KR101266963B1 - Distributing board - Google Patents

Abstract

The present invention is an enclosure body; An inverter module provided in the enclosure main body to convert a DC voltage supplied from the outside into an AC voltage; A water distribution module provided inside the main body of the enclosure and including a circuit breaker, a lightning arrester, a fuse, and a switch, for distributing and outputting an AC voltage provided from the inverter module; And it is interposed between the inverter module and the water distribution module provides an inverter integrated switchgear including a transformer for boosting the voltage to the required voltage in the inverter module or the water distribution.
According to the inverter integrated switchgear according to the present invention, the inverter and the switchgear can be manufactured as a single unit and can be used by sharing one transformer, and the installation space is reduced accordingly, and the entire installation can be miniaturized. Operation is expected to increase system efficiency and reduce manufacturing costs and time.

Description

Inverter Integrated Switchgear {Distributing board}

The present invention relates to an inverter integrated switchgear, and relates to an inverter integrated switchgear that can be used in common with one transformer.

In general, the switchgear is responsible for receiving power from the power supplier and supplying power to the equipment requiring power consumption, and is building related facilities of a conventional power station having power receiving facilities and power distribution facilities.

For example, the inside of the above-mentioned switchboard is divided into an extra high-voltage side and a low-voltage side, and the power receiving equipment receiving electricity from the power supplier KEPCO and the electricity received through the power receiving equipment are changed to the voltage or capacity required by the user And a circuit breaker to protect the entire facility from accidents such as power outages.

In consideration of the safety of electric shock and fire in the process of use, the switchgear used in this case is an insulated body equipped with a switchgear door for limiting direct contact with the outside and inspecting and maintaining the inside of the switchgear, In consideration of reliability against a supply voltage, various protective devices such as a circuit breaker and a lightning arrester are installed in the main body as essential requirements.

In addition, the switchgear is connected to an inverter that automatically manages by converting the DC voltage generated from the solar connection panel into an AC voltage.

The inverter is provided with a PCB, a reactor, a capacitor, a measurement control module, an SMPS, an EMI filter, and a transformer for supplying power by converting the AC voltage.

The connection panel includes an input unit for outputting a DC voltage generated from sunlight in a series connection method, an output unit connected in series with an input unit to output a DC voltage output from the input unit, and an output current value and voltage. And a control unit for detecting and monitoring a value.

However, the conventional switchgear system has been pointed out that the cost is increased and the efficiency is lowered by using a plurality of transformers by separately installing a transformer installed in the inverter and a transformer installed in the switchgear separately.

In addition, there is a need for more installation space than necessary in terms of space utilization for installing each transformer, and there is a limit in manufacturing a switchgear integrated with an inverter.

An object of the present invention is to provide an inverter-integrated switchgear that can be shared and used by an inverter module and a power distribution module through one transformer.

The present invention for performing the above object is an enclosure body; An inverter module provided in the enclosure main body to convert a DC voltage supplied from the outside into an AC voltage; A water distribution module provided inside the main body of the enclosure and including a circuit breaker, a lightning arrester, a fuse, and a switch, for distributing and outputting an AC voltage provided from the inverter module; And it is interposed between the inverter module and the water distribution module provides an inverter integrated switchgear including a transformer for boosting the voltage to the required voltage in the inverter module or the water distribution.

The inverter integrated switchgear may further include a connection panel having one side connected to the inverter module and the other side connected to an external power generator so as to output energy provided by the power generator as an electrical signal.

The enclosure body may be formed with a plurality of spaces so that the interior is separated in a horizontal or vertical direction by one or a plurality of partition walls.

The enclosure body may include one or a plurality of door parts capable of opening and closing the space part.

The door unit may be provided with a viewing window so that the operator can check the inside of the enclosure body.

The enclosure main body may further include a display unit indicating power generation information and abnormality of electricity input and output from the inverter module and the power distribution module.

The generator may provide sunlight or solar heat as electrical energy.

According to the inverter-integrated switchgear according to the present invention can be used by making the inverter and the switchgear integrally and share one transformer, and also the installation space is reduced according to the present invention, as well as miniaturize the entire installation, even with only one transformer The facility can be operated to increase system efficiency and reduce manufacturing costs and time.

1 is a front view schematically showing the external appearance of an inverter integrated switchgear according to an embodiment of the present invention.
FIG. 2 is a circuit diagram of an inverter integrated switchgear shown in FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms and words used in the specification and claims should not be construed to be limited to ordinary or dictionary meanings, and the inventor should appropriately define the concept of the term to describe its invention in the best way possible It should be construed in the meaning and concept consistent with the technical idea of the present invention.

FIG. 1 is a front view schematically showing the external appearance of an inverter integrated switchgear 100 according to an embodiment of the present invention, and FIG. 2 is a circuit diagram of the inverter integrated switchgear 100 shown in FIG. 1.

1 and 2, the inverter integrated switchgear 100 according to the present invention includes an enclosure body 110, an inverter module 120, a switchgear module 130, and a transformer 140.

The inverter integrated switchgear 100 according to the present invention will be described as an example of using solar as a basic power generation device.

The enclosure main body 110 has a rectangular parallelepiped shape and is provided with one or a plurality of partition walls so that the inverter module 120, the water distribution module 130, and the transformer unit 140 are located in the horizontal or vertical direction. A plurality of space 113 is formed so as to.

In addition, the interior of the space 113 is provided with basic components such as PCB, circuit breaker, lightning arrester, fuse and switchgear, and the configuration (not shown) according to heat dissipation and moisture proof.

The door part 111 is provided in the lateral direction of the enclosure main body 110 to selectively open the space 113.

The door part 111 is provided with one or a plurality of door parts 111 to open or close the space part 113 in whole or in part, and the inverter module 120 through the door part 111, Installation and maintenance of the water distribution module 130 and the transformer 140 is made.

The door part 111 may be formed in a case opening or sliding structure, and the door unit 111 installed in a case structure in the inverter integrated switchgear 100 according to the present invention will be described as an embodiment.

In this case, a viewing window 115 is provided on the door part 111 so that an operator can check the inside of the enclosure main body 110.

The see-through window 115 is formed of transparent glass or synthetic plastic material so that the inside of the enclosure main body 110 can be confirmed, and the see-through window 115 is formed to be openable and close, so that a part of the operator's hand or upper body passes through. It may be formed to be.

In addition, the enclosure main body 110 includes a display unit 112 indicating power generation information and abnormality of electricity input and output from the inverter module 120 and the power distribution module 130.

The display unit 112 indicates a current diagnosis situation, power generation amount, insolation amount, network environment setting, power generation efficiency, etc. of the inverter module 120 and the power distribution module 130, and is disposed on the door part 111. It is preferable.

The inverter integrated switchgear 100 has one side connected to the inverter module 120, the other side is connected to the photovoltaic device, the connection panel for outputting the energy provided from the photovoltaic device as an electrical signal ( 150).

The inverter module 120 has a function of converting a DC voltage output from the connection panel 150 into an AC voltage.

In this case, the inverter module 120 includes essential components (not shown) such as a PCB, a reactor, a capacitor, a measurement control module, and an EMI filter.

The water distribution module 130 has a function of distributing the AC voltage provided from the inverter module 120 to output to the outside.

In this case, the transformer 140 is interposed between the inverter module 120 and the water distribution module 130.

Therefore, the transformer 140 has a function of boosting the voltage required by the inverter module 120 and the power distribution module 130.

As a result, the inverter module 120 and the water distribution module 130 may be shared by the transformer unit 140, so that the inverter module 120 and the water distribution module 130 share the transformer unit 140. Compared with the system, the efficiency of the system is increased, and the production cost and time can be reduced.

Hereinafter, with reference to the drawings will be described the effect of the inverter integrated switchgear 100 according to the present invention.

The inverter module 120 and the water distribution module 130 have been used as a structure for boosting the voltage with the transformer 140, respectively, the inverter integrated switchgear 100 according to the present invention is the inverter module ( 120 and the transformer 140 for boosting the voltage between the power distribution module 130 can save the space in which the transformer 140 is disposed, and also the inverter module 120 and the Since the step-up process in the power distribution module 130 can be realized at a time, the voltage conversion process is shortened.

In addition, since the use of one of the transformers increases the system efficiency accordingly has the effect of reducing the manufacturing cost and maintenance time.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: inverter integrated switchgear 110: enclosure body
111 door 112 display unit
113: space portion 115: viewing window
120: inverter module 130: water distribution module
140: transformer 150: connection panel

Claims (7)

Enclosure body;
An inverter module provided in the enclosure main body to convert a DC voltage supplied from the outside into an AC voltage;
A water distribution module provided inside the main body of the enclosure and including a circuit breaker, a lightning arrester, a fuse, and a switch, for distributing and outputting an AC voltage provided from the inverter module; And
A transformer unit which is interposed between the inverter module and the water distribution module and boosts the voltage to a voltage required by the inverter module or the water distribution module;
Inverter integrated switchgear comprising a. The method according to claim 1,
One side is connected to the inverter module, the other side is connected to an external generator, further comprising a connection panel for outputting the energy provided from the generator as an electrical signal. The method according to claim 2,
The enclosure body,
An inverter integrated switchgear in which a plurality of spaces are formed so that the interior is separated in a horizontal or vertical direction by one or a plurality of partition walls. The method according to claim 3,
The enclosure body,
An inverter integrated switchgear including one or a plurality of doors that can open and close the space. The method of claim 4,
The door portion
An inverter integrated switchgear provided with a viewing window so that an operator can check the inside of the enclosure body. The method according to claim 1,
The enclosure body,
Inverter integrated switchgear further comprising a display unit for indicating the generation information and abnormality of electricity input and output from the inverter module and the power distribution module. delete

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