KR20230075881A - Foldable solar cell charging system applicable to poles - Google Patents

Abstract

The present invention is a holding; solar cell panels arranged at regular intervals along the support and installed in plurality; a folding actuator configured to fold or unfold the solar cell panel; including,
By mounting a plurality of foldable solar modules on one support, the charging efficiency using solar light is excellent in a small area, and the solar cell panel is unfolded after the sun rises and falls and the solar cell panel is folded after the sun sets. It can protect the solar power facility system after safety and appearance, and the solar cell panel is configured in a semicircular shape to detect the change in the position of the sun according to the rotation of the earth, rotate according to the angle of incidence of sunlight, and enable solar power charging. By configuring, it relates to a foldable solar cell charging system applicable to a pillar having an effect of maximizing power generation efficiency by collecting sunlight as much as possible.

Description

Foldable solar cell charging system applicable to poles}

The present invention relates to a solar module, and more particularly, to a folding solar cell charging system applicable to a pole having excellent charging efficiency using sunlight in a small area by mounting a plurality of foldable solar modules on one pole.

Methods using solar energy are largely divided into methods using solar heat and methods using sunlight.

In particular, the method of using sunlight is to generate and use electricity by using light from sunlight, and the core of solar energy depends on how well solar energy is collected.

The solar module, which is the most important part here, is a tracking method that tracks the position of the sun through power or device manipulation so that direct sunlight always enters vertically on the front of the solar module to maximize power generation efficiency; There is a semi-fixed method in which the position changes up and down by season or month, a fixed method in which the position is fixed regardless of the altitude of sunlight, and the like.

Among these methods, the tracking method can maximize the efficiency of solar power generation because it rotates the solar panel according to the altitude of the sun so that the sunlight incident on the solar panel is at a right angle, but it needs to rotate the solar panel itself. There is a problem of building a strong support and solid infrastructure to support it, and there is a problem of requiring a relatively large installation area due to low energy efficiency, which eventually increases the manufacturing and operating costs of the solar heat collection device. will act as a factor.

In the case of the tracking method, the semi-stationary method, and the stationary method, since the charging efficiency is low, the photovoltaic modules must be equally distributed widely in the form of a flat plate. This problem can be installed in a structure suitable for relatively wide land, and the land area In this small country or region, it is pointed out that it is quite difficult to secure a place to build a photovoltaic power generation system.

In order to solve these problems, Korean Patent Registration No. 10-1534835 provides a structure in which a plurality of solar cell panels are arranged so that they are mutually dispersed. A solar power plant is proposed.

However, in the case of the above prior art, there is a problem in that the production cost increases due to a very complicated structure for raising and lowering the solar cell panel, and there is a limit to collecting sunlight as much as possible because the solar cell panel is formed on only one side, and it is applied in a wide area. Since it must be installed, there is a problem in that a considerable installation area is required.

Republic of Korea Patent Registration No. 10-1534835

The present invention has been devised to solve the above problems and the like, and an object of the present invention is to propose a solar cell charging system for charging sunlight that can be installed in a relatively small area.

In addition, the present invention is configured so that the solar cell panel can be grounded, but is formed in multiple stages on the support constituting the pillar, so that it is spread at sunset so that sunlight is concentrated on the unfolded solar cell panel, and the weather environment during appearance or bad weather Another purpose is to increase the condensing efficiency of sunlight by configuring it to be folded again and to protect the solar cell panel from the outside.

In addition, the present invention forms a circular shape on a plane when the solar cell panel structure is formed in a multi-stage structure around a pillar and is unfolded or folded in a circular shape, so that the solar collecting module forms a typical square shape. It may be impossible to be disposed over the entire area of the solar cell panel. In order to solve this problem, the solar collecting module is implemented in a triangular shape so that it can be disposed over the entire area of the solar cell panel having a triangular partitioned area. Another purpose is to increase the efficiency of concentrating solar power according to the efficient arrangement of modules.

The present invention for achieving the above object,

landlord;

solar cell panels arranged at regular intervals along the support and installed in plurality;

a folding actuator configured to fold or unfold the solar cell panel;

includes

According to the present invention, it is possible to provide a foldable solar cell charging system applicable to a pole having excellent charging efficiency using sunlight in a small area by mounting a plurality of foldable solar modules on one pole.

In addition, according to the present invention, it is possible to expect the effect of securing the safety of the facility by configuring the solar cell panel to be unfolded after the sun rises and set and to be folded after the sun sets.

In addition, according to the present invention, the solar cell panel is configured in the form of a semicircular arc to detect the change in the position of the sun according to the rotation of the earth, rotate according to the incident angle of sunlight, and collect sunlight as much as possible by configuring it to be charged with sunlight. This can have the effect of maximizing the power generation efficiency.

1 is a view showing an example of a photovoltaic power generation system applied to the present invention
Figure 2 is a schematic cross-sectional view of the present invention according to Figure 1
3 and 4 are diagrams schematically illustrating an operating state in which a solar cell panel is folded like an umbrella and can be folded or unfolded according to the operation of a cylinder at the bottom of a support in the embodiment shown in FIG. 2
5 is a view showing another embodiment of the present invention, showing an example in which a solar cell panel made of solar cell panel fragments is formed in a semicircular arc shape with a support as the center.
Figure 6 is a schematic cross-sectional view of another embodiment according to Figure 5
7 is a view schematically showing the shape of a solar cell module applied to a solar cell panel fragment constituting the solar cell panel of the present invention.

Specific structural or functional descriptions of the embodiments according to the concept of the present invention disclosed in this specification are only illustrated for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention Various changes can be made and various forms can be made, so all changes, equivalents, or substitutes included in the spirit and technical scope of the present invention are included, and terms or words used in the specification and claims are conventional or dictionary. Meanings and concepts consistent with the technical idea of the present invention, based on the fact that the inventor can appropriately define the concept of the term in order to explain his/her invention in the best way, as well as not being construed as limited in meaning. should be interpreted as Therefore, the embodiments described in the specification of the present invention and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, replacing them at the time of filing of the present invention. It will be understood that various equivalents and variations are possible or exist.

In addition, unless otherwise defined in the specification of the present invention, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs. have Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in this specification, it should not be interpreted in an ideal or excessively formal meaning. don't

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

The configuration of the present invention is largely divided into a holding 100, a solar cell panel 200, which is a plurality of solar panels installed and arranged at regular intervals along the holding 100, and the solar cell panel 200 It consists of a folding driving unit 300 configured to be folded or unfolded.

The support 100 is installed on the ground, and may be divided into a fixed type and a rotation type according to an embodiment of the present invention.

For example, when the holding 100 is configured as a fixed type as shown in FIG. 1, the solar cell panel 200 has an arc shape and takes an umbrella shape inclined at a predetermined angle from the center line.

In addition, in the case of a rotational configuration, the solar cell panel 200 is configured in a semi-circular arc shape so that the position of the solar cell panel 200 is variable according to the rotation of the support 100 .

In particular, in the case of the rotatable post 100, the solar cell panel 200 is configured in a semi-circular arc shape instead of an arc shape, so that the post 100 rotates along the position of the sun at the lower end of the post 100. Constituting the drive unit 110.

The rotary driving unit 110 may be driven by a timing belt or a pinion 111, a rack 112, and a driving unit 113 as shown in FIGS. 5 and 6 .

The driving unit 113 may be driven by a cylinder or a driving motor operable by hydraulic pressure or pneumatic pressure.

In the present invention, a pinion 111 is formed at the lower end of the holding post 100, a rack 112 geared thereto is provided, and a drive unit 113 for moving the rack 112 forward and backward.

In addition, it is of course possible to use a driving means such as a timing belt (not shown in the drawing) as described above.

As shown in FIG. 2, the folding drive unit 300 has a cylinder 310 accommodated at the lower end of the column 100, a rod 320 connected from the cylinder 310, and the rod 320 at equal intervals. It consists of a horizontal connecting rod 330 connected to a spaced apart position, and a connecting link 340 connected to the solar cell panel 200 from an end of the horizontal connecting rod 330.

The horizontal connecting rod 330 is lifted up and down by the operation of the cylinder 310, so as to avoid interference when the horizontal connecting rod 330 is raised and lowered, a guide groove 140 is provided in the vertical direction on the side of the support 100. should be formed.

Meanwhile, the rotation driving unit 110 and the folding driving unit 300 are configured to be controllable by the controller 400, and a sun sensor 410 is configured to apply a signal to the controller 400. It is preferable.

The sun detection sensor 410 is provided on the upper end 130 of the support 100, detects whether or not sunlight is incident, and gives a signal to the controller 400 to detect sunset and appearance, and the controller 400 When information about the appearance and sunset of the sun is obtained from the above, the solar cell panel 200 can be unfolded or folded by driving the folding actuator 300 .

That is, when the sunset of the sun is recognized by the sun sensor 410, the cylinder 310 provided at the lower end of the column 100 operates to move the rod 320 upward to unfold the folded solar cell panel 200. will be moved to

As the rod 320 moves upward, when the plurality of horizontal connecting rods 330 spaced apart from the rod 320 interlock and rise along the guide groove 140 formed long on the side of the column 100, The connection link 340 connected to the end side of the horizontal connection rod 330 also rises, and the solar cell panel 200 connected to the other end side of the connection link 340 is the outer circumferential surface of the holding post 100. Since it is in a fixed state, the connecting link 340 provides a pushing force to the solar cell panel 200 while the solar cell panel 200 has a unfolded form as shown in FIG. 3 .

In addition, when the sun sensor 410 detects the sun sensor 410, the cylinder 310 is operated in reverse, and the solar cell panels 200 are adjacent to the support 100 side as shown in FIG. 4 by the reverse operation of the above-described process. can be folded

On the other hand, in the case of configuring the rotational support 100, the sun sensor 410 is provided on the upper end 130 of the support 100, and the incident detection sensor 420 is a solar cell panel having a semicircular arc shape ( 200) is preferred.

In the case of the solar cell panel 200 having a semicircular arc shape, it is configured to be directionally rotated according to the position of the sun, and the controller 400 according to the incident angle of sunlight by the incident detection sensor 420 provided in the solar cell panel 200 It is possible to drive the rotary driving unit 110 through the control of ) and control sunlight to be incident on the solar cell panel 200 having a semicircular arc shape.

In this way, the reason why the solar cell panel 200 is a semicircular arc is that when sunlight is mainly incident in one direction around the support 100 according to the position of the sun, the solar cell panel 200 in the corresponding area This is because the light collection efficiency can be high.

However, even when configured in a circular arc shape, since sunlight can be collected even if the incident angle is not perpendicular, the solar cell panel 200 is configured by selecting either a circular arc or a semi-circular arc shape according to the installation location and environmental conditions. Of course you can.

On the other hand, as shown in FIG. 4, the solar cell panel 200 is configured to be unfolded at sunrise and folded at sunset, and a plurality of solar cell panel segments (200-a, 200-b, 200 -c ~ 200-h).

In this way, it must be composed of a plurality of solar cell panel segments (200-a, 200-b, 200-c ~ 200-h), so that the solar cell panel 200 is folded according to the detection of the sun sensor 410 at sunset. When folded or unfolded by the driving of the driver 300, each of the solar cell panel segments 200-a, 200-b, 200-c.. can be easily unfolded or overlapped and folded without mutual interference. there will be

On the other hand, the solar cell panel segments 200-a, 200-b, and 200-c to 200-h should have a triangular area as shown in the drawing.

In addition, the solar cell module 210 should be arranged along the triangular area of the solar cell panel segments (200-a, 200-b, 200-c ~ 200-h), and the solar cell panel segments (200-a, 200-h) As b, 200-c to 200-h) constitute a triangular area, it is preferable that the solar cell modules 210 are regularly arranged using a triangular pattern.

In the present invention, components required for a photovoltaic power generation system, such as a storage battery and an inverter for accumulating solar heat energy incident from sunlight incident through the solar cell panel 200, are accommodated and configured inside the holding 100. can Preferably, the door 120 is formed at the lower end of the post 100 so that maintenance by an operator is possible.

According to the present invention having the configuration as described above, when a signal is applied to the controller 400 by the sun sensor 410 that detects when the sun rises and falls, the controller 400 drives the folding drive unit 300 to set the sun Each solar cell panel segment (200-a, 200-b, 200-c..) constituting the battery panel 200 is spread out.

In this state, while the sun is rising, solar light is incident and the solar light is stored in the storage battery provided inside the pillar 100, and then it becomes possible to generate electricity, and when the sun sets, the signal is transmitted again to the solar sensor 410) detects and sends a signal to the controller 400, so that the solar cell panel fragments 200-a, 200-b, 200-c.. are gathered together and the umbrella maintains a folded shape.

Since a plurality of the solar cell panels 200 as described above are installed at equal intervals along the top and bottom of the support 100, even in a very narrow area, the solar cell panels 200 configured up and down accumulate sunlight. and development is possible. That is, since a large area is not required as in the past, intensive installation of the photovoltaic power generation system is possible even in a small area. In addition, installation and construction can be freely performed on roads in the city.

In addition, as shown in FIG. 5, when the solar cell panel 200 is configured in a semicircular arc shape, the position of the sun is detected by the incident detection sensor 420 and corresponding information is transmitted to the controller 400 in real time.

The solar cell panel 200 spread in a semicircular arc shape by the sensing value of the incident detection sensor 420 detects the position of the sun to form an optimal incident angle of sunlight and rotates the rotary drive unit 110 according to the position of the sun. As it rotates, the energy of the sunlight is converted into electrical energy to generate power after being charged by the configuration of the inverter and storage battery.

As described above, although the present invention has been described with limited embodiments and drawings, the present invention is not limited to the above embodiments, of course, from the above description by a person having ordinary technical knowledge in the field to which the present invention belongs. Of course, various modifications and variations may be possible.

Therefore, the technical idea in the present invention should be grasped by the claims described below, but it will be obvious that all equivalent or equivalent modifications belong to the scope of the technical idea of the present invention.

100; holding 110; rotary drive unit
111; pinion 112; rack
113; Driving unit 120; door
130; upper part 140; guide home
200; Solar cell panel 300; Folding driving part
310; cylinder 320; road
330; Horizontal connecting rod 340; connection link
400; controller 410; solar cell sensor
420; incident detection sensor

Claims (9)

landlord;
solar cell panels arranged at regular intervals along the support and installed in plurality;
a folding actuator configured to fold or unfold the solar cell panel;
A foldable solar cell charging system applicable to a holding comprising a.
According to claim 1,
The solar cell panel is a foldable solar cell charging system applicable to a holding comprising one of a circular arc or a semi-circular arc shape.
According to claim 1,
A foldable solar cell charging system applicable to a holding including having a rotation drive at a lower end of the holding to enable rotation of the holding.
According to claim 1,
an incident detection sensor provided in the solar cell panel;
a controller that senses the position of the sun according to the sensing value of the incident detection sensor;
a rotational driving unit provided at the lower end of the holding to rotate the holding according to the signal of the controller;
A foldable solar cell charging system applicable to a holding comprising a.
According to any one of claims 3 or 4,
The rotary drive unit,
a pinion provided on the outer periphery of the lower end of the holding;
a rack geared to the pinion;
a driving unit for moving the rack forward and backward;
A foldable solar cell charging system applicable to a holding comprising a.
According to claim 1,
a sun sensor provided at an upper end of the support;
a controller that senses the sunset and rise and fall of the sun according to the sensing value of the sun sensor;
A foldable solar cell charging system applicable to a pillar comprising driving the folding drive unit according to a signal from the controller to unfold or fold the solar cell panel.
According to claim 1,
The solar panel,
A foldable solar cell charging system applicable to a pillar including a plurality of solar cell panel segments connected radially from the center of a pillar to be unfolded at sunrise and folded at sunset.
According to claim 1,
The folding drive unit,
a cylinder accommodated at the lower end of the holding;
A rod connected from the cylinder to the upper side of the post;
Horizontal connecting rods connected to positions spaced apart from the rods at equal intervals;
A connecting link connected to the solar cell panel from the end of the horizontal connecting rod;
Guide grooves provided in the vertical direction on the side of the support to guide the vertical movement of the horizontal connecting rod;
A foldable solar cell charging system applicable to a holding comprising a.
According to claim 1,
The solar cell panel is made of a solar cell panel segment consisting of a plurality of triangles,
A foldable solar cell charging system applicable to a pillar including solar cell modules having a triangular pattern in a triangular area of the solar cell panel segment and provided.

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