KR20220001199U - Power distribution device - Google Patents

Abstract

Start the power distribution unit. The present invention can efficiently manage power by distributing and outputting power for each channel in connection with a load device, and controlling power supply by monitoring power output for each channel.

Description

POWER DISTRIBUTION DEVICE

The present invention relates to a power distribution device, and more particularly, to a power distribution device connected to a load device to distribute and output power for a plurality of channels, and to monitor power output for each channel to control power supply .

Recently, the release of integrated ESS (Energy Storage System) is increasing in the new energy business field.

In general, ESS performs charging when there is little demand for power on the grid side, and when there is a lot of power demand, discharges the power storage unit to supply power to the grid, and at the same time, by instantly correcting reactive power to the grid, It serves to stabilize the power.

The PCS (Power Conditioning System) included in such an ESS device receives grid-side power and converts it into DC power, converts the received DC power into AC power, and transmits it to the grid and the load, and the DC power of the battery. and a power storage unit for supplying to the conversion unit.

However, there is a problem in that the development of products to which certification is not applied and the occurrence of fires increase in a state in which certification standards for industrial power devices are ambiguous in systems using large power.

In addition, there is a problem in that it is not easy to install the power control device, and management such as monitoring and control after installation is not easily provided.

Korea Patent Publication No. 10-2085816 (Title of the invention: power conversion device and energy storage system)

In order to solve this problem, an object of the present invention is to provide a power distribution device that is connected to a load device, distributes and outputs power for each channel, and monitors power output for each channel to control power supply.

In order to achieve the above object, an embodiment of the present invention is a power distribution device, wherein the power distribution device converts input power into single-phase power and converts the single-phase power into a load device connected to the power distribution device through a plurality of channels. Distributed and output, but operates so that individual channels are blocked through any one of irreversible blocking and reversible blocking according to the amount of current supplied to each divided channel, and at least one of the voltage, current and power information supplied for each channel characterized in that it is displayed.

In addition, the input power according to the embodiment is characterized in that any one of a 3-phase 4-wire type, a 3-phase 3-wire type, and a single-phase power supply.

In addition, in the power distribution device according to the embodiment, when any one of three-phase, four-wire, three-phase, three-wire, and single-phase power is input, it is converted into single-phase power, and converted into a load device connected through a plurality of channels. a power input unit for distributing and outputting the single-phase power; a current amount sensor unit for detecting the amount of current supplied to each of the plurality of channels from the power input unit; a switch input unit for receiving an operation and setting signal of the power distribution device from a user; a first power cut-off unit installed for each channel to irreversibly block the supply of single-phase power; a power output unit connected to the load device and operable to output distributed power; a display unit for displaying at least one of voltage, current, and power information supplied for each channel; and a control unit that outputs a reversible blocking signal to the power output unit according to the amount of current sensed by the amperage sensor unit, detects voltage, current, and power information supplied to each channel and controls the display unit to be displayed through the display unit. do.

In addition, the power distribution device according to the embodiment further comprises a communication unit for transmitting the blocking information for each channel, voltage, current and power information to a remote management terminal connected through a network.

In addition, the power output unit according to the embodiment is turned on/off according to the reversible blocking signal of the control unit to control the supply of single-phase power for each channel; a filter unit for correcting distortion of the voltage supplied through the channel; and a plurality of output terminals connected to the load device to output the converted single-phase power.

The present invention has the advantage of being able to efficiently manage power by distributing and outputting power for each channel in connection with a load device, and controlling power supply by monitoring power output for each channel.

1 is a block diagram showing the configuration of a power distribution device according to an embodiment of the present invention.
2 is a block diagram illustrating a configuration of a power output unit of the power distribution device according to the embodiment of FIG. 1;
Figure 3 is an exemplary view showing the configuration of the front panel portion of the power distribution device according to the embodiment of Figure 1;
Figure 4 is an exemplary view showing the configuration of the rear panel portion of the power distribution device according to the embodiment of Figure 1;
5 is a flowchart for explaining an operation process of the power distribution device according to the embodiment of FIG.

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

Prior to describing the specific content for the implementation of the present invention, it should be noted that components not directly related to the technical gist of the present invention are omitted within the scope of not disturbing the technical gist of the present invention.

In addition, the terms or words used in the present specification and claims have meanings and concepts consistent with the technical idea of the design based on the principle that the designer can define the concept of an appropriate term to best describe his/her design. should be interpreted as

In the present specification, the expression that a part "includes" a certain element does not exclude other elements, but means that other elements may be further included.

Also, terms such as “… unit”, “… group”, and “… module” mean a unit that processes at least one function or operation, which may be divided into hardware, software, or a combination of the two.

In addition, the term "at least one" is defined as a term including the singular and the plural, and even if the term at least one does not exist, each element may exist in the singular or plural, and may mean the singular or plural. will be self-evident.

In addition, that each component is provided in singular or plural may be changed according to an embodiment.

Hereinafter, a preferred embodiment of a power distribution device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a block diagram showing the configuration of a power distribution device according to an embodiment of the present invention, Figure 2 is a block diagram showing the configuration of a power output unit of the power distribution device according to the embodiment of Figure 1, Figure 3 is 1 is an exemplary view showing the configuration of the front panel part of the power distribution device according to the embodiment, and FIG. 4 is an exemplary view showing the configuration of the rear panel part of the power distribution device according to the embodiment of FIG. 1 .

1 to 4 , the power distribution device 100 according to an embodiment of the present invention converts input power into single-phase power, and converts it into a load device connected to the power distribution device 100 through a plurality of channels It distributes and outputs the single-phase power.

In addition, the power distribution device 100 may have a total power of 44KW, but is not limited thereto.

In addition, the power distribution device 100 operates so that individual channels are blocked through any one of irreversible blocking and reversible blocking according to the amount of current supplied for each channel.

In addition, the power distribution device 100 is configured to display at least one of voltage, current, and power information supplied for each channel, and includes a power input unit 110 , an amperage sensor unit 120 , and a switch input unit 130 . , a first power cutoff unit 140 , a power output unit 150 , a display unit 160 , a communication unit 170 , and a control unit 180 .

The power input unit 110 is installed on the rear panel 102 of the power distribution device 100, three-phase four-wire (AC, 380V), three-phase three-wire (AC, 220V), single-phase (AC, 220V) of When any one of the power sources is input, it is converted into single-phase power and output.

In addition, the power input unit 110 distributes and outputs the converted single-phase power to a plurality of load devices connected through channels of the power output unit 150 .

The current amount sensor unit 120 is configured to detect the amount of current supplied from the power input unit 110 to the load device, and is installed for each channel and measures the amount of current supplied.

Also, the current amount sensor unit 120 may sense a current in a range of 0A to 2000A.

The switch input unit 130 is installed on the front panel 101 of the power distribution device 100 to receive an on/off operation signal of the power distribution device 100 from a user.

In addition, the auxiliary switch input unit 130a for receiving setting signals such as voltage display, current display, and power display may be additionally configured on the front panel 101 .

The first power cut-off unit 140 is configured to cut off the power supplied to the load device through the channel. It is installed on the front panel 101 for each channel and when the amount of current supplied through the channel is greater than a certain current value works to be blocked.

In addition, the first power cut-off unit 140 is configured to irreversibly block the channel when single-phase power supplied through the channel is cut off. The blocking state is restored only by manual setting.

That is, circuit breaker 1 (140a), breaker 2 (140b), circuit breaker 3 (140c) are installed for each channel on the front panel 101, respectively, so that when the current value exceeds a certain value, the power (or current) supplied through the channel is cut off. It works.

The power output unit 150 is installed on the rear panel 102 of the power distribution device 100, is connected to a load device, and operates to output power to the connected load device. and a filter unit 152 and a plurality of output terminal units 153 .

The second power cut-off unit 151 is configured to block power (or current) supplied to the load device connected to the power output unit 150, and is turned on/off according to the reversible cut-off signal of the control unit 180. A switching operation is performed so that the supply of single-phase power is turned on/off for each channel, and may preferably be configured as a relay.

That is, when the second power cut-off unit 151 is turned on by the reversible cut-off signal of the control unit 180, power is supplied to the load device connected through the power output unit 150, and the reversible It is a reversible cut-off device that operates to cut off the power supplied from the power output unit 150 to the load device when it is turned off by the cut-off signal.

The filter unit 152 corrects the distortion of the voltage supplied to the load device through the channel so as to be output.

The output terminal unit 153 is connected to a load device to output converted single-phase power, and may include a plurality of connectors.

The display unit 160 is installed on the front panel 101 of the power distribution device 100, and based on the voltage and current sensed by the power input unit 110 and the current amount sensor unit 120, and the voltage and current. As a configuration to display information such as power calculated by the above, it may be configured as a display means such as an LED, LCD, and seven-segment display.

The communication unit 170 is installed on the rear panel 102 of the power distribution device 100, and transmits blocking information, voltage information, current information, and power information for each channel to a remote management terminal (not shown) connected through a network. As a configuration for transmission, it may be configured to include a serial communication terminal 170a using a serial communication format and an Ethernet communication terminal 170b using an Ethernet communication format using TCP/IP.

The control unit 180 outputs a reversible blocking signal to the power output unit 150 according to the amount of current sensed by the current amount sensor unit 120 .

Also, the controller 180 may output an irreversible cut-off signal to the first power cut-off unit 140 according to the amount of current sensed by the current amount sensor unit 120 .

In addition, the controller 180 detects voltage, current, and power information supplied to each individual channel and controls it to be displayed on the display unit 160 .

That is, when the control unit 180 is in a cut-off state due to the operation of the second power cut-off unit 151 , information of the blocked channel, current information, voltage information, or power information of the blocked channel is displayed on the display unit 160 . to be displayed through

In addition, when the channel operates normally, the controller 180 displays the current information, voltage information, and power information of the corresponding channel through the display unit 160 so that the user can check it.

In addition, the control unit 180 controls current information, voltage information, and power information displayed through the display unit 160 to be transmitted to a remote management terminal through the communication unit 170 .

The following describes the operation process of the power distribution device according to the present invention.

5 is a flowchart illustrating an operation process of the power distribution device according to the embodiment of FIG. 1 .

1 to 5 , the power distribution device 100 determines whether any one of the three-phase, four-wire, three-phase, three-wire, and single-phase power is input ( S100 ), whether it is single-phase power ( S200 ).

As a result of the determination in step S200, if it is not single-phase power, the power is separated into individual three-phase and N-phase inputs and converted into single-phase power (S210) and output.

When the single-phase power is converted, the amount of current supplied to the load device connected through an individual channel of the power output unit 150 is measured ( S300 ).

As a result of the determination in step S300 , it is determined whether there is a channel having a predetermined amount of current measured among the individual channels as a preset reference value for blocking determination ( S400 ).

If there is a channel in which the amount of current measured in step S400 is equal to or greater than the reference value, the power distribution device 100 operates the first power cut-off unit 140 connected to the channel to cut off power to stop power supply through the channel. (S410).

When the power supply through the step S410 is cut off, the power distribution device 100 cuts off the power supply of the corresponding channel until the physical restoration setting of the first power cutoff unit 140 by the user is input by the irreversible cutoff. do.

In addition, if the amount of current measured in step S400 is less than or equal to the reference value, it is determined whether there is a channel in which the amount of current measured in comparison with a preset target amount of current is equal to or greater than the target amount ( S500 ).

If there is a channel in which the amount of current measured in step S500 is equal to or greater than the target current, the power distribution device 100 cuts off power (S510) so that power supply through the channel is stopped.

In addition, information on the channel in which the power supply is cut off, current information and voltage information detected in the corresponding channel are transmitted to the management terminal (S610).

Thereafter, when the amount of current measured in the corresponding channel is less than or equal to the target amount of current, the power distribution device 100 may operate the second power cut-off unit 151 to control the power of the corresponding channel to be supplied.

Subsequently, if there is no channel in which the current amount measured in step S500 is equal to or greater than the target current amount, the power distribution device 100 operates the filter unit 152 to perform voltage distortion correction (S600), and current information and voltage of the corresponding channel Information and power information is displayed through the display unit 160, and the current information, voltage information, and power information are transmitted to the management terminal (S700).

In addition, the power distribution device 100 outputs single-phase 220V, 60Hz power to the load device for each individual channel (S800).

Accordingly, power can be efficiently managed by being connected to a load device to distribute and output power for each channel, and monitor power output for each channel to control power supply.

As described above, although described with reference to the preferred embodiment of the present invention, those skilled in the art can variously modify the present invention within the scope not departing from the spirit and scope of the present invention described in the following utility model registration claims and may be changed.

In addition, the reference numbers described in the utility model registration claims of the present invention are provided only for clarity and convenience of explanation, and are not limited thereto, and the thickness of the lines or components shown in the drawings in the process of describing the embodiment is not limited thereto. The size and the like may be exaggerated for clarity and convenience of explanation.

In addition, the above-mentioned terms are terms defined in consideration of the functions in the present invention, which may vary depending on the intention or custom of the user or operator, so the interpretation of these terms should be made based on the content throughout this specification. .

In addition, even if it is not explicitly shown or described, a person of ordinary skill in the art to which the present invention belongs can make various modifications including the technical idea of the present invention from the description of the present invention. It is self-evident, and it still falls within the scope of the present invention.

In addition, the above embodiments described with reference to the accompanying drawings have been described for the purpose of explaining the present invention, and the scope of the present invention is not limited to these embodiments.

100: power distribution unit 101: front panel
102: rear panel 110: power input unit
120: current sensor unit 130: switch input unit
130a: auxiliary switch input unit 140: first power cut-off unit
140a: Breaker 1 140b: Breaker 2
140c: circuit breaker 3 150: power output unit
151: second power cut-off unit 152: filter unit
153: output terminal unit 160: display unit
160a: first display unit 160b: second display unit
170: communication unit 170a: serial communication terminal
170b: Ethernet communication terminal 180: control unit

Claims (5)

The power distribution device 100 converts the input power into single-phase power and distributes and outputs the converted single-phase power to the load device connected to the power distribution device 100 and through a plurality of channels,
Operates so that individual channels are blocked through either irreversible blocking or reversible blocking according to the amount of current supplied to each channel,
Power distribution device, characterized in that for displaying at least one of the voltage, current, and power information supplied for each channel. The method of claim 1,
The input power is a power distribution device, characterized in that any one of a three-phase four-wire system, a three-phase three-wire system, and a single-phase power source. The method of claim 1,
The power distribution device 100 converts the power to single-phase power when any one of three-phase, four-wire, three-phase, three-wire, and single-phase power is input, and converts the converted single-phase power to a load device connected through a plurality of channels. Power input unit 110 for distributing and outputting;
a current amount sensor unit 120 for detecting the amount of current supplied to each channel from the power input unit 110;
a switch input unit 130 for receiving an operation and setting signal of the power distribution device 100 from a user;
a first power cut-off unit 140 installed for each channel to irreversibly block the supply of single-phase power;
a power output unit 150 that is connected to the load device and operates to output distributed power;
a display unit 160 for displaying at least one of voltage, current, and power information supplied for each channel; and
Outputs a reversible cut-off signal to the power output unit 150 according to the amount of current detected by the current amount sensor unit 120, detects voltage, current and power information supplied to each channel and displays it through the display unit 160 A power distribution device comprising a; a control unit 180 to control so as to be. 4. The method of claim 3,
The power distribution device 100 includes a communication unit 170 for transmitting the blocking information for each channel, voltage, current and power information to a remote management terminal connected through a network; Power distribution device further comprising a. The power output unit 150 includes a second power cut-off unit 151 that is turned on/off according to the reversible blocking signal of the control unit 180 to control the supply of single-phase power for each channel;
a filter unit 152 for correcting distortion of the voltage supplied through the channel; and
and a plurality of output terminal units (153) connected to the load device and outputting the converted single-phase power.

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