KR101013108B1 - Green distributing board of integrated type - Google Patents

Abstract

PURPOSE: An integrated green distribution board is provided to remotely control a distribution board by transmitting monitoring data to a communication control server through internet. CONSTITUTION: One distribution board(100) is divided into first to third areas(110,120,130). An inverter panel is arranged on the first area. The inverter panel is comprised of a meter and an inverter. A control panel is arranged on the second area. The control panel is comprised of a transformer, an air circuit breaker, and an MCCB(Molded Case Circuit Breaker). A breaking panel is arranged on the third area and is comprised of an MOF(Metering Out Fit) and a VCB(Vacuum Circuit Breaker).

Description

Green distributing board of integrated type

The present invention relates to an integrated type green switchgear, and more particularly, to remove the construction of a building (substation) in a switchboard for renewable energy power, and to the water substation room, inverter room, power control room, monitoring equipment in one switchboard The present invention relates to an integrated green switchgear that can integrate power exchange communication equipment and KEPCO distribution board.

In general, renewable energy is pollution-free energy that can replace fossil fuels and nuclear power, and means solar heat, photovoltaic power generation, biomass, wind power, hydropower, geothermal energy, marine energy, and waste energy.

These renewable energies are not only clean and depleted, but also have the advantage of being pollution free. On the other hand, the energy density is so low that it is not practical in places where a large amount of energy is required, and because solar or wind are affected by the climate, an auxiliary power generation facility is required, and other renewable energies are also less efficient or economical. have. As a result, countries around the world are working to develop renewable energy that can replace fossil fuels and nuclear power and can be used in large quantities over a long period without harming the environment or the human body.

Looking at the power system of the renewable energy, the building was constructed to separate the water substation room, inverter room, power control room, and other facilities separately installed for each installation group used the power system.

Here, the transformer substation includes a transformer, a switch device, and other safety devices for receiving a special high voltage supplied from a substation and transforming it into a commercial voltage having an appropriate low voltage, and the inverter chamber includes high frequency equipment for processing high frequency.

As is well known, the conventional renewable energy power system was constructed in order to install each device, a building (aka substation), and installed a water substation room, an inverter room, a power control room, and other facilities in the building. In this case, a building cost must be erected, and thus a facility cost is generated, and at the same time, the building cost is also required to be built by the Building Business Act.

In addition, the once-established facility can be used only as a renewable energy power device facility, causing a waste of resources because the building is disposed of when the renewable energy is transferred.

In addition, since the erected facility is constructed to fit the product that is initially installed, there was a disadvantage in that the facility must be rebuilt when the product is changed or a new product is added.

Accordingly, the present invention is to solve all the problems caused by the facilities erected for the conventional renewable energy power system as described above, as proposed to solve the problem of increased facility costs and resource waste caused by the construction of the facility,

The problem to be solved by the present invention is to provide an integrated green switchboard to eliminate the construction of buildings (substations) in a renewable energy power switchboard, to prevent waste of resources.

Another object of the present invention is to provide an integrated green switchgear for integrating a water substation chamber, an inverter chamber, a power control room, a monitoring equipment, a power exchange communication equipment, and a KEPCO distribution panel in a single switchboard. .

Another problem to be solved by the present invention is to integrate the water substation equipment, inverter, power control equipment, monitoring equipment, power exchange communication equipment, KEPCO power distribution board in a single switchboard, integrated through efficient layout of space The present invention provides an integrated green switchgear capable of miniaturization.

Another problem to be solved by the present invention, while integrating the water substation equipment, inverter, power control equipment, monitoring equipment, power exchange communication equipment, KEPCO distribution panel in one switchboard, communication in the power control equipment It is to provide an integrated green switchboard to detect the status of the inverter and power control equipment through.

Another problem to be solved by the present invention is the integrated green to monitor the status of the power distribution panel installed remotely by remotely transmitting information as a result of monitoring the power status to an external server located remotely through the Internet, etc. To provide a switchboard.

Another problem to be solved by the present invention is that the integrated green switchboard is organically interlocked operation between each device by a power program in one place, the data is stored and transmitted by the power program to remotely control the switchboard from the outside To provide such an integrated green switchboard.

"Integrated green switchboard" according to a preferred embodiment of the present invention for solving the above problems,

One switchboard is divided into first to third regions,

The divided first region includes an inverter panel including a KEPCO meter, a KEPCO distribution panel, and an inverter;

The divided second region includes a control panel including a TR, an air breaker (ACB), an uninterruptible power supply (UPS), and a molded case cirvuit breaker (MCCB);

The divided third region includes an automatic section switch (ASS), a current transformer (CT), a power supply meter transformer (MOF) including an instrument transformer (PT) and an arrester (LA). And a breaker panel made of a vacuum circuit breaker (VCB) for a power circuit breaker of a special high pressure plate including a transformer (PT) and a current transformer (CT).

The first region is characterized in that the upper portion is provided with a vent for naturally emitting heat generated from the inverter to the outside.

The first region further includes an inverter maintenance check tool for maintenance of the inverter.

The second region may further include a controller connected to the inverter, the automatic switch, and the TR of the inverter panel by a communication cable to monitor the states of the inverter, the automatic switch, and the transformer TR.

The control panel may further include a CCTV for acquiring a surveillance image by capturing an external environment of the integrated green switchboard as an image.

The controller includes a function of transmitting the state monitoring data of the inverter, the automatic switchgear and the TR, and the surveillance image acquired through the CCTV to a communication control server located remotely through the Internet.

According to the present invention it is possible to remove the construction of the building (substation) in the distribution panel for renewable energy power, there is an advantage that can prevent the waste of resources.

In addition, it is possible to integrate the water substation, inverter, power control room, monitoring equipment, power exchange communication equipment, KEPCO distribution panel in one switchboard, and there is an advantage that the integrated switchboard can be miniaturized through efficient layout of space.

In addition, the power distribution equipment, inverter, power control equipment, monitoring equipment, power exchange communication equipment, KEPCO power distribution board in one switchgear integrated in one switchgear, the status of the inverter and power control equipment through communication in the power control equipment There is an advantage that can be detected easily.

In addition, the result of monitoring the power state transmits the information to a communication control server located remotely through the Internet, there is an advantage that can monitor the state of the switchboard is easily installed even remotely.

In addition, it is possible to reduce the size of the switchboard, and to effectively arrange the space, and to provide a safe switchboard.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a plan view of an integrated green switchboard 100 according to the present invention, FIG. 2 is a rear view, FIG. 3 is a side view, FIG. 4A is a front view of the first divided region 110, and FIG. 4B is a first view. 5A is a side view of the second divided region 120, FIG. 5B is a side view of the second divided region 120, and FIG. 6A is a front view of the third divided region 130. 6B is a side view of the third divided region 130, and FIG. 7 is an internal circuit connection diagram of the integrated green switchboard according to the present invention.

The integrated green switchboard 100 according to the present invention is implemented by dividing one switchboard into the first to third regions 110, 120, and 130, and the existing building is constructed in one switchboard 100. Since the water substation room, inverter room, power control room, CCTV, KEPCO distribution panel of renewable energy power system are integrated and installed, there is no need to construct a building separately, preventing waste of resources due to building construction, The construction cost will be reduced.

As shown in FIGS. 4A and 4B, the first divided region 110 includes an inverter panel 114, and the inverter panel 114 includes a KEPCO meter that measures the amount of power supplied from KEPCO at the top. 111 is installed, the KEPCO distribution panel 112 is installed below the KEPCO meter 111, the high frequency inverter 113 is provided below the KEPCO distribution panel 112.

In addition, an upper portion of the first region 110 is provided with a vent opening 115 for naturally dissipating heat generated from the inverter 113 to the outside, the side of the manager is such as maintenance of the inverter 113 Inverter maintenance check port 116 is provided to enter and exit for inspection.

Therefore, the manager enters and exits the first area 110 through the inverter maintenance check hole 116 and enters the interior of the first area 110 to repair the inverter 113 as necessary.

In addition, there is a space in the first region 110. When the inverter is added later by such a space, the inverter is additionally added to the space without expanding or redesigning the first region 110 separately. .

In addition, a perspective window 117 is provided outside the first region 110 to visually check the state of the inverter panel 114 therein through the perspective window 117. Here, the inverter is provided inside the first region 110, and because it deals with high frequency and high pressure, it may cause a danger to the human body when it is close, but in the present invention, the first region 110 through the see-through window 117 The inside can be checked from the outside, which will promote safety.

Meanwhile, as shown in FIGS. 5A and 5B, the divided second region 120 includes a control panel 125.

A transformer (Ttansformer) 121 is provided inside the control panel 125, and an air breaker (ACB: AIR CIRCUIT BREAKER) 122 is provided on the front of the TR 121. In addition, an uninterruptible power supply (UPS) 123 is provided at a lower portion of the air circuit breaker 122 to supply driving and control power to the switchboard even in the case of a power failure, and a high-speed wiring breaker (MCCB) is formed. ) Is also provided.

In addition, the second region 120 performs data communication with the inverter 113 of the inverter panel 114 through the communication cable 127 to easily check the state of the inverter 113 through communication. .

In addition, the second area 120 is provided with a state monitoring controller 126 to monitor the state of the inverter 113 through the communication cable 127, but the third area ( The state of the automatic switch 131 and the TR 121 installed in 130 is also monitored.

In addition, the second area 120 is provided with a CCTV 128 for capturing the external situation of the integrated green switchboard 100 as an image, the CCTV 128 is an external image, in particular an intruder who intrudes into unauthorized images The photographing provides image information to the controller 126.

The controller 126 remotely locates the state monitoring data of the inverter 113, the automatic switch 131, and the TR 121, and the surveillance image obtained through the CCTV 128, through a communication network such as the Internet 300. It transmits to the communication control server 200.

The communication control server 200 is located away from the integrated green switchboard 100 and receives the switchboard monitoring data and the surveillance video of the intruder through the Internet 300 in real time, and displays the same on a monitor so as to display the switchboard. The status of the switchboard can be easily monitored remotely without going to the installed site. For this reason, it is possible to prevent waste of manpower for monitoring switchboards, improve safety, and prompt action in case of emergency.

In addition, communication control is possible remotely, so in the event of an emergency, the monitoring data and surveillance video are checked through the monitor even when the switchboard is not installed, and the administrator analyzes the emergency situation according to the analysis result. By remotely controlling the switchboard installed in the field, it is possible to remotely control the switchboard more quickly and accurately.

On the other hand, the divided third region 130 is provided with a power cut-off panel 134, the cut-off panel 134 is provided with a failure section automatic section switch (ASS) (131), the current transformer Also provided is a metering out fit (MOF) 132 including a CT and an instrument transformer (PT) and an arrester (LA), and includes an instrument transformer (PT) and a current transformer (CT). A vacuum circuit breaker (VCB) 133 for a power circuit breaker of a special high pressure plate is also installed.

Here, the automatic switch 131, the power supply and demand meter transformer 132, and the power circuit breaker vacuum circuit breaker 133, which are provided in the third region 130, are the same as those of the existing switchboard, and the functions thereof are also the same. The detailed description thereof will be omitted.

In addition, the integrated green switchboard 100 according to the present invention is additionally provided with a see-through window 129 that can check the inside of the second area 120 outside the second area 120, the third area ( 130 is provided with a see-through window 135. Therefore, it is possible to easily check the respective equipment provided in the second area 120 and the third area 130 from the outside of the switchboard 100. That is, it is possible to monitor or check the state inside the switchboard safely in the live state through the see-through window. Conventional switchgear has a inconvenience in that the power supply is cut off because it is a method for monitoring the inside of the switchgear in the state that cut off the power supply for monitoring the inside of the switchboard, the present invention can accurately monitor the inside of the switchboard in the live state.

The present invention described above can be integrated into a single switchgear, a water substation room, an inverter, a power control room, monitoring equipment, power exchange communication equipment, KEPCO distribution panel installed in a separate room by erecting an existing building, The arrangement makes it possible to miniaturize the integrated switchboard. Therefore, it is possible to reduce the cost of building a building as before.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a perspective view of an integrated green switchboard according to the present invention.

2 is a rear view of FIG. 1.

3 is a side view of FIG. 1;

4A is a front view of the first divided area of FIG. 1, and FIG. 4B is a side view of the first divided area.

5A is a front view of the second partitioned region of FIG. 1, and FIG. 5B is a side view of the second partitioned region.

FIG. 6A is a front view of the third partitioned region of FIG. 1, and FIG. 6B is a side view of the third partitioned region.

7 is an internal circuit connection diagram of the integrated green switchboard according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100... Integrated Green Switchgear

110... First partition

120... Second partition

130... Third partition

Claims (6)

delete delete One switchboard 100 is divided into first to third regions 110, 120, and 130. The divided first region 110 is provided with an inverter panel 114 composed of a KEPCO meter 111, a KEPCO distribution panel 112, and an inverter 113; The divided second region 120 includes a transformer (TR) 121, an air circuit breaker (ACB) 122, an uninterruptible power supply (UPS), and a high-speed wiring breaker (MCCB). A control panel 125 consisting of 124 is provided; The divided third region 130 includes a power section meter transformer including an automatic section switch (ASS) 131, a current transformer (CT), an instrument transformer (PT), and an arrester (LA). MOF: Metering Out Fit (132), a breaker panel 134 consisting of a vacuum circuit breaker (VCB) for a special high voltage platen breaker including a transformer (PT) and a current transformer (CT) Equipped, The second area 120 is connected to the inverter 113, the automatic switch 131, the transformer 121, and the communication cable 127 of the inverter panel 114, so that the inverter 113 and the automatic switch And a controller 126 for monitoring the state of the transformer 131 and the transformer 121, The control panel 125 further includes a CCTV (128) for acquiring a surveillance image by photographing the external environment of the switchboard 100, The controller 126 controls communication of the state monitoring data of the inverter 113, the automatic switch 131, the transformer 121, and the surveillance image acquired through the CCTV 128 remotely through the Internet 300. It has a function to transmit to the server 200, The first region 110 is provided with a ventilation opening 115 for discharging the heat generated by the inverter 113 to the outside, the inverter maintenance check tool for maintenance of the inverter 113 ( 116, and a see-through window 117 for monitoring the first region 110 in a live state, The communication control server 200 receives the switchboard surveillance data and the surveillance video of the intruder through the Internet 300 in real time, and monitors the received surveillance data and the surveillance image so as to conveniently monitor the status of the switchboard remotely. Integrated green switchgear, characterized in that the display on the monitor, and transmits a control command input by the administrator to the switchboard (100) to remotely control the switchboard (100). delete delete delete

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