sequentially, causing system instability and device damage. In particular, if power is not supplied sequentially to audio devices, pop-noise may occur, which may cause discomfort to the surrounding area and cause problems such as shortening the lifespan of the audio device. .

In order to compensate for these shortcomings, a sequential power supply device has been proposed that can supply power sequentially with a delay time rather than supplying power to each outlet simultaneously.

However, this conventional sequential power supply device also has the following problems. In systems where sequential power supply is applied (especially sound systems), when turning on the power, peripheral devices must be turned on first, and the power amplifier and speakers must be turned on last. Furthermore, when turning off, the speakers and power must be turned on last. Turn off the amplifier first and peripheral devices later to avoid shock to the entire audio device. In this way, a sequential power supply device has multiple outlets, and each outlet is numbered. Connect the source device, audio mixer, equalizer, power amplifier, and speaker sequentially in this number order. However, there may be cases where workers who connect and use audio do not know the meaning of using a sequential power supply, or do not know the order in which to connect and use it because they do not know the flow of electricity or signals. If the worker incorrectly connects the cord to the outlet, the pop noise that occurs when using a general power supply may occur, as described above.

In other words, if the order of audio devices is incorrectly connected or set to the sequential power distributor, the problem described above may occur. In other words, incorrect connections or settings can shorten the lifespan of audio devices or cause breakdowns. For example, if the order of power supplied to audio devices in a sequential power distributor is reversed or supplied simultaneously, there is a problem that noise may occur, and this can affect not only pop noise but also the durability and lifespan of audio devices. There is.

Republic of Korea Patent Publication No. 10-2006-0021184 (2006.03.07.) ‘Timing circuit and sequential power supply device using the same’

The present invention was created to meet the above-described need, and the purpose of the present invention is to control it by a smartphone or a dedicated remote control, and when it recognizes which device is connected to which outlet, it most appropriately delays and supplies power accordingly. The purpose is to provide a power distribution and monitoring system and method for a sequential power distributor that can reduce noise in equipment such as audio equipment connected to an outlet and minimize shock to the equipment by enabling this to be monitored.

The problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned can be clearly understood by those skilled in the art from the description below.

The power distribution and monitoring system of the sequential power distributor of the present invention to achieve the above-described purpose is,

An input terminal that receives input information, which is information connecting audio devices corresponding to each channel installed in the sequential power distributor;

When input information is received from the input terminal and the order in which power is applied to the operator is rearranged or determined as is, a switching signal is generated accordingly and the delay time difference of power applied to each channel outlet is determined and delayed. A control terminal that generates a switching signal and a confirmation signal for transmission to the input terminal; and

Sequential power that controls to change the switching sequence of the power applied to the outlet of each channel according to the order changed by the switching signal, and sets the delay time of the power applied to the outlet of each channel according to the delay switching signal. It consists of a distributor;

The sequential power distributor,

first switch;

second switch;

It is turned on/off by the first switch, receives a switching signal and a delayed switching signal from the control terminal, and when a request to transmit switching information is received from the control terminal, it sequentially lists and responds to the outlets of the approved channels. a communication unit that transmits switching information including sequential information indicating the connected devices and delay time information indicating the time difference between power sequentially applied to each outlet to the control terminal;

When the first switch is turned on/off and turned on, the switching order is controlled to change according to the switching signal received from the control terminal, and when the second switch is turned on, the delay time set at the outlet of each channel according to the delay switching information a control unit that controls power to be applied with a delay of as much as that;

When it is turned on/off by the second switch and a switching signal is input from the control terminal, power supplied from the generator or commercial power source is supplied in a changed order to each device connected to the outlet corresponding to the channel according to the switching signal. A switching unit that switches to block; and

A timer that is turned on/off by the second switch, and when a delayed switching signal is received from the control terminal, the power applied to each channel outlet is delayed by the corresponding time and sequentially applied or blocked sequentially according to the received delayed switching signal. It may be composed including ;.

The delay switching signal is a time selected by the operator of the control terminal and input as a delay time to the control terminal, and may be a time selected from 0.1 to 10 seconds.

The sequential power distributor,

When a request to transmit switching information including power-on order, sequential information connecting devices, and delay time information indicating the delayed time is received from the control terminal, the control unit may be configured to transmit switching information to the control terminal.

The control terminal may be configured to check when switching information is received from the sequential power distributor and confirm that each device is connected to the sequential power distributor and that sequential power is supplied with a delay according to a set delay time.

When cutting off the power connected to the sequential power distributor, the operator of the input terminal turns off the second switch so that the power is cut off in the reverse order of the previous power supply by a switching signal, and the switching unit and timer are turned off and an off signal is generated. This can be configured to transmit this to the control terminal to notify that the power to the outlet has been sequentially cut off with a time delay.

The power distribution and monitoring method of the sequential power distributor of the present invention to achieve the above-described purpose is,

The input terminal operator connects the cord to the outlet of each channel of the sequential power distributor, turns on the first switch, and generates input information connecting the outlets and devices of each channel to generate input information through the input terminal. transmitting to the control terminal;

When receiving input information, the control terminal transmits switching information changed and generated by the control terminal operator and delayed switching information generated by the control terminal operator to the sequential power distributor;

Transmitting a confirmation signal generated by the control terminal to an input terminal;

When the input terminal receives the confirmation signal, the input terminal operator turns on the second switch of the sequential power distributor to change the order of channels sequentially supplied by the sequential power distributor according to the switching signal;

Controlling the sequential power distributor so that power supplied to outlets of channels sequentially supplied according to a delay switching signal is delayed by a delay time according to the delay time; and

The sequential power distributor is configured to include a step of transmitting completion information generated by the sequential power distributor to the control terminal when a request for a completion signal is received from the control terminal.

A control terminal requesting switching information including sequential information and delay time information on which power was sequentially supplied to the outlets of each sequential channel from the sequential power distributor; and

The sequential power distributor may further include transmitting the generated switching information to the control terminal.

Turning off the second switch by the operator of the input terminal so that the power is cut off in reverse order of the previous power supply order by a switching signal; and

It may further include the step of transmitting an off signal generated by the operator of the input terminal to the control terminal to inform that the power has been safely turned off.

The power distribution and monitoring system and method of the sequential power distributor according to the present invention is controlled by a smartphone or remote control, and when it recognizes which device is connected to which outlet, it most appropriately delays power supply and monitors it accordingly. This has the effect of reducing noise from equipment such as audio equipment connected to an outlet and minimizing shock to the equipment.

The effects of the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

1 is a block diagram showing the configuration of a power distribution and monitoring device of a sequential power distributor according to an embodiment of the present invention.
Figure 2 is a block diagram showing the configuration of a sequential power distributor according to an embodiment of the present invention.
Figure 3 is a flow chart showing the power distribution process of the sequential power distributor according to an embodiment of the present invention.
Figure 4 is a flowchart showing a process for monitoring power distribution of a sequential power distributor according to an embodiment of the present invention.
Figure 5 is a flowchart showing the process of turning off the power of the sequential power distributor according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the attached drawings.

Figure 1 is a block diagram showing the configuration of a power distribution and monitoring system of a sequential power distributor according to an embodiment of the present invention.

Referring to FIG. 1, the present invention largely consists of terminals 110 and 120 and a sequential power distributor 200 connected through a wired and wireless public communication network 10.

First, the terminals 110 and 120 can be configured by installing an application on a smartphone capable of communication. The terminals 110 and 120 are divided into an input terminal 110 and a control terminal 120. Here, the input terminal 110 and the control terminal 120 can be distinguished in software depending on the application. First, the operator of the input terminal 110 turns on the first switch 210 to turn on the communication unit and the control unit except for the switching unit and timer that connect the power line.

The operator of the input terminal 110 generates input information, which is information connecting each channel installed in the sequential power distributor 200 and the corresponding audio devices, through the input terminal 110 and transmits it to the control terminal 120, then the control is performed. The operator of the terminal 120 checks the input information and rearranges the order in which power is applied or decides as input. For example, the input information is to install a power amplifier in the outlet of channel 1, connect an equalizer to the outlet of channel 2, a CD player to the outlet of channel 3, the first speaker to the outlet of channel 4, and a microphone to the outlet of channel 5. , If the information is that the second speaker is connected to the channel 6 outlet, the third speaker is connected to the channel 7 outlet, and the audio mixer is connected to the channel 8 speaker, the input information is displayed through the application of the input terminal 110 and the input information is displayed. Transmitted to the control terminal 120. Here, the operator who operates the input terminal 110 may be an operator who is unfamiliar with the characteristics of the device connected to the sequential power distributor 200. Accordingly, the operator of the input terminal 110 can operate the input terminal 110 even if he is ignorant of audio devices. All he has to do is input input information, which is information connecting the devices connected to the outlets of each channel of the sequential power distributor 200. Meanwhile, communication between the input terminal 110 and the control terminal 120 may be data communication through the wired and wireless public communication network 10.

The operator who operates the control terminal 120 may be a person in charge of audio or a veteran operator who has a good understanding of the characteristics of audio devices. The control terminal 120 receives input information, which is information about devices connected to the outlets of each channel, from the input terminal 110 in the form of a GUI or text. The operator of the control terminal 120 determines in what order to sequentially power on each channel. The operator of the control terminal 120 determines the order of power to be supplied sequentially for each channel and generates this as a switching signal, and determines the difference in delay time of the power applied to each channel outlet and generates this as a delay switching signal. For example, the switching signal of the control terminal 120 is a CD player in the 3rd channel outlet, a microphone in the 5th channel outlet, an audio mixer in the 8th channel speaker, an equalizer in the 2nd channel outlet, a power amplifier in the 1st channel outlet, It may be a signal set sequentially so that power is supplied to the first speaker in the 4th channel outlet, the 2nd speaker in the 6th channel outlet, and the 3rd speaker in the 7th channel outlet. That is, when the control terminal 120 recognizes that the operator operating the input terminal 110 has incorrectly connected the audio device to each channel outlet, it generates a switching signal that changes the order in which power is supplied, and the sequential power distributor (200) ) and send it to In addition, the delay switching information generated by the operator transmits a delay switching signal indicating the time difference in which power is applied to the outlet of each channel according to the capacity and function of each audio device to the sequential power distributor 200. Meanwhile, when the second switch is turned on, the switching signal and the delayed switching signal received by the sequential power distributor 200 sequentially supply time-delayed power to the outlets of each channel according to the changed order. If the operator of the control terminal 120 does not change the input information as a result of checking the input information, that is, if there is no change in the order in which power is supplied, the input information is generated as a switching signal as is. Meanwhile, the control terminal 120 generates a confirmation signal along with a switching signal and a delay switching signal. The confirmation signal transmitted from the control terminal 120 to the input terminal 110 is an ACKnowledge signal, and when the operator of the input terminal 110 receives the confirmation signal, the second switch 220 can be turned on.

When a confirmation signal is input from the control terminal 120, the operator of the input terminal 110 can turn on the second switch 220 so that delayed power is sequentially supplied to each device connected to the sequential power distributor 200. The operator of the input terminal 110 turns on the second switch and generates a completion signal through the application indicating that power has been sequentially and delayedly supplied to the devices connected to the sequential power distributor 200. The generated completion signal is transmitted to the control terminal 120 at the request of the control terminal 120 through the wired and wireless public communication network 10.

When the control terminal 120 receives the completion signal and confirms it through the application, it can recognize that power has been sequentially supplied to the audio devices. In addition, the control terminal 120 requests and receives switching information including sequential information and delay time information on the sequential supply of power to the outlets of each sequential channel from the sequential power distributor 200. You can check whether power is supplied correctly. The switching information here includes the order in which power is sequentially supplied to the outlets of each channel, sequential information indicated by connecting the corresponding devices, and delay time information indicating the difference time applied to each outlet.

Meanwhile, when the power connected to the sequential power distributor 200 is cut off, the operator of the input terminal 110 turns off the second switch 220 and the power is cut off in the reverse order of the previous power supply by a switching signal, The control unit 260 generates an off signal. The control unit 260 transmits an off signal to the control terminal 120 before the first switch 210 is turned off. Next, the operator turns off the first switch 210 to turn off the entire sequential power supply 200. Meanwhile, the off signal may include information confirming that the second switch 220 is turned off. The control terminal 120 can receive an off signal and confirm that the switching unit and timer are turned off. Here, the off signal is the ACKnowledge signal.

Figure 2 is a block diagram showing the configuration of a sequential power distributor according to an embodiment of the present invention.

Referring to FIG. 2, the sequential power distributor 200 includes a first switch 210, a second switch 220, a communication unit 230, a switching unit 240, a timer 250, and a control unit 260. It is composed.

First, the first switch 210 turns on the communication unit 230 and the control unit 260, excluding the switching unit 240 and the timer 250 that connect the power line. That is, when the first switch 210 is turned on, except for the switching unit 240 that connects power to the device connected to the outlet of the sequential power distributor 200 and the timer 250 that sets the delay time of the supplied power. The devices are turned on. In this state, when a switching signal is received from the control terminal 120, the order of channels supplied sequentially can be changed. When the confirmation signal along with the switching signal is transmitted to the input terminal 110 through the wired and wireless public communication network 10, the operator of the input terminal 110 who received the confirmation signal turns on the second switch 120 to turn on each sequential power. Power is supplied sequentially to devices connected to the distributor 200 and supplied with a time delay. The switching signal, delayed switching signal, and confirmation signal generated by the control terminal 120 and transmitted to the sequential power generator 200 may be transmitted simultaneously, or the switching signal and delayed switching signal may be transmitted first and the confirmation signal may be transmitted later. However, even when the switching signal, the delayed switching signal, and the confirmation signal are sent simultaneously, the switching signal and the delayed switching signal arrive first by a small difference to the sequential power generator 200 that communicates at a short distance through the communication unit 230, and the wired and wireless public communication network The confirmation signal transmitted through (10) is transmitted to the input terminal 110 later by a slight difference than the switching signal. That is, the switching signal, delayed switching signal, and confirmation signal are transmitted at the same time, but the switching signal and delayed switching signal are received by the input terminal 110 first.

At this time, when sequentially supplied signals are received by the communication unit 230, the control unit 260 controls the switching unit 240 according to the order changed by the switching signal to change the switching order applied to each channel outlet. Control, and when a delay switching signal is received through the communication unit 230, the delay time of power applied to the outlet of each channel is set and applied according to the delay switching signal.

The communication unit 230 receives a switching signal and a delay switching signal from the control terminal 120, and when receiving a request to transmit switching information from the control terminal 120, it sequentially sends this to the outlet of the approved channel in GUI form or text form. Switching information, including sequential information indicating the devices connected to each outlet and delay time information indicating the time difference between power sequentially applied to each outlet, is transmitted to the control terminal 120. As described above, switching information is information that includes sequential information indicating the order in which power is supplied to the outlets of each channel, sequential information indicating the connection of the corresponding devices, and delay time information indicating the delayed time.

When a switching signal is input from the control terminal 120, the switching unit 240 supplies power supplied from a generator or a commercial power source according to the switching signal to each of the devices connected to the outlet corresponding to the channel in a changed order.

When a delay switching signal is received from the control terminal 120, the timer 250 sequentially delays the power applied to each channel outlet by the corresponding time according to the received delay switching signal. The timer 250 delays the time at which the switching unit 240 is applied to the outlet of each channel according to the delay switching signal, so that power is sequentially applied or turned off sequentially. Here, the delay switching signal is a time selected by the operator of the control terminal 120 and input as a delay time to the control terminal 120, and the time may be a time selected from 0.1 to 10 seconds. At this time, the time of the delay switching signal can be set by the operator of the control terminal 120 according to the characteristics of the devices connected to the sequential power distributor 200. For example, depending on the capacity and characteristics of the power amplifier of the audio device connected to the sequential power distributor 200, a delay time must be provided when turning on and off to prevent pop noise. Therefore, since it varies depending on the capacity and characteristics of the power amplifier, the audio Depending on the characteristics of the device, the operator of the control terminal 120 can set the delay time. Meanwhile, the timer 250 may be implemented as a delay circuit.

When the first switch 220 is turned on, the control unit 260 controls the switching unit 240 to sequentially supply power to each outlet of each channel according to the switching signal received from the control terminal 120. do. That is, the control unit 240 controls the switching unit 240 to change the switching order according to the switching signal received from the control terminal 120. Additionally, when the second switch 220 is turned on, the control unit 260 controls the timer 250 according to the delay switching information to delay power by the delay time set to the outlet of each channel.

Meanwhile, a request to transmit switching information is input by the switching unit 240, the timer 250, and the control unit 260, including the order in which power is applied, sequential information for connecting devices, and delay time information indicating the delayed time. When received from the terminal 110 or the control terminal 120, the control unit 260 transmits the switching information from the input terminal 110 or the control terminal 120. When switching information is received through the input terminal 110 and the control terminal 120, it can be confirmed that each device is connected to the sequential power distributor 200 and that sequential power is supplied with a delay according to the set delay time. there is.

Figure 3 is a flowchart showing the power distribution process of the sequential power distributor according to an embodiment of the present invention.

Referring to Figure 3, first in step S202, the operator of the input terminal 110 connects the cord to the outlet of each channel of the sequential power distributor 200, turns on the first switch, and then turns on the outlet of each channel. and generate input information connecting the devices and transmit the generated input information to the control terminal 120 through the input terminal 110.

In step S204, when receiving input information, the control terminal 120 sends the switching information changed and generated by the operator of the control terminal 120 and the delay switching information generated by the operator of the control terminal 120 to the sequential power distributor 200. send.

In step S206, the confirmation signal generated by the control terminal 120 is transmitted to the input terminal 110.

When the input terminal 110 receives the confirmation signal in step S208, the operator of the input terminal 110 turns on the second switch 220 of the sequential power distributor 200, so that the sequential power distributor 200 sequentially operates according to the switching signal. Change the order of channels supplied. If the switching signal and the input signal are the same and there is no change in the order in which they are applied to the outlet of each channel, power can be supplied in the order in which it is applied to the outlet of each channel, that is, in the order of the serial number of each channel.

In step S210, the sequential power distributor 200 controls the power supplied to the outlets of the channels sequentially supplied according to the delay switching signal to be supplied delayed by the delay time according to the delay time.

When a request for a completion signal is received from the control terminal 120 in step S212, the completion information generated by the sequential power distributor 200 is transmitted to the control terminal 120.

Figure 4 is a flowchart showing a process for monitoring power distribution of a sequential power distributor according to an embodiment of the present invention.

First, in step S302, the control terminal 120 requests switching information from the sequential power distributor 200. Here, as described above, the switching information is information including sequential information and delay time information in which power is sequentially supplied to the outlets of each sequential channel.

In step S404, the sequential power distributor 200 transmits the generated switching information to the control terminal 120. The control terminal 120 can check the received switching information to determine whether power has been supplied to the devices connected to the sequential power distributor 200 sequentially according to the switching signal and with a delay of the time set by the delayed switching signal.

Figure 5 is a flowchart showing the process of turning off the power of the sequential power distributor according to an embodiment of the present invention.

First, in step S402, the operator of the input terminal 110 turns off the second switch 220 so that the power is cut off in the opposite order of the previous power supply order by a switching signal. Subsequently, the operator of the input terminal 110 can turn off the first switch 210 to turn off the entire sequential power supply 200.

In step S404, an off signal generated by the operator of the input terminal 110 is transmitted to the control terminal 120 to inform that the power has been safely turned off, and the control terminal 120 can confirm this through the application.

What has been described above is only an example for implementing the power distribution and monitoring system and method of the sequential power distributor according to the present invention, and the present invention is not limited to the above embodiment, but as claimed in the following patent claims. It will be said that the technical spirit of the present invention extends to the extent that anyone skilled in the art can make various changes without departing from the gist of the present invention.

10: wired and wireless public communication network 110, 120: terminal
200: sequential power distributor 210, 220: switch
230: communication unit 240: switching unit
250: timer 260: control unit

Claims (9)

An input terminal that receives input information, which is information connecting audio devices corresponding to each channel installed in the sequential power distributor;
When input information is received from the input terminal and the order in which power is applied to the operator is rearranged or determined as is, a switching signal is generated accordingly and the delay time difference of power applied to each channel outlet is determined and delayed. A control terminal that generates a switching signal and a confirmation signal for transmission to the input terminal; and
Sequential power that controls to change the switching sequence of the power applied to the outlet of each channel according to the order changed by the switching signal, and sets the delay time of the power applied to the outlet of each channel according to the delay switching signal. Including a distributor;
The sequential power distributor,
first switch;
second switch;
It is turned on/off by the first switch, receives a switching signal and a delayed switching signal from the control terminal, and when a request to transmit switching information is received from the control terminal, it sequentially lists and responds to the outlets of the approved channels. a communication unit that transmits switching information including sequential information indicating the connected devices and delay time information indicating the time difference between power sequentially applied to each outlet to the control terminal;
When the first switch is turned on/off and turned on, the switching order is controlled to change according to the switching signal received from the control terminal, and when the second switch is turned on, the delay time set at the outlet of each channel according to the delay switching information a control unit that controls power to be applied with a delay of as much as that;
When it is turned on/off by the second switch and a switching signal is input from the control terminal, power supplied from the generator or commercial power source is supplied in a changed order to each device connected to the outlet corresponding to the channel according to the switching signal. A switching unit that switches to block; and
A timer that is turned on/off by the second switch, and when a delayed switching signal is received from the control terminal, the power applied to each channel outlet is delayed by the corresponding time and sequentially applied or blocked sequentially according to the received delayed switching signal. Contains ;,
The sequential power distributor,
When a request to transmit switching information is received from the control terminal, including delay time information indicating the order in which power was applied, sequential information connecting the devices, and delay time information, the control unit transmits switching information to the control terminal,
The control terminal is configured to check when switching information is received from the sequential power distributor and confirm that each device is connected to the sequential power distributor and that sequential power is supplied with a delay according to a set delay time. Power distribution and monitoring system of the distributor. delete According to paragraph 1,
The delay switching signal is a time selected by the operator of the control terminal and input as a delay time to the control terminal, and is a time selected from 0.1 to 10 seconds. A power distribution and monitoring system for a sequential power distributor, characterized in that. delete delete According to paragraph 1,
When cutting off the power connected to the sequential power distributor, the operator of the input terminal turns off the second switch so that the power is cut off in the reverse order of the previous power supply by a switching signal, and the switching unit and timer are turned off and an off signal is generated. A power distribution and monitoring system for a sequential power distributor that transmits this to the control terminal to notify that the power to the outlet has been sequentially cut off with a time delay. The input terminal operator connects the cord to the outlet of each channel of the sequential power distributor, turns on the first switch, and generates input information connecting the outlets and devices of each channel to generate input information through the input terminal. transmitting to the control terminal;
When receiving input information, the control terminal transmits switching information changed and generated by the control terminal operator and delayed switching information generated by the control terminal operator to the sequential power distributor;
Transmitting a confirmation signal generated by the control terminal to an input terminal;
When the input terminal receives the confirmation signal, the input terminal operator turns on the second switch of the sequential power distributor to change the order of channels sequentially supplied by the sequential power distributor according to the switching signal;
Controlling the sequential power distributor so that power supplied to outlets of channels sequentially supplied according to a delay switching signal is delayed by a delay time according to the delay time; and
The sequential power distributor transmits completion information generated by the sequential power distributor to the control terminal when a request for a completion signal is received from the control terminal;
A control terminal requesting switching information including sequential information and delay time information on which power was sequentially supplied to the outlets of each sequential channel from the sequential power distributor; and
A power distribution and monitoring method of a sequential power distributor comprising: the sequential power distributor transmitting the generated switching information to a control terminal. delete In clause 7,
Turning off the second switch by the operator of the input terminal so that the power is cut off in reverse order of the previous power supply order by a switching signal; and
A power distribution and monitoring method for a sequential power distributor further comprising: transmitting an off signal generated by the operator of the input terminal to the control terminal to inform that the power has been safely cut off.