KR100956105B1 - The charge system using the multi-photovoltaic power supply plate - Google Patents

Abstract

PURPOSE: A charging system of a solar inverter is provided to charge a rechargeable battery of the solar inverter by generating power from a plurality of solar panels. CONSTITUTION: A power generator(100) is comprised of a plurality of solar panels. The plurality of solar panels generates power from sunlight. A power controller(200) controls the power generated by the solar panel to DC power. A switching unit(300) connects the plurality of solar panels in parallel or in series by comparing the current and voltage of the DC power outputted form the power controller with a charging reference voltage of a rechargeable battery. An overcharge prevention unit(400) prevents an overcharge by comparing the voltage applied to the rechargeable battery with the reference voltage.

Description

The charge system using the multi-photovoltaic power supply plate}

The present invention relates to a charging system of a solar inverter configured to be able to charge a power source (or power) from sunlight using a plurality of solar panels. More particularly, the present invention relates to a charging system configured to generate power from a solar panel (PV plate) that absorbs sunlight and charge the rechargeable battery of an inverter.

In general, a solar inverter is provided with a battery for charging the solar power, because the charge should always be secured even in consideration of weather and obstruction shadows, and such a battery is a rechargeable battery for use multiple times.

Conventional rechargeable batteries are charged by a charging system that applies electric power output at 12V and 24V for a predetermined time.

However, the conventional charging system has to be charged from the photovoltaic solar panel (PV plate), so when the battery is suddenly discharged, there is a problem that almost impossible to charge or rapid charging, in some cases, such as over-discharge or overcharge As a result, the rechargeable battery may be damaged to provide a considerable economic loss.

In addition, when it is impossible to charge due to the lack of sunlight, such as when the sunlight is weak, for example, at dawn or at dusk, it is impossible to charge the rechargeable battery itself. Moreover, when the charge capacity of the solar panel (PV plate) is weak. Since the rechargeable battery does not meet the required charging reference voltage, the rechargeable battery may not function properly.

In order to improve this problem, Korean Utility Model Registration No. 20-0355140 proposes a photovoltaic power supply device using a combined power charging method.

More specifically, the present invention proposes a photovoltaic power supply device using a combined power charging method to charge a battery using photovoltaic power generation and to charge a battery using a car generator and general household power.

However, a general feature of the conventional solar rechargeable battery is that commercial power or auxiliary power is used together with solar power for charging the battery. Therefore, when the voltage generated through the solar panel (PV) is small, it is not actually used in the rechargeable battery, but the commercial power is used as it is, and the fundamental of the solar charging system using the solar panel to improve the electric charge The purpose itself has a problem of fading.

The present invention has been made to solve the above problems, to absorb the sunlight through a plurality of solar panels (PV plate), usually in the solar photovoltaic panel (PV plate) according to the incident light amount of sunlight An object of the present invention is to provide a solar inverter charging system capable of supplying a rechargeable battery with a chargeable voltage by dividing / integrating the changed voltage in series / parallel even if the output voltage generated and output is changed.

In addition, to provide a solar inverter charging system that can charge the solar inverter rechargeable battery due to proper division / integrated connection of the voltage generated by the solar panel (PV plate) without installing a separate commercial power supply as a spare power source. The purpose.

In addition, an object of the present invention is to provide a solar inverter charging system structured to prevent the shortening of the life of the rechargeable battery due to overcharging.

In order to achieve the above object, the present invention provides a charging system of a solar inverter for charging a power source generated from sunlight in a rechargeable battery, the power source by converting the light energy or radiant thermal energy induced from the sunlight into a predetermined charge A power generator configured to constitute a plurality of solar panels; A power adjusting unit for guiding the flow of power generated for each of the plurality of solar panels of the power generating unit in one direction and adjusting each of them to a DC power having a predetermined power range; Detects the current / voltage of the DC power for each of the plurality of solar panels adjusted and output by the power adjusting unit, and compares each of the charging reference voltage values of the rechargeable battery with each reference value if the reference value is higher than the reference value. A switching unit for switching a switch to serially connect power of a plurality of solar panels if any one is less than a reference value; And an overcharge preventing unit which prevents overcharge by comparing the voltage applied to the rechargeable battery through the switching unit with a predetermined reference voltage. The charging system of the solar inverter using the plurality of solar panels is configured. do.

The power control unit may include: a backflow prevention unit configured to guide a flow of power generated from each solar panel of the power generation unit in one direction to prevent backflow; A voltage comparing unit configured to set a reference value to be compared with a generated voltage of the solar panel; And a voltage adjusting unit rectifying the power passing through the backflow prevention unit to adjust the power supply to have a predetermined power range through the voltage comparing unit.

The switching unit detects the magnitude of the voltage of the DC power source for each solar panel output from the power adjusting unit, and compares each of the charging reference voltage values of the rechargeable battery so that all of the plurality of solar panels are connected in parallel when the reference value is higher than the reference value. A voltage sensing unit for generating a switching control signal for connecting the power of the plurality of solar panels in series if any one is less than the reference value; And a switching switching unit for switching a switch so that a plurality of solar panels are connected in parallel or in series according to the switching control signal. As shown in FIG.

The following effects can be achieved by the charging system of the solar inverter using a plurality of solar panels in the present invention.

First, the output voltage generated and output from the solar panel (PV plate) according to the amount of incident light of the sunlight by absorbing the sunlight through a plurality of solar panels (PV plate) through the charging system of the solar inverter of the present invention Even if this fluctuates, the voltage is sensed by the voltage sensing unit to divide / integrate connection in series / parallel through the switching switch, thereby providing an effect of supplying a rechargeable voltage to the rechargeable battery almost continuously.

Second, even though the output voltage generated and output from the solar panel (PV plate) is impossible to charge according to the amount of incident light of the sunlight, by combining the power of the plurality of solar panels in series through the switching unit of the present invention to change the chargeable voltage By supplying the rechargeable battery, it is possible to charge the rechargeable battery of the solar inverter charging system without installing a separate commercial power source as a spare power source.

Third, by limiting the voltage applied to the rechargeable battery through the switching unit in comparison with a predetermined reference voltage through the overcharge protection unit of the present invention, it is possible to prevent the shortening of life due to the overcharge of the rechargeable battery.

Hereinafter, a solar charging system using a plurality of solar panels of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a charging system of a solar inverter using a plurality of solar panels according to the present invention. Referring to FIG. 1, the charging system of the solar inverter includes any of light energy radiated from sunlight or thermal energy radiated. A power generation unit 100 configured with a plurality of solar panels (PV plates) generating power by converting one into a predetermined charge is configured.

Since the DC power generated in the solar panel (PV plate) does not have a constant voltage and current, the DC power output induces the flow of the DC power in one direction and is 13.6V to 14V based on a predetermined power range, such as a charging reference voltage 12V. The power adjusting unit 200 is configured to constantly adjust to have a voltage range of.

In more detail, the power adjusting unit 200 guides the flow of power generated from each of the solar panels configured in the power generating unit 100 in one direction to prevent backflow and the backflow preventing unit 220 and the solar panel. And a voltage comparator 240 for setting a reference value compared with the generated voltage of the voltage comparator 240 and a voltage adjuster 260 for rectifying the power passing through the backflow prevention part to adjust the power supply to have a predetermined power range through the voltage comparator.

In addition, the illustrated switching unit 300 functions as a switching switch, the charging reference of the rechargeable battery 500 by sensing the current / voltage of each of a plurality of DC power for each solar panel that is adjusted and output from the power adjusting unit 200 Compared to the voltage value, respectively, if the reference value is above the reference value, the plurality of solar panel power supplies are connected in parallel.

In general, the rechargeable battery has a charging reference voltage, for example, a reference voltage of about 12V. The switching unit 300 determines whether the magnitude of the voltage value generated for each of the plurality of solar panels is greater than or equal to the reference voltage, respectively. If the magnitude of the voltage generated in all of the reference voltage or more is switched to switch the power of the plurality of solar panels in parallel. In addition, the switching unit 300 is switched to switch the power of the plurality of solar panels in series if any voltage generated in each solar panel is less than the reference voltage.

In more detail, the switching unit 300 detects the magnitude of the voltage of the DC power source for each solar panel output from the power adjusting unit, and compares each of the charging reference voltage values of the rechargeable battery 500 with a plurality of reference values. The solar panels are connected in parallel, and if any one is less than the reference value, the voltage sensing unit 320 for generating a switching control signal for connecting the power of the plurality of solar panels in series and the power of the plurality of solar panels according to the switching control signal. It is configured to include a switching switching unit 340 for switching the switch to be connected in parallel or in series.

The illustrated overcharge protection unit 400 is configured to prevent overcharge, which is a typical problem of shortening the life of the rechargeable battery by comparing the voltage applied to the rechargeable battery 500 through the switching unit 300 with a predetermined reference voltage. The overcharge preventing unit 400 may include a comparator configured to set a reference voltage so that only a voltage within a predetermined range is charged in the rechargeable battery.

2 is a flowchart illustrating a charging system of a solar inverter using a plurality of solar panels according to the present invention.

Power generated through the plurality of solar panels (PV plates) of the power generation unit 100 is rectified by a power supply adjusting unit 200 to a DC power of a predetermined power range and input to the switching unit 300.

At this time, the voltage sensing unit 320 of the switching unit 300 detects the generated voltage of each solar panel to determine the magnitude of the detected voltage, the switching control when the magnitude of the generated voltage of the solar panel is all 12V or more set Transmitting a signal to the switching switch unit 340 to connect the power of the plurality of solar panels in parallel, if any of the generated voltage is less than 12V set any of the switching control signal to the switching switch unit 340 Make sure the solar panel power is connected in series.

Next, the voltage applied to the rechargeable battery 500 through the switching unit 300 is applied to the rechargeable battery 500 at a voltage less than or equal to the reference voltage set through the overcharge preventing unit 400.

As a result, by changing the connection method of the power supply of the solar panel in proportion to the amount of incident light from the sun, it is possible to divide / integrate the rechargeable battery into a chargeable voltage so that the rechargeable battery can be charged at all times. The use of power can be maximized, so that power is continuously supplied even without a separate commercial power source, thereby maximizing user convenience.

Figure 3a, 3b is an operating state diagram showing a parallel connection method of the power source of a plurality of solar panels according to the present invention.

As shown in FIG. 3A, power generated from PV1 and PV2, which are solar panels of the power generation unit 100, is sensed through the voltage sensing unit 320 of the switching unit 300 to charge a reference voltage (eg, 12V). 3b, the voltage sensing unit 320 outputs a switching control signal to the switching switching unit 340 when the voltages of the power generated by the solar panels PV1 and PV2 are all chargeable voltages. To charge the rechargeable battery by connecting the solar panel PV1 and the solar panel PV2 in parallel.

For example, when the generated voltages of the solar panels PV1 and PV2 are 13.6V and 13.8V, respectively, the charge voltages are higher than the charging reference voltage, so that the rechargeable battery is charged by connecting the solar panels PV1 and PV2 in parallel.

However, in the case of the charging reference voltage of the 12V battery, it is preferable to set the charging reference voltage of the range greater than 12V in the voltage detector 320 in view of the charging characteristics of the rechargeable battery.

Figure 4a, 4b is an operating state diagram showing a series connection method of the power source of a plurality of solar panels according to the present invention.

As shown in FIG. 4A, power generated from PV1 and PV2, which are solar panels of the power generator 100, is sensed through the voltage detector 320 of the switching unit 300 to charge a reference voltage (eg, 12V). As shown in FIG. 4B, if any of the voltages of the power generated by the solar panels PV1 and PV2 is unchargeable, the voltage sensing unit 320 transmits a switching control signal to the switching switching unit 340. Output the solar cell panel (PV1) and the solar panel (PV2) in series to charge the rechargeable battery.

For example, if the generated voltages of the solar panels PV1 and PV2 are 3V and 13.8V, respectively, one of them is less than 12V which is the charging reference voltage, so that the solar panels PV1 and PV2 are connected in series to synthesize 16.8V in total. The rechargeable battery 500 is charged to be 12V or more rechargeable.

At this time, the voltage applied to the rechargeable battery is limited by a predetermined reference voltage set in the overcharge preventing unit 400 to prevent overcharging of the rechargeable battery 500.

As described above, the charging system of the solar inverter of the present invention can be applied to a charging system such as a generator using ordinary solar light, and generates power from the sun to charge the rechargeable battery, and charges from the sun. If this is impossible, it can be connected in series with a rechargeable power source, which is simple and always rechargeable, thereby increasing the state of charge of the rechargeable battery to a full state.

In the detailed description of the present invention, specific embodiments have been described. However, it will be apparent to those skilled in the art that various modifications can be made without departing from the scope of the present invention.

1 is a block diagram of a charging system of a solar inverter using a plurality of solar panels according to the present invention.

2 is a flowchart illustrating a charging system of a solar inverter using a plurality of solar panels according to the present invention.

Figure 3a, 3b is an operating state diagram showing a parallel connection method of the power source of a plurality of solar panels according to the present invention.

Figure 4a, 4b is an operating state diagram showing a series connection method of the power source of a plurality of solar panels according to the present invention.

* Description of Symbols for Major Parts of Drawings *

100: power generation unit 200: power adjustment unit

220: backflow prevention unit 240: voltage comparison unit

260: voltage regulator

300: switching unit 320: voltage detection unit

340: switching switching unit

400: overcharge protection unit 500: rechargeable battery

Claims (3)

In the charging system of the solar inverter for charging the rechargeable battery with power generated from sunlight, A power generation unit configured with a plurality of solar panels configured to generate power by converting light energy or radiated thermal energy derived from the sunlight into a predetermined charge; A power adjusting unit for guiding the flow of power generated for each of the plurality of solar panels of the power generating unit in one direction and adjusting each of them to a DC power having a predetermined power range; Detects the magnitude of the voltage of the DC power source for each solar panel output from the power control unit, and compares each of the charge reference voltage values of the rechargeable battery to each other if the reference value is greater than or equal to the reference value. And a voltage sensing unit for generating a switching control signal for connecting the power of the plurality of solar panels in series and a switching switching unit for switching the switches for parallel or series connection of the power of the plurality of solar panels according to the switching control signal. Switching unit; And Charging system of a solar inverter using a plurality of solar panels, characterized in that it comprises a; overcharge prevention unit for preventing overcharge by comparing the voltage applied to the rechargeable battery through the switching unit with a predetermined reference voltage. delete delete

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