KR20210053460A - multi-functioning solar powered switchboard - Google Patents

Abstract

The present invention relates to a multi-functional sunlight switchboard. The multi-functional sunlight switchboard comprises: a solar power generation unit (101); a voltage conversion unit (102); an alternating current voltage transmission unit (103); a remaining battery level detection unit (104); an external power supply unit (105); a wireless data transmission/reception unit (106); a user data transmission unit (107); a power leak detection unit (108); an external device connection unit (109); a power input unit (201); and a charging port (202). According to the present invention, it is possible to manage distribution management and solar power generation at once.

Description

Multi-functioning solar powered switchboard

The present invention relates to a multifunctional solar switchboard. More specifically, it relates to a device that serves as a photovoltaic generator, a switchboard, a DC charger, a single-phase inverter, and a solar generator.

In general, a photovoltaic generator is a device that stores power generated by a photovoltaic panel in a battery. The solar generator supports only DC output or AC output with battery charging function.

The switchboard is a device that distributes power. However, no matter how advanced the technology is, users can only wirelessly control power and check the amount of electricity used.

In the case of Patent Document 0001, the amount of solar power generation can be maximized in the case of a solar power generation inverter having a heat dissipation and seismic function, a switchboard, a distribution board, and a solar connection panel. However, it is not possible to turn the device off or on as desired, and it is not known how much power is generated, and in which device a short circuit occurred.

In the case of Patent Document 0002, the focus is on the direction of increasing the power generation efficiency even in the case of the multi-air conditioning system of the switchboard using the photovoltaic power generation facility, and it has nothing to do with adjusting the power.

Inverter for solar power generation with heat dissipation and seismic function, switchboard, distribution board, solar connection board Publication No. 10-2019-0036603 Multi-air conditioning system of switchboard using solar power generation facility Publication No. Patent No. 10-1455199

The present invention intends to make a solar generator that accommodates all functions required when installing a solar generator without the need to separately purchase parts. We are trying to manufacture a device that can manage the power distribution and photovoltaic power generation required for home production at once. And it aims to reduce all the functions required for one device at a minimum cost.

The multifunctional solar switchboard according to the present invention for solving the problems presented above is a solar power generation unit 101 that generates photovoltaic power using a solar panel, and stores power in an AC power source and an external device using the received voltage. A voltage converter 102 that converts the voltage to a possible voltage, an AC voltage transmitter 103 for normally transmitting the changed power, a battery that manages and protects a battery that stores power produced by the solar panel, and determines the transmission power. The remaining amount detection unit 104 and the external power supply unit 105 that supplies external power to prevent a power outage when the battery is discharged, and a radio that can normally control the AC voltage transmitter 103 from outside by transmitting and receiving wireless data. The data transmission/reception unit 107, the power leakage detection unit 108, which detects leaked or short-circuited wires and cuts off power and warns of a power leakage through the wireless data transmission/reception unit 107, and an external device can be added to add various functions. An additional device will be described with the possible external device connection 109.

The vehicle charging module 200 of the present invention is provided with a power input unit 201 for inputting power and additionally includes a charging port 202 for connecting the vehicle to a charger.

In the present invention, all installations can be completed by installing this product without the need to buy various products. You can save a lot of money by purchasing this product. In addition, it has the effect of managing power distribution, solar power generation, and device charging at once.

1 is a configuration diagram according to the present invention.
2 is a side view of a multifunctional solar switchboard according to the present invention.
3 is a perspective view of a multifunctional solar switchboard according to the present invention.
Figure 4 is a face view of the electric vehicle charging module according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the structure and effect of the multi-function solar switchboard according to the present invention.

The device includes a photovoltaic power generation unit 101 that generates power through sunlight, a voltage conversion unit 102 that converts the received voltage into a desired waveform, an AC voltage transmitter 103 that sends a voltage to a desired space, and a battery. The remaining battery level detection unit 104 to protect the battery, an external power supply unit 105 that supplies power when the battery is discharged, a wireless data transmission/reception unit 106 that is connected to the outside to enable device operation from outside, and the desired information can be viewed immediately. There is a user data transmission unit 107 that can be used, a power leak detection unit 108 that detects leaking power and prevents further accidents, and an external device connection unit 109 that provides better convenience by connecting devices from the outside.

1 is a schematic diagram of a multifunctional solar switchboard according to the present invention.

As illustrated in FIG. 1, when power is generated from the solar panel, the voltage input to the battery enters through the solar power generation unit 101 in this device. The battery remaining amount detection unit determines whether to charge the battery using the voltage input to the solar power generation unit or to directly transmit the battery to the AC inverter 102b. The remaining battery level detector detects the remaining battery level at the same time and determines whether to supply or open the battery voltage to the remaining devices. The voltage conversion unit 102 converts the voltage converted to direct current by the external power supply unit 105 into a voltage that can be charged by an external device (102a), or a device that converts power supplied from a battery or solar panel into AC ( 102b). The AC voltage transmitter 103 serves to distribute an AC voltage supplied from an external power supply or converted to an AC voltage from a battery. At the same time, power can be transmitted to a desired location by using the wireless data transmission/reception unit 107 and the AC voltage transmission unit 103. The battery residual amount detection unit 104 checks the voltage of the battery and supplies or discharges the power that the battery does not want. It is prevented from being broken. When the battery residual amount detection unit 104 notifies that the battery power is insufficient, power is drawn from the external power supply unit 105 and the remaining power required at home is supplied. The wireless data transmission/reception unit 107 is seen from outside using a communication device. It is a device that detects the power leaked from the power leak detection unit 108 along with the role of managing the power of the device. In the case of the external device connection unit 109, several modules can be mounted, for example, the electric vehicle charger 200 ), personal computer, router, etc.

Figure 2 is a side view of the multifunctional solar power switchboard according to the present invention, Figure 3 is a perspective view of the multifunctional solar power switchboard according to the present invention.

As shown in FIG. 3, the user data transmission unit 107 can display data on the screen 107a and operate the device at the input unit 107b.

As shown in FIG. 4, the vehicle charging module 200 includes a power input unit 201 for inputting power and a charging port 202 for connecting the vehicle to a charger. If the module is connected to the main body 100 and then connected to the vehicle, charging is easily completed.

Although a preferred embodiment of the present invention has been described with reference to the accompanying five aspects, the technical configuration of the present invention described above is another specific form without changing the technical spirit or essential features of the present invention by those skilled in the art. You will be able to understand that there is a possibility that it will be implemented.

101: Solar power generation unit
102: voltage transformer
102a: DC converter
102b: AC inverter
103: AC voltage transmitter
104: battery residual amount detection unit
105: external power supply
106: wireless data transmission/reception unit
107: User data transmission unit
107a: screen
107b: input unit
108: power leak detection unit
109: external device connection
109a: DC connection
109b: AC connection
109 Eater Connection
The photovoltaic power generation unit 101 of the multifunctional photovoltaic switchboard (1);
Voltage conversion unit 102; DC converter 102a; AC inverter 102b;
AC voltage transmitter 103;
Battery residual amount detection unit 104;
An external power supply unit 105;
A wireless data transmission/reception unit 106;
A user data transmission unit 107; a screen 107a; an input unit 107b;
A power leak detection unit 108;
External device connection part 109; DC connection part 109a; AC connection part 109b; Data connection part 109c;

Claims (4)

A photovoltaic power generation unit 101 for photovoltaic power generation with respect to the main body 100 of the multifunctional photovoltaic switchboard 1;
A voltage converter 102 for converting the reserve power into a desired voltage after photovoltaic power generation;
An AC voltage transmitter 103 for supplying power to a desired room;
Battery residual amount detection unit 104 to protect the battery;
An external power supply unit 105 for supplying power when the reserve power is insufficient;
A wireless data transmission/reception unit 106 that helps manipulate the device from a distance;
A user data transmission unit 107 capable of inputting and outputting user data;
A power leak detection unit 108 for detecting a power leak;
An external device connection unit 109 capable of connecting an external device;
A power input unit 201 for inputting power to the vehicle charging module 200;
A charging port 202 for connecting the vehicle to the charger; Multifunctional solar switchboard comprising a.

A DC converter 102a that converts spare power into DC for the voltage converter 102 of the main body 100 of the multifunctional solar switchboard 1
AC inverter (102b) that converts spare power into AC
Multifunctional solar switchboard comprising a. An output screen 107a capable of outputting the status of the device to the user data transmission unit 107
An input unit 107b capable of externally operating the device
Multifunctional solar switchboard comprising a. A direct current connector 109a for supplying direct current to an external device with respect to the external device connector 109;
An AC connection part 109b for supplying an AC to an external device;
A data connection unit 109c for transmitting data of the main body 100 to an external device;
Multifunctional solar switchboard comprising a.

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