KR101220500B1 - Hybrid solar ups inverter system - Google Patents

Abstract

PURPOSE: A hybrid solar UPS inverter system is provided to utilize solar electric power even though the electric power of an electric utility company is supplied, thereby reducing the amount of public electric power usage. CONSTITUTION: An AC-DC convertor(120) converts the alternating current of a public electric power supply module(110) into a direct current. A solar electric power supply module(140) converts an intermittent direct current into a constant direct current. A DC-DC convertor(150) converts the current of solar electric power into the current of different voltage. A battery module(160) supplies the accumulated direct current to a power consumer. A consumed power supply module(170) supplies the alternating current to the power consumer. [Reference numerals] (110) Public electric power supply module; (120) AC-DC converter; (130) Inverter; (140) Solar electric power supply module; (150) DC-DC converter; (160) Battery module; (170) Demand power supply module; (180) Bypass module; (190) Control module

Description

Hybrid solar UPS inverter system

The present invention relates to a hybrid photovoltaic inverter system, and more particularly, to save public power by utilizing solar power even in the situation that the grid power supply of the power supply provider, uninterruptible system through the battery by charging the battery In addition, if the solar power supply is smooth, the most efficient photovoltaic power is used and prioritized, such as charging the battery so that the supply power (solar power, public power, battery) can be efficiently used in three paths. It relates to a hybrid solar PV inverter system.

For the solar power business, the system uses a grid-connected photovoltaic system to supply its own power and sell surplus power to the grid power of power supply companies such as KEPCO. Is using its own power.

However, the disadvantage of grid-connected type is that when solar power is insignificant or when public power is interrupted (when it is not cloudy or at night, etc.), power supply can't be provided and power failure can occur. There is a problem that the power supply is interrupted when the solar power is insignificant, and there is a problem of power failure. Thus, there is a need for a system that can prevent uninterruption by establishing an uninterruptible system through the battery by charging the battery with surplus power and public power of the solar power.

In other words, it is necessary to introduce a system for performing efficient power management without power failure by utilizing solar power, public power, and batteries.

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Accordingly, the present invention has been proposed in view of the problems of the prior art as described above, and an object of the present invention is to save public power by charging solar power even when a system power is supplied from a power supplier, and to charge a battery. In addition to building an uninterruptible system through batteries, when the solar power supply is smooth, the most efficient use of solar power, such as charging the battery, is prioritized and the supply power (solar power, public power, battery) is provided in three paths. It is intended to be used efficiently.

In order to achieve the object of the present invention,

Hybrid solar PV inverter system according to an embodiment of the present invention,

Public power supply module 110 for supplying the generated alternating current in public facilities,

An AC-DC converter 120 for converting alternating current of the public power supply module into direct current;

An inverter 130 for converting direct current into alternating current,

And solar power supply module 140 for converting the solar current ripple current DC into a constant voltage DC,

DC-DC converter 150 for converting a direct current of sunlight into a direct current of a different voltage,

A battery module 160 for supplying the stored direct current,

A power consumption module 170 for supplying AC to the power consumer;

A bypass module 180 for directly connecting the public power supply module and the power consumption module;

The public power supply module, AC-DC converter, inverter, photovoltaic power supply module, DC-DC converter, battery module, power consumption module, bypass module is configured to include a control module 190 for controlling the present invention To solve the problem.

Hybrid solar PV inverter system according to the present invention having the above configuration and action,

Even when the power supply system of the power supplier is supplied, solar power can be used to save public power, and the battery can be recharged to build an uninterruptible system as well as to charge the battery when the solar power supply is smooth. Prioritizing efficient solar power utilization will provide the efficient use of supply power (solar power, utility power, and batteries) in three paths.

1 is an overall block diagram of a hybrid solar PV inverter system according to an embodiment of the present invention.
2 is a conceptual diagram schematically showing a hybrid solar PV inverter system according to an embodiment of the present invention.
3 is a circuit diagram of a hybrid solar PV inverter system according to an embodiment of the present invention.
4 is a front view of a panel equipped with a hybrid solar PV inverter system according to an embodiment of the present invention.

Hybrid solar PV inverter system according to an embodiment of the present invention for achieving the above object,

Public power supply module 110 for supplying the generated alternating current in public facilities,

An AC-DC converter 120 for converting alternating current of the public power supply module into direct current;

An inverter 130 for converting direct current into alternating current,

Solar power supply module 140 for converting the solar current ripple current DC to constant voltage DC,

DC-DC converter 150 for converting a direct current of sunlight into a direct current of a different voltage,

A battery module 160 for supplying the stored direct current,

A power consumption module 170 for supplying AC to the power consumer;

A bypass module 180 for directly connecting the public power supply module and the power consumption module;

And a control module 190 for controlling the public power supply module, AC-DC converter, inverter, solar power supply module, DC-DC converter, battery module, power consumption module, and bypass module. It is done.

At this time, the information of the control module,

And a panel for displaying to the user.

At this time, the control module,

If the solar power can supply more than the power consumption, the solar power is supplied, and the remaining power is supplied to control the battery to be charged. If the solar power is insufficient to supply the power, the public power is insufficient. It is characterized by controlling to supply.

At this time, the control module,

When solar power is not supplied, public power is supplied as power consumption, and when the battery is discharged and needs to be charged, the public power is used to control the battery to be charged.

At this time, the control module,

When the solar power and public power is not supplied, the battery is characterized in that the control to supply power.

Hereinafter, the embodiment of the hybrid solar PS inverter system according to the present invention will be described in detail.

1 is an overall block diagram of a hybrid solar PV inverter system according to an embodiment of the present invention.

2 is a conceptual diagram schematically showing a hybrid solar PV inverter system according to an embodiment of the present invention.

3 is a circuit diagram of a hybrid solar PV inverter system according to an embodiment of the present invention.

As shown in Figures 1 to 3, the system of the present invention supplies the AC power to the battery charging and load using the power supplied by the solar power and AC input power, and to the load by using the connected battery power in case of power failure To supply power.

As shown in FIG. 2, the system of the present invention supplies power to the battery charge and load when solar light is supplied, and supplies power to the charge and load through AC power when solar light is not supplied. If neither solar power nor AC power is supplied, AC power is supplied through the battery.

In addition, the system of the present invention,

Public power supply module 110 for supplying the generated alternating current in public facilities,

An AC-DC converter 120 for converting alternating current of the public power supply module into direct current;

An inverter 130 for converting direct current into alternating current,

Solar power supply module 140 for converting the solar current ripple current DC to constant voltage DC,

DC-DC converter 150 for converting a direct current of sunlight into a direct current of a different voltage,

A battery module 160 for supplying the stored direct current,

A power consumption module 170 for supplying AC to the power consumer;

A bypass module 180 for directly connecting the public power supply module and the power consumption module;

And a control module 190 for controlling the public power supply module, AC-DC converter, inverter, solar power supply module, DC-DC converter, battery module, power consumption module, and bypass module. It is done.

The above configuration saves public power by utilizing solar power even when the grid power of the power supply company is supplied, builds an uninterruptible system through the battery by charging the battery, and the battery when the solar power supply is smooth. The most efficient solar power utilization and prioritization, such as charging the battery, is to enable efficient use of supply power (solar power, public power, and battery) in three paths.

At this time, the control module of the present invention refers to the information (stored in a separate memory) set the priority set by the user to perform the control according to the priority.

In other words, if the priority is set in the order of solar power, public power, battery in order to control the power in that order.

For example, if the solar power can supply more than the power consumption, the solar power is supplied, the remaining power is supplied to control the battery charge, and if the solar power is insufficient to supply the power, the public It will be controlled to supply enough power.

In addition, when solar power is not supplied, public power is supplied as power consumption, and when public power supplies power consumption and the battery is discharged and needs to be charged, the public power is controlled to charge the battery. When solar power and public power are not supplied, the battery is controlled to supply power.

The public power supply module 110 supplies AC generated in a public facility to the AC-DC converter 120, and the AC-DC converter 120 converts the AC of the public power supply module into direct current.

In addition, the solar power supply module 140 converts sunlight into direct current and supplies it to the inverter. In this case, the inverter 130 converts direct current into alternating current to supply power to the load (consumption power supply module). .

On the other hand, in order to supply a DC of a constant voltage of the photovoltaic DC supplied from the solar power supply module is obtained by the DC-DC converter 150 is converted into a DC of the other voltage required.

The other voltage means the charging voltage of the battery module.

In addition, the battery module 160 supplies the stored direct current.

The power consumption module 170 supplies AC to a power source. The bypass module 180 directly connects the public power supply module and the power consumption module to supply public power when solar power is not supplied. It is to provide power consumption.

That is, as shown in FIG. 2, when solar light is supplied, power is supplied to the battery charge and load, and when solar light is not supplied, power is supplied to the charge and load through AC power. If neither solar nor AC power is supplied, AC power is supplied through the battery.

4 is a front view of a panel equipped with a hybrid solar PV inverter system according to an embodiment of the present invention.

As shown in FIG. 4, a panel for displaying information of a control module to a user is installed at the front of the panel.

Display panel displays AC INPUT, SOLAR INPUT, AC-DC converter 120, DC-DC converter 150, battery module 160, inverter 130, bypass module 180, OUTPUT, alarm Will be done.

Through the configuration and operation as described above, even in the situation where the system power of the power supply company is supplied, solar power can be used to save public power, and the battery can be charged to build an uninterruptible system as well as to supply solar power smoothly. In this case, the most efficient photovoltaic power utilization and prioritization such as charging the battery is provided to provide efficient use of supply power (solar power, public power, and battery) through three paths.

It will be appreciated by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not restrictive.

The scope of the invention is indicated by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the invention. do.

110: public power supply module
120: AC-DC Converter
130: inverter
140: solar power supply module
150: DC-DC converter
160: battery module
170: power consumption module
180: bypass module
190: control module

Claims (5)

In a hybrid solar PV inverter system,
Public power supply module 110 for supplying the generated alternating current in public facilities,
An AC-DC converter 120 for converting alternating current of the public power supply module into direct current;
An inverter 130 for converting direct current into alternating current,
Solar power supply module 140 for converting the solar current ripple current DC to constant voltage DC,
DC-DC converter 150 for converting a direct current of sunlight into a direct current of a different voltage,
A battery module 160 for supplying the stored direct current,
A power consumption module 170 for supplying AC to the power consumer;
A bypass module 180 for directly connecting the public power supply module and the power consumption module;
It comprises a control module 190 for controlling the public power supply module, AC-DC converter, inverter, solar power supply module, DC-DC converter, battery module, power consumption module, bypass module,
The control module includes:
If the solar power can supply more than the power consumption, the solar power is supplied, and the remaining power is supplied to control the battery to be charged. If the solar power is insufficient to supply the power, the public power is insufficient. To control the supply,
When solar power is not supplied, public power is supplied as power consumption.If the battery is discharged and needs to be charged, the public power is controlled to charge the battery.
Hybrid solar PV inverter system characterized in that the control to supply power from the battery when solar power and public power is not supplied.

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