KR102036965B1 - Solar tree and solar park - Google Patents

Abstract

The present invention provides a photovoltaic panel that generates power by using sunlight incident from the upper side and forms a shade region below; An air purifier for purifying air and supplying purified air to the shade area; An air flow apparatus driven by the electric power produced by the solar panel and allowing air to flow to the air purifier; And a pillar that stands up in the shaded area and provides a support so that the photovoltaic panel is positioned above the shaded area.

Description

Solar Tree and Solar Park {SOLAR TREE AND SOLAR PARK}

The present invention relates to a technology for producing electric power using sunlight and providing clean air to a shade area formed under the solar panel.

Since ancient times, the shade of trees has been a favorite resting place for people.

Trees are located outdoors but they shade down and release the oxygen produced by photosynthesis, so people can get fresh air in the shade of the trees while avoiding solar radiation.

However, in recent years, as the pollution to the air is getting worse, there are fewer people taking a break in the shade of the trees. Still, in the shade of the tree, insolation can be avoided, but it is not suitable as a resting place because it must inhale contaminated air.

In this context, it is an object of the present invention to provide a technique for providing purified air with shade outdoors.

In order to achieve the above object, in one aspect, the present invention, the solar cell panel for producing electric power by using the incident light from the upper side to form a shade region below; An air purifier for purifying air and supplying purified air to the shade area; An air flow apparatus driven by the electric power produced by the solar panel and allowing air to flow to the air purifier; And a pillar that stands up in the shaded area and provides a support so that the photovoltaic panel is positioned above the shaded area.

In another aspect, the present invention, the plurality of solar trees described above; And a central connection configured to be connected to the plurality of solar trees and the commercial power grid through a wiring, and to store the power produced by the plurality of solar trees and to compensate for the insufficient power of the at least one solar tree using the commercial power grid or the stored power. Provided is a solar park comprising a device.

As described above, according to the present invention, by providing the purified air together with the shade, it is possible to provide an outdoor rest space where people can rest even in the polluted outdoor air.

1 is a diagram illustrating a function of a solar tree according to an exemplary embodiment.
2 is a diagram illustrating an internal configuration of a solar tree according to an embodiment.
3 is a block diagram of electrical devices that may be included in a solar tree according to an embodiment.
4 is a first exemplary diagram of an appearance of a solar tree according to an exemplary embodiment.
5 is a diagram illustrating a second example of an outline of a solar tree according to an exemplary embodiment.
6 is a block diagram of a control system that may be included in a solar tree according to an embodiment.
7 is a configuration diagram of a solar park according to an embodiment.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the component of this invention, terms, such as 1st, 2nd, A, B, (a), (b), can be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected to or connected to that other component, but there may be another configuration between each component. It is to be understood that the elements may be "connected", "coupled" or "connected".

1 is a diagram illustrating a function of a solar tree according to an exemplary embodiment.

While the solar tree 100 includes the solar panel 110, the solar tree 100 may generate power using solar light incident from the upper side of the solar panel 110, and form a shade region below.

The solar tree 100 may have a shape such as a tree in appearance. As an example, the photovoltaic panel 110 may have a shape such as a leaf of a tree. As another example, the solar tree 100 may include the artificial leaf 102, and the solar panel 110 may be in harmony with the artificial leaf 102 while being disposed on the artificial leaf 102.

The solar tree 100 may include a pillar 120 that stands up in the shade region and provides a support force to the solar panel 110 so that the solar panel 110 is positioned above the shade region.

The outer shell of the pillar 120 may be configured to have a bark shape so that people may feel like a tree from the solar tree 100 in appearance.

The solar tree 100 may provide the benefits of the tree as it is to people.

First, the solar tree 100 may provide a resting space, for example, a shade area, in which people may avoid solar radiation by blocking sunlight incident from the upper side. Conventionally, solar panels installed in a parking lot also block sunlight to allow cars to avoid solar radiation, but according to an embodiment, the solar tree 100 has a tree shape and provides people with a more familiar and comfortable environment. This is different from the solar panels installed in the existing parking lot.

The solar tree 100 may provide purified air to people. In recent years, fewer people are resting under the shade of trees, which can be attributed to air pollution. The solar tree 100 purifies the air using the power generated by the solar panel 110 and provides the purified air to the shade area so that the people under the solar tree 100 can rest in peace.

The solar tree 100 may provide cool air to people. The trees reflect some of the incoming sunlight and absorb some for photosynthesis, keeping the air below cool. Photovoltaic panel 110 also reflects some of the sunlight and absorbs some of the sunlight, but is cooler than trees because heat generated by power generation or heat generated by sunlight incident upwards is partially conducted downward. It's hard to make air. The solar tree 100 may provide cool air (cooled air) to the shade area while further including an internal air conditioning and heating device to compensate for this.

In addition, the solar tree 100 may provide or reinforce the various benefits provided by the tree. For example, while the solar tree 100 includes an oxygen generator, the solar tree 100 may provide oxygen to the shade region, and may spray the natural incense of the tree into the shade region using a fragrance apparatus.

The solar tree 100 may obtain the driving power of the device providing the benefit from the solar panel 110. As a tree provides various benefits to people by using sunlight as an energy source, the solar tree 100 uses the solar panel 110 to generate power and uses the produced power to provide various (benefit) devices. -For example, an air purifier, an air conditioning unit, an oxygen generator, an aroma unit, or the like.

2 is a diagram illustrating an internal configuration of a solar tree according to an embodiment.

Referring to FIG. 2, the solar tree 100 includes a photovoltaic panel 110, a pillar 120, artificial branches 212, an air purifier 242, an air flow device 244, and an air discharge device 246. And the like.

The photovoltaic panel 110 may be connected to the artificial branch 212 branched from the pillar 120, and may receive a supporting force from the pillar 120 and the artificial branch 212.

The artificial branch 212 and the contact point of the solar panel 110 may further include a rotation control device such as a motor. The solar cell panel 110 may change a posture by a rotation controller. For example, the solar tree 100 may obtain a maximum amount of solar radiation by changing the attitude of the solar panel 110 differently according to the altitude and direction of the sun.

The pillar 120 may also include a rotation control device such as a motor. The pillar 120 may be divided into a plurality of stages, and each stage may be connected to a rotation control device such as a motor. The rotation control device included in the pillar 120 may be used to rotate the pillar 120. The solar tree 110 may be a rotation control device connected between the solar panel 110 and the artificial branch 212 to change the attitude of the solar panel 110, but the solar tree 110 may have a pillar 120. It is possible to change the direction of the entire solar tree 110 using a rotation control device included in.

The air purifier 242 may purify the contaminated air and supply the purified air to the shade area. The air purifier 242 may be configured as a filter. The air purifier 242 may include a filter that does not use electrical energy, for example, a hepa filter, and may include a filter that uses electrical energy, for example, an electrostatic precipitating filter. When the air purifier 242 includes a filter that uses electrical energy, the air purifier 242 may use power generated by the solar panel 110.

The air flow device 244 is a device for allowing air to flow to the air purifier 242, and may be, for example, an electric fan. The airflow device 244 may control the flow of air so that the polluted air flows through the air purification device 242 to the shade area. The air flow device 244 may be located at the front-end of the air purifier 242 before the air flows into the air purifier 242 in the flow path of the air, and the rear-end is air It may be located at the position after the air flows out of the air purifier 242 in the flow path of the.

The air flow device 244 may be driven by the power produced by the solar panel 110. The airflow device 244 may include a DC electric fan driven by direct current, in which case the DC electric fan may be driven by the power produced by the solar panel 110.

The air discharge device 246 may include a net in which a plurality of holes are formed, and may be located at the rear end of the air purifier 242. The air exhaust device 246 may be shaped like a part of a tree for appearance consistency as a part exposed to people. For example, the air exhaust device 246 may be formed to have an appearance such as a cut surface of a cut tree branch, a cut surface including a ring pattern. Alternatively, the surface of the air discharge device 246 may have a shape like a plurality of leaves. Alternatively, the surface of the air discharge device 246 may have a shape such as a plurality of petals, wherein the solar tree 100 further includes a fragrance device and is discharged to the shade area through the air discharge device 246. You can smell the flowers in the air.

Various devices may be included in the solar tree 100. Other devices that may be included in the solar tree 100 will be further described with reference to FIG. 3.

On the other hand, air in the solar tree 100 may flow from the upper side to the left and right sides. Since people are usually located at the lower side of the solar tree 100, the solar tree 100 may inhale air at a position higher than the position of the people and then discharge the air toward the lower side where people are located.

An inlet 234 may be formed at an upper side of the pillar 120 of the solar tree 100, and a first passage 230 through which air may flow from the upper side of the pillar 120 to the lower side may be formed. In addition, a second passage 240 may be formed in the pillar 120 to be connected to some side surfaces of the first passage 230 and to discharge air to the outside.

Air entering through the inlet 234 formed above the first flow path 230 flows downward along the first flow path 230, and part of the air continues to flow downward, and the other part flows down the second flow path 240. Can flow along.

At this time, the heavy dust contained in the air entering the inlet 234 may sit down to the bottom bottom. The solar tree 100 may further include a dust collector 250 that can flow in and out from the lower bottom portion, and dust falling down to the lower bottom is discharged out of the solar tree 100 manually or automatically through the dust collector 250. Can be.

Since the second flow path 240 is formed on the side of the first flow path 230, the second flow path 240 may be less affected by relatively heavy dust.

The first flow path 230 may include a section that is wider toward the lower side. For example, as shown in FIG. 2, the first flow path 230 may have a shape in which the entire section becomes wider toward the lower side.

The second flow path 240 may be connected to a section in which the width becomes wider toward the lower side from the first flow path 230. In a section where the width becomes wider toward the lower side, contaminants such as dust are hard to be stacked on the wall surface 232 of the first passage 230. Therefore, less contaminants such as dust flow into the second passage 240 connected to the section.

The air purifier 242, the air flow device 244, and the air discharge device 246 may be disposed in the second flow path 240. In the case of the device disposed in the first flow path 230, dust falling from the upper side to the lower side may be stacked. The air purifier 242, the air flow device 244, and the air discharge device 246 are the second flow path. By being disposed at 240, such a problem of lamination of dust can be avoided.

3 is a block diagram of electrical devices that may be included in a solar tree according to an embodiment.

Referring to FIG. 3, the solar tree 100 may include a solar panel 110 capable of producing power, and may include an energy storage device 310 that stores power generated by the solar panel 110. have.

The photovoltaic panel 110 may include a semiconductor that converts sunlight into electrical energy, and may include an inverter that converts electricity produced in the semiconductor into a form of electricity that may be used by other devices.

The energy storage device 310 may include, for example, a battery such as a secondary battery, and a battery management system (BMS) for controlling the amount of energy of the battery, for example, a state-of-charge (SoC). It may include.

The energy storage device 310 may limit the driving of some of the power consumption devices included in the solar tree 100 according to the amount of stored energy. For example, the energy storage device 310 may set a priority for power consumption and stop driving the device having a lower priority if the stored energy amount is less than or equal to a predetermined value. As a more specific example, when looking at the lighting device 330, the charging device 340, the directional device 340, the lighting device 330 is the highest priority device, the directional device 340 is the next-order device, and charging The device 340 may be the device of last ranking. In such a relationship, the energy storage device 310 may stop driving in order of the charging device 340, the directional device 340, and the lighting device 330 according to the stored energy amount.

The solar tree 100 may include a tree function simulation apparatus. The tree function simulation apparatus may be, for example, an air purifier 320, an air conditioner 324, an aroma device 340, or the like. The tree function replicating device may be a device that simulates and enhances the positive benefits that a tree provides to a person.

The air purifier 320 may purify the contaminated air and supply the purified air to the shade area.

The air conditioning unit 324 may be driven by the power produced by the solar panel 110 and heat or cool the air supplied to the shaded area. The solar tree 100 may further include a thermometer for measuring the temperature of the shade area, and the air conditioner 324 may control the amount of heating heat or cooling heat according to the temperature measured by the thermometer.

While the fragrance apparatus 340 includes the fragrance, the fragrance may be injected into the shade area by using the power generated by the solar panel 110. The fragrance may be a natural fragrance extracted from the tree.

The solar tree 100 may further include various additional devices in order to increase comfort in the shade area in addition to the tree function simulation apparatus. The additional device may be, for example, the pest control device 326, the lighting device 330, the air flow device 322, the charging device 340 and the like.

The pest control device 326 may be driven by electric power produced by the solar panel 110 and fight pests by spraying a repellent or insecticide into the shade area.

In addition, the lighting device 330 may be driven by the power produced by the solar panel 110 and may illuminate the peripheral area of the pillar.

Here, the power produced by the solar panel 110 includes power stored in the solar panel 110 and stored in the energy storage device 310. The lighting device 330 may be driven by the power produced in the solar panel 110 and stored in the energy storage device 310 because the lighting device 330 uses power at a time when the solar light is not substantially strong or free.

Air flow device 322 is a device for generating a flow of air, such as wind in the solar tree 100, has the effect of increasing the amount of air purification in the air purifier 320, and rest in the shade area There is also the effect of providing a fresh feeling like the wind to those who take it.

The charging device 340 is a device that provides charging power to portable electronic devices held by people taking a break in the shaded area, for example, a smartphone, a laptop, and the like.

In addition to the above-described devices, the solar tree 100 includes a communication device and can provide wireless communication to people located in the shaded area, and includes a media output device such as a television, such as a movie or broadcast. Media content can be provided. In addition, the solar tree 100 may include audio devices such as radio and audio, and provide voice contents such as radio broadcasting and music to people.

Solar trees, on the other hand, can have a tree-like appearance to provide a more familiar feel to people.

4 is a first exemplary diagram of an appearance of a solar tree according to an exemplary embodiment.

Referring to FIG. 4, the outer shell of the pillar 120 in the solar tree 100 may be configured in the shape of a bark, and the pillar 120 is connected to an artificial branch 212 and the artificial branch 212 has an artificial leaf ( 102 is attached, and the photovoltaic panel 110 may be disposed on the artificial leaf 102.

Artificial leaf 102 may be used to provide a tree-like appearance, but may also be used to maximally block sunlight penetrating into the shade area. Although the photovoltaic panel 110 primarily blocks sunlight, but when the photovoltaic panel 110 is thin and a plurality of photovoltaic panels 110 are used, the plurality of photovoltaic panels 110 may be used. Solar light may be leaked in a space, and the artificial leaf 110 may block solar light more completely by blocking the secondary light under the solar panel 110.

In addition, the photovoltaic panel 110 may be disposed around the south side and may not be disposed in the north side, and the artificial leaf 102 is disposed in a space where the photovoltaic panel 110 is not disposed, so that the entire solar tree 100 is disposed. The shape can be made closer to the tree.

5 is a diagram illustrating a second example of an outline of a solar tree according to an exemplary embodiment.

Referring to FIG. 5, the solar tree 500 may include a solar panel 510 having a shape other than a quadrangle. The photovoltaic panel 510 may have a shape of an appearance in which a plurality of leaves are combined, or may have an appearance of a large leaf. For example, the solar panel 510 may have a round shape or may have a polygonal shape of five or more shapes.

The shape of the photovoltaic panel 510 may create an effect that allows the solar tree 500 to be recognized in a more similar form to a tree.

The solar tree 500 may further include artificial leaves 512 in addition to the photovoltaic panel 510 having a special shape. The solar tree 500 basically forms a tree shape using a solar panel 510 having a special shape, but may place an artificial leaf 512 in a space having a gap to make the entire shape similar to a tree.

The solar tree 500 may have the shape of a pine tree similar to a triangle as shown in FIG. 5, or may have the shape of an apple tree similar to a circle as shown in FIG. 4.

SolarTree includes more sensing and control devices, allowing more systematic control of the entire system.

6 is a block diagram of a control system that may be included in a solar tree according to an embodiment.

Referring to FIG. 6, the solar tree 600 may include a control device 610, a sensing device 620, a display device 630, and the like as a control system.

The sensing device 620 may be a device for sensing the air state of the shade area. For example, the sensing device 620 may measure the concentration of fine dust / ozone, measure temperature, and measure humidity.

The sensing device 620 may be positioned at a distance d from the pillar 120 to sense the air state of the shade area. Here, the predetermined distance d may be the outermost distance where the shade region is formed, but is not limited thereto. For example, when the sensing device 620 is located inside the shade area, the sensing device 620 uses the estimation technique such as linear interpolation to estimate the air state of the entire shade area. The state can be estimated.

The sensing device 620 may transmit a sensing value for the air state of the shade area to the control device 610 and / or the display device 630. For example, the sensing device 620 may transmit sensing information about the concentration of fine dust included in the air in the shade area to the control device 610.

The controller 610 may adjust the driving strength of the electric device included in the solar tree 600, for example, the air flow device, according to the information or the signal of the air condition received from the sensing device 620. For example, if it is determined that the concentration of fine dust in the air of the shade area is higher than the preset reference value, the controller 610 increases the driving intensity of the air flow apparatus to purify the air according to the information received from the sensing device 620. It is possible to increase the amount of purification of air through the device. Alternatively, if it is determined that the air temperature in the shade area is higher (than a preset reference value) according to the information received from the sensing device 620, the control device 610 may decrease the air temperature by increasing the driving strength of the air conditioner.

The sensing device 620 may sense the presence or absence of a person staying in the shaded area. In addition, the control device 620 may drive the electric device included in the solar tree 600 according to the person information of the shadow area received from the sensing device 620-information on the presence or the number of people. Drive strength can be adjusted. For example, the controller 620 may not operate the air flow apparatus when there is no person in the shade area. Alternatively, the controller 620 may increase the driving strength of the air flow apparatus when there are more people in the shade area.

The display device 630 may receive the air state information on the shade area from the sensing device 620 or the control device 610 and display it on the screen. The display device 630 may further display useful life information (eg, traffic information, weather information, news, etc.) in addition to the information on the air condition.

Meanwhile, the solar tree may be arranged alone, but several solar trees may form a park (solar park) or a forest (solar forest).

7 is a configuration diagram of a solar park according to an embodiment.

Referring to FIG. 7, a plurality of solar trees 710 may be disposed in the solar park 700, and a central management unit 720 may be disposed to manage power generated by the plurality of solar trees 710. In the solar park 700, the plurality of solar trees 710 and the central management apparatus 720 may be connected through wiring.

The central management unit 720 may include an energy storage device, for example, a battery, to store power generated by the plurality of solar trees 710. The central management apparatus 720 may supplement the insufficient power of the at least one solar tree 710 using the stored power.

The central management unit 720 is connected to the commercial power grid and can supplement the insufficient power of at least one solar tree using the commercial power grid power.

One embodiment of the present invention has been described above. According to this embodiment, it is possible to provide an outdoor rest area where people can rest in the polluted outdoor air by providing purified air together with the shade.

The terms "comprise", "comprise" or "having" described above mean that a corresponding component may be included unless specifically stated otherwise, and thus does not exclude other components. It should be construed that it may further include other components. All terms, including technical and scientific terms, have the same meanings as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms commonly used, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be construed in an ideal or excessively formal sense unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (10)

A photovoltaic panel that generates power by using sunlight incident from an upper side and forms a shade region below;
An air purifier for purifying air and supplying purified air to the shade area;
An air flow apparatus driven by electric power produced by the solar panel and allowing air to flow to the air purifier; And
A pillar which stands up in the shade region and provides a support force so that the photovoltaic panel is positioned above the shade region,
A first flow path through which air flows from the upper side to the lower side is formed in the pillar,
A second flow path is connected to some side surfaces of the first flow path and discharges air to the outside.
The first flow passage includes a section that is wider toward the lower side,
The second flow passage is connected to the section;
The air purifier and the air flow apparatus are located in the second flow path,
Further comprising a dust collector installed to allow the flow in and out at the bottom bottom of the first flow path,
Further comprising an energy storage device for storing the power produced by the solar panel,
It further comprises a lighting device driven by the power produced in the solar panel and illuminating to the peripheral region of the pillar,
A sensing device for sensing the air state of the shade area while being located at a certain distance from the pillar, and a control for adjusting the driving strength of the air flow apparatus according to the information or signal about the air state received from the sensing device Further comprising a device,
Solar Tree. The method of claim 1,
The outer shell of the pillar is made of a bark shape,
The artificial branch is connected to the pillar and the artificial tree is attached to the artificial leaf. The method of claim 1,
The solar tree is driven by the power produced in the solar panel further comprises a pest control device for spraying a repellent or insecticide to the shade area. delete The method of claim 1,
And a heating and cooling device driven by electric power produced by the solar panel and heating or cooling the air supplied to the shade region. delete delete delete delete A plurality of solar trees according to claim 1; And
A central management device connected to the plurality of solar trees and commercial power grids through a wiring, and stores the power produced by the plurality of solar trees and supplements the power shortage of at least one solar tree using the commercial power grid or stored power.
Solar park comprising a.

Images