KR20200097409A - Multifunctional Structure having independent electric power system - Google Patents

Abstract

According to an embodiment of the present invention, provided is a convergence multifunctional structure including an independent power system. The convergence multifunctional structure including an independent power system comprises: a photovoltaic generator including a photovoltaic panel; a multifunctional structure electric device operated by using electric energy generated from the photovoltaic generator; and a multifunctional structure to which the photovoltaic generator and the multifunctional electric device are mounted.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention Multifunctional Structure having independent electric power system

The present invention relates to a multifunctional fusion structure comprising a self-powered system.

In modern times, small wind power generation and hybrid power generation systems using solar power, which are relatively inexpensive and efficient in installation cost, are starting to be applied for local energy independence.

Since such a power generation system can solve the fuel source by itself, it has great utility value as a useful energy supply source in island areas where small-scale residents reside.

In addition, in islands, mountains, wind, and groundwater are distributed differently depending on the region, and energy independence can be achieved through small wind power, solar power, and pumped-up power generation using each natural energy. In other words, in order to become self-sufficient in islands, energy and material resources are needed above all else.

Such eco-friendly energy production basically uses small wind power and solar power, and partially pumped power generation can be used.

In addition, among eco-friendly energy production facilities, photovoltaic power generation plays a very important role.

On the other hand, as an outdoor independent space, a guard post, a store, an event operation headquarters, and a residential structure are installed, but there is a limitation in the installation place because electricity must be supplied from the outside, and it is not possible to install independently.

In addition, since it is simply implemented as a structural facility, it cannot be modified in various ways, and when an electric device is installed, it is difficult to efficiently supply power as it must be supplied with power from the outside, and there is a risk of increased cost and electric shock due to the construction of wires. .

An aspect of the present invention is to provide a multifunctional structure including a self-powered system capable of generating energy in sunlight and supplying the generated electricity to an electric device of a multifunctional structure.

Another aspect of the present invention is to further include a cleaning unit for washing the solar panel, and to provide a multifunctional structure including a self-powered power generation system capable of improving power generation efficiency by removing foreign substances from the solar panel. will be.

Another aspect of the present invention is to provide a multifunctional structure capable of reducing fine dust by operating an air purifier using generated electricity and reducing fine dust in the air by operating a water spray device. .

Convergence multifunctional structure including a self-powered system according to an embodiment of the present invention includes a photovoltaic generator including a photovoltaic panel, a multifunctional structure electric device operated using electric energy generated from the photovoltaic generator, It may include a multifunctional structure to which the solar generator and the multifunctional electric device are mounted.

The solar panel is equipped with an optical sensor for detecting the amount of sunlight, and a solar solar panel driving module for adjusting the angle at which the solar panel is mounted on the multifunctional structure using the information detected through the optical sensor. It may contain more.

The solar panel driving module may include an elevating module for elevating the solar panel and a rotation module for rotating the solar panel.

The multifunctional electric device further includes the solar panel cleaning unit, wherein the solar panel cleaning unit includes a brush unit coupled to the brush in contact with the solar panel to be detachably attached, and connected to the brush, and the brush It may include a drive motor for rotating the motor, a moving motor part connected to the brush part, a moving member connected to the moving motor part and rotated, and a guide frame into which the moving member is inserted and guided.

The multifunctional electric device may further include a water spray device for spraying water to the solar panel or supplying water to the solar panel cleaning unit.

The water spraying device may include a filtering water storage tank, a pump for providing fluidity to water stored in the filtered water storage tank, and an injection device for spraying water supplied by the pump.

According to the present invention, it is possible to become energy self-sufficient by generating electricity by sunlight and supplying the generated electricity to an electric device of a multifunctional structure, further comprising a cleaning unit for cleaning the solar panel, and removing foreign matter from the solar panel. As it is removed, the power generation efficiency can be improved, the air purifier is operated using the generated electricity to reduce fine dust, and the water spraying device is operated to reduce the fine dust in the air. Can be obtained.

1 is a schematic configuration diagram of a multifunctional fusion structure including a self-powered system according to an embodiment of the present invention.
Figure 2 is a schematic first use state diagram of the multifunctional fusion structure shown in Figure 1;
3 is a schematic second state of use of the multifunctional fusion structure shown in FIG. 1.
FIG. 4 is a schematic diagram illustrating a solar panel rotation driving module in the multifunctional structure shown in FIG. 1.
5 is a schematic third use state diagram of the multifunctional fusion structure shown in FIG. 4.
6 is a block diagram schematically showing another embodiment of a solar panel.
7 is a schematic diagram illustrating a bottom view of the solar panel shown in FIG. 6.
8 is a schematic diagram of a state of use of the solar panel shown in FIG. 6.
9 is a block diagram schematically showing another embodiment of a solar panel.
10 is a block diagram schematically showing another embodiment of a solar panel.
11 is a block diagram schematically showing a cleaning unit in the solar panel shown in FIG. 10.
12 is a schematic diagram of a state of use of the solar panel shown in FIG. 10.
13 is a schematic configuration diagram of a multifunctional fusion structure including a self-powered system according to another embodiment of the present invention.
14 is a schematic configuration diagram of a fusion multifunctional structure including a self-powered system according to another embodiment of the present invention.
FIG. 15 is a block diagram schematically showing a water spray device of a multifunctional structure including a self-powered system shown in FIG. 14.
16 is a block diagram schematically showing a multifunctional structure applied to a self-powered system according to another embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shape of the element in the drawings may be exaggerated to emphasize a clearer description. It should be noted that in each drawing, the same member may be indicated by the same reference numeral. In addition, detailed descriptions of known functions and configurations determined to unnecessarily obscure the subject matter of the present invention are omitted.

In addition, when the configuration to be described later has the same function as the configuration described in the background art, the same reference numerals and names are used.

1 is a schematic configuration diagram of a multifunctional fusion structure including a self-powered system according to an embodiment of the present invention.

As shown, the fusion multifunctional structure 1000 includes a multifunctional structure 1100 and a photovoltaic power generation module 1200.

More specifically, the multifunctional structure 1100 may be variously implemented as a container in which an inner space is formed. And the multifunctional structure 1100 may be variously implemented as a guard post, a kiosk, an event operation headquarters, a residential structure, etc. according to its purpose.

And the electric device of the multifunctional structure 1100 is supplied by the photovoltaic module 1200. For example, the electric device may include a display device, a monitoring camera, a lighting device, a solar panel driving device, a wired/wireless communication module, an air purification device, a heating device, and a sensor unit.

The solar power generation module 1200 is mounted on the top of the multifunctional structure 1100. The photovoltaic module 1200 includes a photovoltaic panel 1210 and a photovoltaic panel driving module 1220.

A plurality of optical sensors 1211 may be mounted on the solar panel 1210 to detect the incident light amount of sunlight.

That is, it is for detecting the amount of sunlight using the photosensor 1211 and adjusting the angle at which the solar panel 1210 is mounted on the multifunctional structure 1100 according to the amount of light. To this end, the information detected by the photosensor 1211 is transmitted to the solar panel driving device.

The solar panel driving module 1220 is for moving the solar panel of the solar generator. That is, in order to maximize the light incident on the solar panel, the angle at which the solar panel is mounted is changed according to the movement of the sun. To this end, the solar panel driving device 1350 may be variously implemented in a hydraulic and gear power transmission method.

In addition, the solar panel driving module 1220 includes an elevating module 1221 and a rotating module 1222 for elevating and rotating the solar panel.

The elevating module 1221 is coupled to a plurality of upper, lower, left, and right sides under the solar panel 1210. And by operating each of the lifting modules 1221 it is possible to adjust the mounting angle of the solar panel 1210.

The rotation module 1222 rotates the support plate 1110 supporting the solar panel 1210 and the lifting module 1221, as shown in FIG. 4.

To this end, an interlocking gear 1111 is mounted on the support plate 1110, and the rotation module 1222 includes a rotation motor 1222a and a rotation gear 1222b. The rotating gear 1222b is coupled to the rotating motor 1222a and connected to the interlocking gear 1111.

Accordingly, the support plate 1110 is rotated by the operation of the rotation motor 1222a, and the solar panel 1210 is rotated according to the rotation of the support plate 1110.

2 is a schematic first state of use of the multifunctional fusion structure shown in Figure 1, Figure 3 is a schematic second use state of the multifunctional fusion structure shown in FIG.

As shown, the amount of sunlight is detected by the photosensor 1211, and the lifting module 1221 is adjusted to maximize the amount of light according to the movement of the sun. That is, one side of the lifting module 1221 is raised, the other side of the lifting module 1221 is lowered to adjust the angle of the solar panel 1210.

FIG. 4 is a schematic diagram illustrating a solar panel rotation driving module in the multifunctional structure shown in FIG. 1. 5 is a schematic third use state diagram of the multifunctional fusion structure shown in FIG. 4.

As described above, an interlocking gear 1111 is mounted on the support plate 1110, and the rotating gear 1222b is coupled to the rotating motor 1222a and connected to the interlocking gear 1111.

The rotating gear 1222b is rotated by the operation of the rotating motor 1222a, the support plate 1110 is rotated by the interlocking of the interlocking gear 1111, and the solar panel 1210 is rotated according to the rotation of the support plate 1110. Is rotated.

6 is a block diagram schematically showing another embodiment of a solar panel. 7 is a schematic diagram illustrating a bottom view of the solar panel shown in FIG. 6. 8 is a schematic diagram of a state of use of the solar panel shown in FIG. 6.

As shown, the solar generator 2110 includes a main solar panel 2111 and a sub solar panel 2112.

In addition, the sub solar panel 2112 is mounted to be able to be pulled out laterally from the main solar panel 2111.

To this end, each of the sub solar panels 2112 includes a mobile unit 2112a. The moving unit 2112a includes a motor and a gear unit. In addition, a guide gear portion 2111a corresponding to the gear portion is formed in the main solar panel 2111. In addition, the gear portion of the auxiliary solar panel 2112 is selectively pulled out as the guide gear portion 2111a is moved by a motor.

Accordingly, when the solar panel reduces wind resistance due to strong winds, the auxiliary solar panel 2112 is moved to overlap the main solar panel 2111, and when the amount of sunlight is large, the auxiliary solar panel 2112 is moved. It is taken out from the main solar panel 2111. In addition, the auxiliary solar panel 2112 may be selectively positioned by the mobile unit 2112a.

9 is a block diagram schematically showing another embodiment of a solar panel.

As shown, the solar generator 3110 includes a solar panel 3111. In addition, a charging unit 3370 is mounted on the solar panel 3111. The charging unit 1370 is connected to a power storage unit (shown as 1400 in FIG. 1) and is connected to an external electric device in a contact or non-contact manner to provide power to an external electric device.

For example, the charging unit 3370 may be used as a charger for a drone. That is, when the drone runs out of battery, it is seated in the charging unit and can be charged in a contact or non-contact manner. To this end, the charging unit C may include a contact pin or a wireless charging/transmitting unit for charging.

In addition, electric devices such as mobile phones can be charged to the charging unit.

10 is a block diagram schematically showing another embodiment of a solar panel. 11 is a block diagram schematically showing a cleaning unit in the solar panel shown in FIG. 10. 12 is a schematic diagram of a state of use of the solar panel shown in FIG. 10.

As shown, the solar generator 4110 includes a solar panel 4111. In addition, a cleaning unit 4390 is mounted on the solar panel 4111.

The solar panel cleaning unit 4390 includes a brush unit 4391, a drive motor 4192, a moving motor 4393, a moving member 4390, a washing water spraying unit 4355, a washing water storage unit 4390, and a battery unit ( 4397) and a guide frame 4398.

More specifically, the brush part 4391 is coupled so that a plurality of brushes that are in contact with the solar panel are detachably attached, and the brushes are connected to the driving motor 4392 and rotated.

In addition, the moving member 4394 is for moving the brush part 4391 and is connected to the brush part 4391 and the moving motor 4393. In addition, the moving member 4394 is rotated in response to the driving of the moving motor 4393 and is guide-moved along the guide portion 4 398 a formed in the guide frame 4 398.

In addition, the washing water spraying unit 4339 is connected to the washing water storage unit 4390 to receive the washing water, and is positioned in front of the brush unit 4391.

The washing water storage unit 4396 may be connected to a water supply unit. In addition, washing water may be used after storing and purifying rainwater.

In addition, the solar panel cleaning unit 4390 may further include a pump and a spray nozzle to more effectively spray the washing water.

In addition, the battery unit 4369 is in contact with the charging ground 4113 formed on the solar panel pull-out body 4112 to receive electricity generated from the solar generator.

As described above, the solar panel 4111 is maintained in a clean state, and power generation efficiency can be further improved.

13 is a schematic configuration diagram of a multifunctional fusion structure including a self-powered system according to the present invention.

As shown, the fusion multifunctional structure 100 including a self-powered system includes a power generation unit 110, a control unit 120, a multifunctional electric device 130, a power storage unit 140, and a multifunctional structure 150. Include.

And the multi-function structure 150 is equipped with a power generation unit 110, a control unit 120, a multi-function structure electric device 130, and a power storage unit 140.

The power generation unit 110 includes a solar power generator 111 and a wind power generator 112.

The solar generator 111 includes a solar panel, and is for generating electricity using sunlight.

The wind power generator 112 is for generating electricity by using the movement of air according to the natural wind flowing through the multifunctional structure 150.

The control unit 120 is connected to the power generation unit 110, the power storage unit 140 and the multi-function structure 150, and the electricity generated by the power generation unit 110 is transferred to the power storage unit 140 or the multi-function structure electric device 130. Control to be delivered.

In addition, the control unit 120 controls the selective operation and electricity supply of the multifunctional electric device and the power storage unit.

And the multifunctional structure electric device 130 is a lighting device 131, an air purification device 132, a display device 133, a surveillance camera 134, a solar panel driving device 135, a solar panel cleaning unit 136 ) And a charging unit 137.

In addition, each of the electric devices of the multifunctional electric device 130 is operated through electricity supplied through the power generation unit 110 or the power storage unit 140.

The lighting device 131 is for illuminating light on a multifunctional structure or a nearby area of the multifunctional structure.

The air purification device 132 is for inhaling air around the multifunctional structure, purifying it, and discharging the purified air.

The display device 133 is installed in the multifunctional structure and is for providing various information according to the purpose of the multifunctional structure.

The surveillance camera 134 monitors an adjacent area of the multifunctional structure. In addition, the monitoring camera 134 monitors the state of the power generation unit 110 and the multifunctional electric device 130 and the cause of damage.

The solar panel driving device 1350 is for moving the solar panel of the solar generator. That is, in order to maximize the light incident on the solar panel, the angle at which the solar panel is mounted is changed according to the movement of the sun. To this end, the solar panel driving device 1350 may be variously implemented in a hydraulic type and a gear type.

The solar panel cleaning unit 136 is for cleaning the solar panel of the solar generator.

The multifunctional electric device 130 may further include a charging unit 137. The charging unit 137 is connected to the power storage unit 140 and is connected to an external electric device in a contact or non-contact manner to provide power to the external electric device.

For example, the charging unit 137 may be used as a charger for a drone. That is, when the drone runs out of battery, it is seated in the charging unit and can be charged in a contact or non-contact manner. To this end, the charging unit 137 may include a contact pin or a wireless charging/transmitting unit for charging.

In addition, the control unit 120 stores the electric energy generated from the power generation unit 110 in the power storage unit 1400 or controls the supply of electric energy to the multifunctional electric device 130.

In addition, a metal plating layer is formed under the photovoltaic panel of the photovoltaic generator, corrosion is prevented through the metal plating layer, and the lifespan of the photovoltaic panel can be improved.

14 is a schematic configuration diagram of a fusion multifunctional structure including a self-powered system according to another embodiment of the present invention, and FIG. 15 is a water of a fusion multifunctional multifunctional structure including the self-powered system shown in FIG. It is a block diagram schematically showing the injection device.

As shown, the fusion function multifunctional structure 200 includes a power generation unit 210, a control unit 220, a multifunctional structure electric device 230, a power storage unit 240, and a multifunctional structure 250.

In addition, the multifunctional electric device 230 is made by further including a water spraying device compared to the multifunctional electric device 230 shown in FIG.

More specifically, the power generation unit 210 includes a solar power generator 211 and a wind power generator 212.

In addition, the multifunctional electric device 230 includes a lighting device 231, an air purification device 232, a display device 233, a monitoring camera 234, a solar panel driving device 235, and a water spray device 236. , A solar panel cleaning unit 237 and a charging unit 238.

The water spraying device 236 is for cooling the solar panel by spraying water on the solar panel, or supplying water to the solar panel cleaning unit 237 for cleaning the solar panel.

In addition, when the water spraying device 236 is sprayed toward the air, fine dust in the air is combined with the sprayed water, and as it falls to the ground, fine dust in the air is reduced.

The water injection device 236 includes an injection device 236a, a water storage tank 236b, a pump 236c, and a water supply pipe 236d.

In addition, the water storage tank 236b may be supplied with water from the outside, and after receiving rainwater and purifying through filtering, it is supplied to the spraying device 236a through the water supply pipe 236d through the pump 236c.

The injector 236a injects water toward the panel of the solar generator 211, and the solar panel is cooled by the water injected from the injector 236a, and power generation efficiency is increased.

16 is a block diagram schematically showing a multifunctional structure applied to a self-powered system according to another embodiment of the present invention.

As shown, the multifunctional structure 2100 is formed in a separate and assembled form. To this end, the multifunctional multifunctional structure 2100 includes an upper plate part 2110, a side plate part 2120, and a bottom plate part 2130.

Accordingly, regardless of the place where the multifunctional structure 2100 is installed, the top plate 2110, the side plate 2120, and the bottom plate 2130 are manufactured in various sizes and shapes in advance, and then assembled after moving to the installed area. You can also install it.

In addition, a waterproof sheet or the like can be added to the joint for finishing treatment. Next, a solar panel and a solar panel driving module are mounted on the upper plate part 2110.

In addition, doors and windows can be formed in various ways on the side plate, which can be easily implemented by a person skilled in the art.

As it is made as described above, the multifunctional structure may be variously implemented as a house, livestock shed, and grain storage structure in an extended form.

In the above, a preferred embodiment of the present invention has been described with reference to the accompanying drawings, but those of ordinary skill in the art to which the present invention pertains, the present invention in other specific forms without changing the technical idea or essential features. It will be appreciated that it can be implemented. Therefore, it should be understood that the exemplary embodiment described above is illustrative in all respects and is not limiting.

100: convergence multifunctional structure 110: power generation unit
111: solar generator 112: wind generator
120: control unit 130: multifunctional structure electric device
131: lighting device 132: air purification device
133: display device 134: surveillance camera
135: solar panel driving device 136: solar panel cleaning unit
137: charging unit 140: power storage unit
150: multifunctional structure 200: fusion function multifunctional structure
210: power generation unit 211: solar panel
212: wind generator 220: control unit
230: multifunctional structure electrical device 231: lighting device
232: air purification device 233: display device
234: surveillance camera 235: solar panel drive device
236d: water supply pipe 236: water spray device
236b: water storage tank 236a: spray device
236c: pump 237: solar panel cleaning unit
238: charging unit 240: power storage unit
250: multifunctional structure

Claims (6)

Solar generators including solar panels;
A multifunctional structure electric device operated by using the electric energy generated from the solar generator; And
Including a multifunctional structure to which the solar generator and the multifunctional electric device are mounted
Convergence multifunctional structure including self-powered system. The method of claim 1,
The solar panel is equipped with an optical sensor for detecting the amount of sunlight,
Further comprising a solar photovoltaic panel driving module for adjusting the angle at which the photovoltaic panel is mounted on the multifunctional structure using the information detected through the optical sensor
Convergence multifunctional structure including self-powered system. The method of claim 1,
The solar panel driving module includes an elevating module for elevating the solar panel and a rotation module for rotating the solar panel.
Convergence multifunctional structure including self-powered system. The method of claim 1,
The multifunctional electric device further includes the solar panel cleaning unit,
The solar panel cleaning unit
A brush part to which a brush in contact with the solar panel is detachably coupled,
A driving motor connected to the brush and rotating the brush,
A moving motor part connected to the brush part,
A moving member connected to the moving motor unit and rotated;
Including a guide frame in which the moving member is inserted and guided
Convergence multifunctional structure including self-powered system. The method of claim 1,
The multifunctional electric device further includes a water spraying device for spraying water to the solar panel or supplying water to the solar panel cleaning unit.
Convergence multifunctional structure including self-powered system. The method of claim 5,
The water spray device
Comprising a filtering water storage tank, a pump for providing flow force to the water stored in the filtering water storage tank, and an injection device for injecting water supplied by the pump
Convergence multifunctional structure including self-powered system.

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