KR101937348B1 - Smart system for generating renewable energy of movable type - Google Patents

Abstract

The present invention relates to a mobile renewable power generation smart system. According to the present invention, the mobile renewable power generation smart system includes a moving means so as to be easily moved to an installation place, and uses the renewable energy generated from a photovoltaic panel and a wind power generator to supply power to equipment such as an information display panel. The mobile renewable power generation smart system transmits location information of the installation place to an operation server in conjunction with a satellite navigation system and the operation server. The operation server provides a variety of information suitable for the installation place to the mobile renewable power generation smart system so as to remotely control the information to be displayed on the information display panel. According to the present invention, power can be supplied by using the renewable energy regardless of the installation place and the presence of the power supply source, and various information suitable for the installation place can be displayed on the information display panel, thereby providing the information to a person approaching the installation place and a driver passing through the installation place.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mobile type renewable power generation smart system,

[0001] The present invention relates to a mobile renewable power generation smart system, more specifically, a system which can be used when an electric power reception facility is not provided or when it needs to be used for a short period of time, A portable new and renewable power generation smart system that can install and use equipment such as LED electric signboard, LED transmission light, security camera, etc. using wind power generator for the purpose of use and remotely install and manage the equipment and system through wireless communication equipment .

Generally, electrical and communication facilities must precede the use of the electrical equipment desired by the user outdoors. Next, we have installed and used equipment that suits our purpose by utilizing pipe columns. In recent years, with the development of new and renewable energy technologies, equipment is installed and used without a separate power supply facility.

In addition, electric energy generated by fossil fuel generators is used in equipment, but there is a disadvantage that a separate manpower is required for maintenance such as generation of smoke and noise and fuel supply for continuous use.

And in some sites, we use a buffered DC battery to power LED lighting and sign boards. This is more effective than a fossil fuel generator because it is quiet and does not generate smoke, but it is inconvenient because it can be continuously used if it is charged through a charger or when a battery is replaced when the battery is discharged.

In order to solve this problem, there is a device that can use a LED electric signboard or LED lighting by applying a solar generator to a trailer. However, the photovoltaic generator, LED display board, and LED lighting that are combined with the trailer are treated as vehicles by domestic road traffic laws such as vehicle registration and license plate for trailer. Therefore, it takes at least one traction vehicle and one driving and operating personnel for the maintenance of one trailer, and it becomes a burden to hold a large number of equipments.

Korean Registered Utility Model No. 20-0141323 (published on September 29, 2003) Korean Registered Patent No. 10-1114509 (Published on February 24, 2012) Korean Patent Publication No. 10-2016-0120822 (published October 19, 2016) Korean Patent Laid-Open Publication No. 10-2015-0117804 (published on October 21, 2015)

It is an object of the present invention to provide a portable new and renewable power generation smart system using a wireless communication system for operating a device in accordance with a user's purpose by using power charged by a new and renewable power generation and conveniently managing and operating a plurality of equipment remotely .

Another object of the present invention is to provide a mobile new renewable power generation smart system that maximizes merits by combining conventional technologies that have been commercialized and is convenient for a user to use.

It is another object of the present invention to provide a solar power generation system coupled to an existing trailer to be used as separate independent equipment without a trailer so that it can be combined with a trailer or loaded on a vehicle in a situation requiring movement And a portable new and renewable power generation smart system capable of moving through a wagon when traveling in a short distance.

It is another object of the present invention to provide a mobile new renewable power generation smart system for facilitating convenient mobility and installation and providing various information suitable for installation sites.

In order to achieve the above objects, the mobile type renewable energy generation smart system of the present invention has a feature that it is easy to move to an installation site and supplies power to equipment installed using renewable energy. The mobile type renewable power generation smart system of the present invention can supply power using renewable energy regardless of the installation site and the power supply source, collect various information suitable for the installation site through the monitoring device and the sensor, It can be provided to the person or the driver located near the installation place through the sign board.

According to another aspect of the present invention, there is provided a mobile renewable power generation smart system of the present invention, comprising: a moving means movably provided and having a loading space formed thereon; A strut coupled to an upper portion of said moving means and extending a predetermined height in an upward direction; A solar panel coupled to the strut and generating electrical energy using solar light; A wind power generator coupled to the strut and generating electrical energy using wind power; At least one battery loaded in a loading space of the moving means and charged with electric energy from at least one of the solar panel and the wind turbine to supply power to the mobile renewable power generation smart system; A GPS module for collecting positional information on installation locations of the mobile renewable power generation smart system in cooperation with a satellite navigation system; The smart card system according to claim 1, further comprising unique identification information of the mobile renewable power generation smart system, wherein the unique identification information and the location information are transmitted to the operation server through a communication network, A communication unit for receiving guide information related to a place; A guide display panel for displaying guide information related to the installation place; And controlling to charge the battery using electric energy generated from the solar panel and the wind power generator by using a battery management system and controlling the position information collected from the GPS module to be transmitted to the operation server, And a control unit for controlling the information display unit to display information related to the installation place transmitted from the operation server.

In one embodiment of the present invention, the mobile renewable power generation smart system includes: a camera installed in the strut and acquiring an image of the mobile renewable power generation smart system and installation site and providing the acquired image to the control unit; A sensor unit installed on the strut to sense environment information on the mobile renewable power generation smart system and installation site and provide the sensed environment information to the control unit; A control unit installed in the support and controlled by the control unit to be turned on and off to indicate whether an emergency situation occurs at an installation site; At least one floodlight provided in the support and illuminating a place of installation; And a speaker installed in the support and receiving and outputting a voice announcement corresponding to guidance information related to the installation place from any one of the operation server and the control unit, The control unit receives an image from the camera, detects presence or absence of an object at an installation place, receives environmental information from the sensor unit, controls the display unit to display the information, and controls the flashing light and the emergency light.

In another embodiment, the moving means includes a trailer main body having a loading space formed at an upper portion thereof and the struts coupled to an upper central portion; At least a pair of wheels coupled to a lower portion of the trailer body to move the moving means to an installation site; And a plurality of supporting devices coupled to a lower portion of the trailer main body to support the moving means to be fixed at an installation site, The struts are provided in a multi-stage structure that can be separated from each other and are detachably connected to the trailer body.

In yet another embodiment, the mobile renewable power generation smart system comprises: Wherein the operation server identifies any one of the plurality of portable renewable power generation smart systems through the unique identification information, identifies installation locations of the portable renewable power generation smart system through the location information, Extracts guide information related to the installation place corresponding to the installation place, and receives guide information related to the installation place extracted.

In another embodiment, the mobile renewable power generation smart system is remotely controlled from the remote controller through the communication unit so that the guide information related to the installation place is corrected at the installation site.

As described above, the portable new and renewable power generation smart system of the present invention can be installed and operated even in a place where there is no electricity reception by supplying the power of sensors and devices installed together with the information display panel by using renewable energy.

In addition, the portable new and renewable generation smart system of the present invention interoperates with the satellite navigation system and the operation server to discriminate the location information of the installation site and provide various guide information related to the installation site corresponding to the determined installation site, It is possible to provide various suitable information.

Further, the portable new and renewable power generation smart system of the present invention can display high-visibility even at night by displaying guide information using LED floodlight, LED emergency light and LED electric signboard.

Also, the mobile renewable power generation smart system of the present invention can manage and operate the equipment by remotely controlling the information display panel using the operation server or the remote controller.

In addition, the portable new and renewable power generation smart system of the present invention can be moved and installed to an installation site with a moving means, so that it is easy to carry and install.

1 is a block diagram showing a network configuration of a mobile renewable power generation smart system according to the present invention;
Fig. 2 is a perspective view showing the configuration of the mobile renewable power generation smart system shown in Fig. 1,
3 is a block diagram showing a configuration according to an embodiment of the mobile renewable power generation smart system shown in FIG. 2,
4 is a block diagram showing the configuration of the operation server shown in FIG. 1, and FIG.
5 is a flowchart showing a processing procedure for providing guidance information of the mobile type renewable energy generation smart system according to the present invention.

The embodiments of the present invention can be modified into various forms and the scope of the present invention should not be interpreted as being limited by the embodiments described below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the components in the drawings are exaggerated in order to emphasize a clearer explanation.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a network configuration of a mobile renewable power generation smart system according to the present invention, FIG. 2 is a perspective view showing a configuration of a mobile renewable power generation smart system shown in FIG. 1, FIG. 4 is a block diagram showing a configuration according to an embodiment of a mobile renewable power generation smart system shown in FIG.

1 to 3, the mobile type renewable power generation smart system 100 of the present invention includes a moving means 110 that can be moved to an installation place so as to facilitate mobility, and is used for a construction section such as a highway, It is possible to use the solar panel 120 and the wind power generator 122 to develop new and renewable energy, such as one side of a road, a road of a road, an edge of a road, And supplies power to the guide sign 140 providing various information and safety signals.

In addition, a mobile renewable power generation smart system 100 of the present invention is connected to an operation server 200 by using a communication network 2 and is connected to an operation server 200 in cooperation with a satellite navigation system (GPS) A variety of information suitable for the installation site is received and displayed on the guide display panel 140 to provide various information related to the installation place to the person near the installation site and the driver.

In addition, the mobile renewable power generation smart system 100 of the present invention is provided so that remote control can be independently performed at an installation site by using the remote controller 400.

The mobile type renewable power generation smart system 100 of the present invention may be installed in a plurality of roads such as one side of a road such as a start point, a middle point and an end point of a road construction section, Or at the beginning of the danger zone, the power is supplied by using renewable energy, and various information suitable for the installation place, for example, road information, road conditions, safe driving information, construction details and installation place Related information (hereinafter referred to as " guidance information "). For example, weather information such as fine dust, temperature, and humidity, tourist information around the installation site, advertisement information, and promotion information may be included in the installation-related peripheral information.

Specifically, the mobile renewable power generation smart system 100 of the present invention includes a moving means 110, a strut 102, a supporting device 116, a solar panel 120, a wind power generator 122, a guide display panel 140 And a control enclosure 130. The mobile type renewable power generation smart system 100 of the present invention includes a sensor unit 170, a camera 160, a floodlight 180, emergency lights 150 and 152, a speaker 190, and a control unit 104 . The control enclosure 130 includes a control unit 104, a battery management system (BMS) 105, a communication unit 106, a GPS module 108, and at least one battery 132 therein. Of course, the battery 132 may be stored in the battery case separately from the control enclosure 130 and may be provided at one side of the control enclosure 130. [

The moving means 110 is provided, for example, in a trailer type, a wagon type, a vehicle type, or the like, and is equipped with at least a pair of wheels so that it can be easily moved to an installation place around the road. The moving means 110 can be moved by itself using a driving device (not shown) such as a motor, an engine, or the like.

In this embodiment, the moving means 110 is provided as a trailer type. That is, the moving means 110 includes a trailer main body 112 having a loading space formed thereon, at least a pair of wheels 114 coupled to a lower portion of the trailer main body 112 to move the moving means 110, A plurality of supporting devices 116 are provided which are coupled to the lower edge of the supporting member 112 and support the moving means 110 to be fixed to the installation site. The moving means 110 is fixed to the upper central portion of the trailer main body 112 and is coupled to the strut 102 which extends upwards at a predetermined height. The moving means 110 mounts the control box 130 on the upper portion of the trailer main body 112.

The control enclosure 130 has a waterproof and dustproof function and includes a control unit 104, a battery management system (BMS) 105, a communication unit 106, a GPS module 108, .

The support device 116 is provided as an outrigger and is fixed to the lower portion of the trailer body 112 of the moving means 110 and is fixed to the ground of the installation site. So as to keep the moving means 110 horizontal. This support device 116 supports the moving means 110 using a typical outrigger configuration, such as a cylinder, rod, or the like.

One end of the support 102 is fixedly coupled to the upper portion of the moving means 110 and is extended to a predetermined height in the upward direction. The struts 102 are provided to be separated from and coupled to the moving means 110 using a rotating flange or a telescoping mast to facilitate mobility. The pillars 102 are provided in mutually separable multi-stage shapes, for example, in the form of two or more stages of assembled poles, and are combined using a rotatable flange or the like. The support 102 includes a solar panel 120, a guide display panel 140, a camera 160, a sensor unit 170, a floodlight 180, emergency lights 150 and 152, a speaker 190, 122 or the like are fixedly coupled or the mounting direction is adjustably coupled.

The solar panel 120 has at least one solar panel installed on the support 102 and uses the sunlight to generate electrical energy. The solar panel 120 provides the generated electrical energy to the battery 132.

The wind power generator 122 is installed at the upper end of the strut 102 and generates electric energy using wind power and provides the generated electric energy to the battery 132.

The battery 132 is provided with a rechargeable secondary battery, for example, lithium ion, lithium iron phosphate, or lead acid battery, and is applied according to the purpose of use. The battery 132 is provided at an upper portion of the trailer main body 112 of the moving means 110 and receives electric energy from at least one of the solar panel 120 and the wind power generator 122 to be charged. The battery 132 is charged and controlled by a battery management system (BMS) 105, and supplies power to the mobile type renewable energy generation smart system 100 under the control of the control unit 104. The battery 132 is accommodated in the control enclosure 130 or the battery case (not shown). Of course, the battery 132 may be charged by being supplied with AC power before moving to the installation place.

The GPS module 108 operates in conjunction with a GPS (Global Positioning System) 300 to collect location information in real time or periodically according to the installation location of the mobile renewable power generation smart system 100.

The communication unit 106 has unique identification information that can identify each of the mobile renewable power generation smart systems 100. [ The communication unit 106 is connected to the operation server 200 through the communication network 2 and transmits unique identification information and location information to the operation server 200. The communication unit 106 receives information related to the installation place corresponding to the location information from the operation server 200. [

The sensor unit 170 is, for example, a composite sensor including various types of sensors. The sensor unit 170 includes a fine dust sensor, a temperature sensor, a humidity sensor, a motion detection sensor, and the like in order to monitor the condition of the installation place. The sensor unit 170 senses the ambient minute dust concentration, temperature, humidity, object presence or the like at the installation site, and provides the control unit 104 with the sensing result.

The camera 160 is provided, for example, with a CCTV camera, an IP camera, or the like, and acquires an image of the mobile renewable power generation smart system 100 and its installation place, And provides the control unit 104 to monitor the status of the place.

The speaker 190 is transmitted from the operation server 200 through the communication network 2 or is stored in the control unit 104 and outputs a voice announcement according to the schedule setting. The speaker 190 outputs a voice announcement broadcast corresponding to the guide information displayed on the guide display panel 140, for example.

The guide display panel 140 is, for example, an LED display panel, and displays predetermined guide information, guide information transmitted from the operation server 200 or the remote controller 400. [ That is, the guide display panel 140 can be remotely controlled through the GPS (Global Positioning System) 300 and the operation server 200 or the remote controller 400 to adjust and change various information related to the installation place. For example, the operation server 200 or the remote controller 400 may display guidance information to be displayed on the guide display panel 140 (for example, during construction, construction period, construction section, construction details, The guide display panel 140 can be remotely controlled from the operation server 200 or the remote controller 400 so that it can be provided at the center of the user's convenience. And displays the guidance information. Further, the guide display panel 140 can receive and display weather information from a weather station server (not shown) via the communication network 2, for example, to display weather information, Various kinds of detection information (e.g., fine dust concentration, temperature, humidity, etc.) of the place can be received and displayed in real time. The guide display panel 140 can display various contents including images such as images and photographs as well as texts and symbols included in the guiding text.

The floodlight 180 is provided, for example, as an LED lamp or the like, and a plurality of the floodlights 180 are installed on the upper portion of the column 102 to illuminate the periphery of the installation site. The floodlight 180 can illuminate the installation place with a fixed brightness or dimming control from the control unit 104 to illuminate the installation place to save energy use. For example, when the object at the installation place is detected from the image obtained by the temperature sensor, the motion detection sensor or the camera 160 of the sensor unit 170, do.

The emergency lights 150 and 152 are provided, for example, as LED lamps. The emergency lights 150 and 152 may be blinked to notify the occurrence of an emergency situation at the installation site, or a plurality of lights may be displayed in different colors to inform an emergency situation or a normal situation.

The battery management system (BMS) 105 is provided, for example, as a battery protection circuit and is controlled by the control unit 104 to generate electricity from at least one of the solar panel 120 and the wind power generator 122 And controls to charge the battery 132 by receiving electrical energy. At this time, the battery management system 105 monitors the charging / discharging state of the battery 132 and prevents the battery 132 from being overcharged or overdischarged. The battery management system 105 monitors the voltage and temperature of the battery 132 and processes the overcurrent protection, the short-circuit prevention, and the cell balancing function of the battery 132. The battery management system 105 may be provided inside the control unit 104.

The control unit 104 is provided with, for example, a processor, a controller, a programmable logic controller, a control panel, and the like, and controls the overall operation of the mobile renewable power generation smart system 100. That is, the control unit 104 controls the battery management system 105 to charge the battery 132 with the electric energy generated from the solar panel 120 and the wind power generator 122. The control unit 104 controls the communication unit 106, the GPS module 108, the guide sign 140, the emergency lights 150 and 152, the camera 160, the sensor unit 170, the floodlight 180, And the power of the speaker 190 are supplied. The control unit 104 controls the communication unit 106 to process mutual data communication with the operation server 200 through the communication network 2. [ The control unit 104 controls the GPS module 108 to collect the location information of the installation place. The control unit 104 controls the guide display panel 140 to display the guide information. The control unit 104 controls the camera 160 to acquire an image of the mobile renewable power generation smart system 100 and the installation site, and detects the presence or absence of the object from the image acquired from the camera 160. The control unit 104 controls the flashing of the illumination light 180, the emergency lights 150 and 152, the dimming function, and the like. Then, the control unit 104 controls the speaker 190 to output the audio announcement broadcast.

Therefore, the mobile type renewable power generation smart system 100 according to the present invention can be easily moved to the installation place through the moving means 110 and can be easily installed in the guide panel 100 using the renewable energy of the solar panel 120 and the wind power generator 122. [ The control unit 140 can supply the power of the emergency lights 150 and 152 and the transmission light 180 and determines the location of the installation place and transmits guidance information corresponding thereto to the remote server 400 through the operation server 200 or the remote controller 400 So that various information suitable for the installation place can be guided.

4 is a block diagram illustrating the configuration of the operational server shown in FIG.

Referring to FIG. 4, the operation server 200 of the present invention is provided to manage and remotely manage a plurality of mobile renewable power generation smart systems 100 located at different installation sites using the communication network 2.

The operation server 200 of this embodiment includes a communication unit 202, a control unit 204, an equipment management unit 206, an installation place determining unit 208, a guidance information extracting unit 210 and a storage unit 212.

Specifically, the communication unit 202 is provided, for example, as a wired / wireless communication module, and is connected to the communication network 2 to process mutual data communication with a plurality of mobile renewable power generation smart systems 100. In other words, the communication unit 202 receives the position information transmitted from the mobile type renewable power generation smart system 100 via the communication network 2 under the control of the control unit 204, and transmits guidance information corresponding to the position information to the mobile type renewable power generation To the smart system (100).

The equipment management unit 206 stores and registers the unique identification information of the plurality of portable renewable power generation smart systems 100 in the storage unit 212 and identifies each of the portable renewable power generation smart systems 100 through the register.

The installation location determination unit 208 determines the installation location of the mobile renewable power generation smart system 100 using the unique identification information and location information transmitted from the mobile renewable generation smart system 100 identified by the equipment management unit 206 .

The guide information extraction unit 210 extracts various information corresponding to the installation place determined by the installation place determination unit 208 among various information stored in the storage unit 212. [

The storage unit 212 stores unique identification information, guide information, and the like of the plurality of mobile renewable and developing smart systems 100. At this time, the guide information is stored and managed by matching with the position information.

The control unit 204 controls all operations of the operation server 200 to be processed. That is, the control unit 204 controls the communication unit 202, the equipment management unit 206, the installation location determination unit 208, the guide information extraction unit 210, and the storage unit 212, When the unique identification information and the location information are received from the new and renewable generation smart system 100, the device management unit 206 is controlled to identify the mobile renewable generation smart system 100 that has transmitted the unique identification information and the location information, And controls the installation place determining unit 208 to determine the installation place of the system 100. [ The control unit 204 controls the guide information extracting unit 210 to extract guide information corresponding to the installation place identified from the storage unit 212 and transmits the guide information extracted through the communication unit 202 to the mobile renewable power generation smart To the system (100).

Therefore, the mobile renewable power generation smart system 100 of the present invention receives remote control from the operation server 200 using the communication network 2 and transmits guidance information suitable for the installation place transmitted from the operation server 200 to the information display panel 140 ).

5 is a flowchart showing a processing procedure for providing guidance information of the mobile type renewable power generation smart system according to the present invention.

Referring to FIG. 5, in step S500, the mobile type renewable power generation smart system 100 of the present invention detects the location information of the installation place by the GPS 300, and in step S502, And transmits it to the operation server 200 through the communication network 2.

In step S504, the operation server 200 receives the location information from the mobile renewable power generation smart system 100 to determine the location of the installation site, and extracts guidance information corresponding to the determined installation location. In step S506, the operation server 200 transmits the extracted guide information to the mobile type renewable power generation smart system 100 via the communication network 2.

In step S508, the mobile renewable power generation smart system 100 receives the guide information, and displays the guide information transmitted from the operation server 200 on the guide board 140 in step S510.

At this time, in step S512, when the remote control signal is received from the remote controller 400, the mobile type renewable energy generation smart system 100 displays the guidance information corresponding to the remote control signal on the guidance display panel 140 in step S514. For example, the remote controller 400 modifies the guidance text of the guidance information displayed on the guide display panel 140, generates the remote control signal as a remote control signal, and transmits the generated remote control signal to the mobile type renewable power generation smart system 100. In this case, since the remote control 300 is used to remotely control the guide display panel 140 in accordance with the situation of the site, it is possible to control the guide display panel 140 with priority over the remote control from the operation server 100 through the communication network 2 To display information.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And changes are possible.

100: Mobile renewable power generation smart system 102: Holding
104: control unit 106:
108: GPS module 110: Moving means
112: Out Trigger 120: Solar panel
122: Wind power generator 130: Control enclosure
140: Information display panel 150, 152: Emergency light
160: camera 170: sensor unit
180: Floodlight 190: Speaker

Claims (5)

For mobile renewable power generation smart systems:
A moving means provided movably and having a loading space formed thereon;
A strut coupled to an upper portion of said moving means and extending a predetermined height in an upward direction;
A solar panel coupled to the strut and generating electrical energy using solar light;
A wind power generator coupled to the strut and generating electrical energy using wind power;
At least one battery loaded in a loading space of the moving means and charged with electric energy from at least one of the solar panel and the wind turbine to supply power to the mobile renewable power generation smart system;
A GPS module for collecting positional information on installation locations of the mobile renewable power generation smart system in cooperation with a satellite navigation system;
The smart card system according to claim 1, further comprising unique identification information of the mobile renewable power generation smart system, wherein the unique identification information and the location information are transmitted to the operation server through a communication network, A communication unit for receiving guide information related to a place;
A guide display panel for displaying guide information related to the installation place; And
Controlling to charge the battery using electric energy generated from the solar panel and the wind power generator by using a battery management system, controlling the position information collected from the GPS module to be transmitted to the operation server, And a controller for controlling to display guidance information related to the installation place transmitted from the server on the guide display panel.
The method according to claim 1,
The mobile renewable power generation smart system,
A camera installed on the strut to acquire an image of the mobile renewable power generation smart system and installation site and provide the acquired image to the control unit;
A sensor unit installed on the strut to sense environment information on the mobile renewable power generation smart system and installation site and provide the sensed environment information to the control unit;
A control unit installed in the support and controlled by the control unit to be turned on and off to indicate whether an emergency situation occurs at an installation site;
At least one floodlight provided in the support and illuminating a place of installation; And
Further comprising: a speaker installed in the support and receiving and outputting a voice announcement corresponding to guidance information related to the installation place from any one of the operation server and the control unit;
The control unit receives the image from the camera, detects the presence or absence of an object at the installation site, receives environment information from the sensor unit, controls the display unit to display the information, and controls the flashing light and the emergency light to blink Mobile renewable power generation smart system.
The method according to claim 1,
The moving means
A trailer main body having a loading space formed at an upper portion thereof and coupled with the upper central portion of the strut;
At least a pair of wheels coupled to a lower portion of the trailer body to move the moving means to an installation site; And
And a plurality of supporting devices coupled to a lower portion of the main body of the trailer to support the moving means so as to be fixed to the installation site;
Wherein the struts are provided in a multi-stage structure that can be separated from each other and are detachably mounted to the main body of the trailer.
The method according to any one of claims 1 to 3,
The mobile renewable power generation smart system includes:
Wherein the operation server identifies any one of the plurality of portable renewable power generation smart systems through the unique identification information, identifies installation locations of the portable renewable power generation smart system through the location information, Extracts guide information related to the installation place corresponding to the installation place, and receives guidance information related to the extracted installation place.
The method of claim 4,
Wherein the mobile renewable power generation smart system is remotely controlled from a remote controller so that guidance information related to the installation site is modified at an installation site through the communication unit.

Images