KR102141377B1 - Solar-tracking and portable power supply - Google Patents

Abstract

The present invention relates to a portable power supply device having a solar tracking function that supplies charged power to various devices, and various structures for power storage are provided inside the body part formed in a case structure, or a structure that can be coupled to and detached from the body part. By being formed as, it has the effect of improving the portability.
In addition, in the present invention, the battery unit can be charged not only from the solar power unit, but also from various external power sources, thereby improving the versatility of charging.
In addition, the present invention corresponds to a real-time solar position that is changed by various factors such as latitude, longitude, date, time of the place where the portable power supply device equipped with the solar tracking function is provided, and a panel member that is a solar panel is provided. It is characterized in that it is tilted in real time, through which the effect of further improving the light collecting efficiency occurs.

Description

Solar-tracking and portable power supply with solar tracking function

The present invention relates to a portable power supply having a solar tracking function, and more particularly, to a portable power supply having a solar tracking function that supplies charged power to various devices.

The commonly used power source is that AC commercial power produced by a power plant or the like is supplied to a home or various facilities through a wire.

However, as people's interest in outdoor activities such as camping increases, the demand for a power supply device with guaranteed portability is increasing.

As part of solving this problem, in the preceding Republic of Korea Registered Utility Model Publication No. 20-0357241, a vehicle body, a solar power generator installed in the mounting portion of the vehicle body, and a power storage unit for storing electricity generated by the solar power generator, , It discloses a mobile solar power generation facility consisting of an inverter for converting direct current (DC) drawn from the power storage unit to alternating current (AC).

According to the preceding literature, even if there is no separate power source, power can be supplied and stored independently through the photovoltaic power generation of the photovoltaic generator, and such power generation equipment is movable by the vehicle body, so that a certain degree of portability is also guaranteed. Can.

However, in the case of the mobile photovoltaic power generation facility, the versatility is considerably reduced in that it can be stored only through photovoltaic power generation, and it is also integrated with the vehicle body, so that the separation is significantly lowered, making it difficult for a person to carry it by hand The problem is that it is impossible.

That is, in the case of following the prior literature, there is a problem that the versatility and portability of the power supply are significantly lacking.

In addition, the relative position between the sun and the photovoltaic generator changes in real time due to the rotation of the sun and the revolution of the sun, and the preceding document does not disclose anything that the photovoltaic generator can follow the movement of the sun. Because of this, there is a problem that the light collection efficiency is remarkably low.

Republic of Korea Utility Model Publication No. 20-0357241

As part of solving the above-described problems, the present invention is intended to provide a portable power supply device having a solar tracking function that ensures portability and versatility, and enables a panel member, which is a solar panel, to track the position of the sun in real time. The purpose.

A portable power supply device having a solar tracking function according to the present invention includes a body part formed of a portable case structure, a solar power generation part that can be connected to and detached from the body part and tilted in real time along the position of the sun, It is provided inside the body portion, when the power is charged from at least one or more of the external power supply or the photovoltaic power generation unit, and the external power supply and the photovoltaic power generation unit is connected at the same time power from the solar power generation unit Priority is supplied to the battery unit and the output unit for outputting the power charged in the battery unit; It characterized in that it comprises.

In addition, the portable power supply with the solar tracking function calculates a real-time solar position corresponding to latitude and longitude, a date and time of a place where the solar tracking portable power supply is provided, and the real-time solar position In response to further comprising a control unit for tilting the solar power generation unit, the solar power generation unit, it characterized in that the charging the battery unit through the maximum power tracking method (Maximum Power Point Tracking, MPPT).
In addition, the output unit includes a DC output module and an AC output module, and the control unit includes: a first output control module for operating at least one of the DC output module or the AC output module, and the DC output Characterized in that it comprises a second output control module for controlling the module, and a frequency conversion module for controlling the AC output module to output the AC power converted frequency.

The portable power supply device provided with a solar tracking function according to the present invention has various components for power storage, which are provided inside the body part formed of a case structure or formed in a structure that can be combined with and detached from it, thereby improving portability. Effect.

In addition, the present invention can be charged not only from the solar power generation unit, but also from various external power sources, thereby improving the versatility of charging.

In addition, the present invention corresponds to a real-time solar position that is changed by various factors such as latitude, longitude, date, time of the place where the portable power supply device equipped with the solar tracking function is provided, and a panel member that is a solar panel is provided. It is characterized in that it is tilted in real time, through which the effect of further improving the light collecting efficiency occurs.

1 is a configuration diagram showing a portable power supply having a solar tracking function according to the present invention.
FIG. 2 is a perspective view showing an example of a body part shown in FIG. 1.
3 is a schematic view showing an example of a solar power generation unit shown in FIG. 1.
4 is a state diagram illustrating an example of the display unit illustrated in FIGS. 1 and 2.

Prior to the detailed description of the present invention, specific details for carrying out the present invention are included in the examples and drawings to be described below, and the same reference numerals throughout the specification refer to the same components.

In addition, singular expressions in this specification will include plurals unless otherwise specified in the phrase.

Hereinafter, a portable power supply device having a solar tracking function according to the present invention will be described with reference to the drawings.

1 is a configuration diagram showing a portable power supply with a solar tracking function according to the present invention, Figure 2 is a perspective view showing an example of a body portion shown in FIG.

And, Figure 3 is a schematic diagram showing an example of the solar power generation unit shown in Figure 1, Figure 4 is a state diagram showing an example of the display unit shown in Figures 1 and 2.

A portable power supply device 1000 having a solar tracking function according to the present invention will be described with reference to FIGS. 1 to 4.

1 to 4, the portable power supply device 1000 with a solar tracking function according to the present invention includes a body portion 100, a solar power generation unit 200, a battery unit 300, It includes a converting unit 400, an output unit 500, a control unit 600 and a display unit 700.

First, as shown in the example shown in FIG. 2, the body part 100 is a type of case structure in which various components of the portable power supply 1000 equipped with the solar tracking function are built in and portability can be secured. It is formed, as shown in Figure 1 is provided with an input terminal 110 and the output terminal 120.

In the case of the input terminal 110, as being connected to an external power supply for charging the battery unit 300 to be described later, the DC input member 111 to which various DC power is applied, and AC to which various AC power is applied It includes an input member 112.

In the case of the output terminal 120, it is connected to an electronic device to be used, and through this, power charged in the battery unit 300 may be supplied to the electronic device.

In this case, the output terminal 120 includes a DC output member 121 for supplying power to an electronic device driven by DC power, and an AC output member 122 for supplying power to an electronic device driven by AC power. Includes.

Then, the photovoltaic power generation unit 200 generates power through photovoltaic power generation, wherein the power generated by the photovoltaic power generation unit 200 includes a battery unit 300 through the DC input member 111 described above. ), the solar power generation unit 200 and the body unit 100 may be mutually coupled and separated via the DC input member 111.

More specifically, as shown in FIG. 3, the solar power generation unit 200 includes a body member 210 and a tilting member 220 provided on the body member 210 and formed in a tilting shaft structure. The panel member 230 may be connected to the tilting member 220 and perform a solar panel function.

At this time, the panel member 230 is tilted by performing the tilting function of the tilting member 220, through which the solar power generation unit 200 can follow the movement of the sun and perform solar power generation. As a result, the effect of improving the power generation efficiency occurs.

In addition, the solar power generation unit 200 may charge the battery unit 300 through a maximum power tracking method (MPPT).

Accordingly, there is an advantage of being able to efficiently supply and receive solar energy that varies depending on various factors such as latitude, weather, and time, and such an MPPT type solar power generation unit 200 can be configured through various algorithms. There will be.

And, the battery unit 300 is coupled between at least one or more battery cell members 310 to enable charging of power from at least one of the external power supply sources or the solar power generation unit 200 mentioned above. It may be made of, which is provided on the inside of the body portion 100.

In this case, the battery cell member 310, which is a battery cell, will be preferably selected as an iron phosphate battery that provides a significantly higher number of charge/discharge and chemical stability compared to other types of batteries.

In addition, when the external power supply and the photovoltaic unit 200 are simultaneously connected to the battery unit 300, the battery unit 300 can be supplied with priority by supplying power from the photovoltaic unit 200. have.

Accordingly, instead of an external power supply that supplies power through fossil fuel or other various power generation methods, solar energy, which is clean energy that does not cause additional cost consumption, preferentially charges the battery unit 300.

Thus, in operating the portable power supply device 1000 equipped with the solar tracking function, a cost for charging a battery is minimized, and an effect of causing environmental pollution is minimized.

At this time, as described above, since the battery cell member 310 is a battery cell, DC power is stored, and thus a compatibility problem may occur when the power supply for charging it is AC power.

In order to prevent this, AC power for charging is input through the AC input member 112 described above, and the converting unit 400 provided inside the body 100 converts it to DC power, and then converts it to the battery. By transmitting to the unit 300, it is possible to charge the battery unit 300 even if AC power is used.

In addition, the output unit 500 is configured to supply the electric power charged in the battery unit 300 to a target electronic device, and includes a DC output module 510 and an AC output module 520, which are the body It is provided inside the portion (100).

In the case of the DC output module 510, the DC power stored in the battery unit 300 is output as it is, or the DC power is boosted or stepped down so as to correspond to a specification of an electronic device to be used to output the DC power. .

At this time, the output DC power may be supplied to various electronic devices through the DC output member 121 described above.

In addition, in the case of the AC output module 520, the DC power stored in the battery unit 300 is inverted to AC power and then output, so that it can also operate on electronic devices driven by AC power. Power can be supplied.

At this time, the output AC power may be supplied to various electronic devices through the AC output member 122 described above.

In addition, the controller 600 is a component that performs a function of controlling the above-described components of the portable power supply device 1000 with the solar tracking function, the first output control module 610 and the second output It includes a control module 620, a frequency conversion module 630, a timer module 640, and an optical tracking module 650, which is provided inside the body portion 100.

In more detail, in the case of the first output control module 610, at least one or more components of the DC output module 510 or the AC output module 520 described above are operated to generate DC or DC power from the battery unit 300. Performs a function that outputs at least one type of power from AC.

And, in the case of the second output control module 620, by controlling the above-described DC output module 510, there is no voltage fluctuation or boosted or step-down DC power is output from the battery unit 300.

In addition, the frequency conversion module 630 controls the AC output module 520 described above to perform a function of outputting AC power having a frequency converted from the battery unit 300.

Then, the timer module 640 performs a timer function for adjusting the driving time of the output unit 500.

Then, the light tracking module 650 calculates a real-time sun position corresponding to the latitude and longitude, the date and time of the place where the solar tracking portable power supply 1000 is provided, and corresponding to the real-time sun position By allowing the above-described tilting member 220 to be operated, the panel member 230 performs a function to follow the sun in real time.

At this time, as shown in FIG. 2, the display unit 700 is provided on one side of the body unit 100, and various control states and the battery unit by the control unit 600 as shown in FIG. 4. The remaining battery power of 300 is displayed, and the function of the above-described controller 600 is controlled through a touch method.

As described above, the present invention is intended to provide a portable power supply device having a solar tracking function, and the embodiments described above with reference to the drawings are only one embodiment. The true scope of the rights will be based on the scope of the claims, but it will also extend to the equivalent embodiments that may exist in various ways.

1000: Portable power supply with solar tracking according to the present invention
100: body part
110: input terminal
111: DC input member
112: AC input member
120: output terminal
121: DC output member
122: AC output member
200: solar power generation unit
210: body member
220: tilting member
230: panel member
300: battery unit
310: no battery cell
400: converting unit
500: output
510: DC output module
520: AC output module
600: control unit
610: first output control module
620: second output control module
630: frequency conversion module
640: timer module
650: optical tracking module
700: display unit

Claims (2)

A body portion formed in a portable case structure;
A photovoltaic power generation unit that is connectable to and detachable from the body unit and is tilted in real time along the position of the sun;
It is provided inside the body portion, when the power is charged from at least one or more of the external power supply or the photovoltaic power generation unit, and the external power supply and the photovoltaic power generation unit is simultaneously connected to the power from the solar power generation unit A battery unit that is supplied with priority;
An output unit that outputs the power charged in the battery unit; And
Includes a control unit for calculating the real-time solar position corresponding to the latitude and longitude, the date and time of the place where the solar power generation unit is provided, and tilting the solar power generation unit in response to the real-time solar position.
The solar power generation unit charges the battery unit through a maximum power tracking method (MPPT),
The output unit includes a DC output module and an AC output module,
The control unit,
A first output control module that causes at least one of the DC output module or the AC output module to operate;
A second output control module that controls the DC output module,
Portable power supply with a solar tracking function, characterized in that it comprises a frequency conversion module to control the AC output module to output the AC power converted frequency. delete

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