KR20200031085A - Bus station building system having independent electric power system - Google Patents

Abstract

According to one embodiment of the present invention, a combined/hybrid bus station system with an independent power generation system includes: a power generation part including at least one of a sunlight power generator and a wind power generator; a bus station electricity device operated by using electric energy generated in the power generation part; and a bus station structure on which the power generation part and the bus station electricity device are mounted. The bus station is installed on a sidewalk.

Description

Convergence function bus platform system including self-generation system {BUS STATION BUILDING SYSTEM HAVING INDEPENDENT ELECTRIC POWER SYSTEM}

The present invention relates to a convergence function bus platform system including a self-powered system.

In modern times, for the energy independence of the region, a relatively low installation cost and high efficiency small wind power generation and hybrid power generation using solar power systems have begun to be applied.

Since such a power generation system can solve the fuel source itself, it has a great value as a useful energy source in island areas where small residents live.

In addition, in island regions, mountains, wind, and groundwater are distributed differently depending on the region, and energy self-sufficiency is possible through small wind power, solar power, and pumping power using each natural energy. In other words, in order to become self-reliant in the island region, above all, energy and material independence are needed.

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

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

On the other hand, people in the bus stop are not protected from outside weather such as heat waves and cold weather when waiting for a long time, and have the problem of being exposed to fumes when the bus stop is located in the central lane of the road.

An aspect of the present invention includes a self-generation system capable of energy self-sufficiency by generating electricity in combination with a photovoltaic or wind generator and supplying the generated electricity to an electric device of a bus platform that provides electricity to a bus platform structure. It is to provide a convergence function bus platform structure.

In addition, another aspect of the present invention provides a convergence function bus platform structure including a self-generation system capable of improving power generation efficiency by driving a wind power generator using a flow force of air caused by driving of a vehicle. It is to do.

In addition, another aspect of the present invention is to provide a convergence function bus platform structure including a self-generation system capable of energy saving and environmental protection through a solar panel.

In addition, another aspect of the present invention further includes a cleaning unit for washing the solar panel, and convergence including a self-generation system capable of energy self-sufficiency that can improve power generation efficiency by removing foreign matter from the solar panel. It is intended to provide a functional bus platform structure.

In addition, another aspect of the present invention to provide a convergence function bus platform structure including a self-powered system that can improve the power generation efficiency to improve the power generation efficiency by cooling the solar panel using water It is for.

In addition, another aspect of the present invention is generated by using electricity generated in combination by solar and wind generators, using the generated electricity to operate the air purifier to reduce fine dust, by operating the water spray It is to provide a bus platform structure for a convergence function including a self-generation system capable of improving power generation efficiency capable of reducing fine dust in the air.

In addition, another aspect of the present invention is a self-generation system that can be safely protected from environmental factors, including smoke, polluted air, heavy rain, cold weather, heavy snow, and heavy heat as citizens waiting for the bus wait for the bus platform structure. It is to provide a convergence function bus platform structure comprising a.

A convergence function bus platform system including a self-generation system according to an embodiment of the present invention operates using a power generation unit including at least one of a solar power generator and a wind power generator, and electrical energy generated by the power generation unit The bus platform electrical device, the power generation unit and the bus platform electrical device are mounted and installed on the sidewalk.

In addition, the convergence function bus platform system including the self-generation system is connected to the power storage unit for storing electricity generated by the generator, the power generation unit, the bus platform electrical device, and the power storage unit, and the power generation unit, the The bus platform further includes a control unit for controlling the electric device and the selective operation and electricity supply of the power storage unit.

In addition, in a convergence function bus platform system including a self-powered system, the bus platform electrical device includes a lighting device, an air purification device, a display device, a surveillance camera, a solar panel driving device, a wired / wireless communication module, an automatic door module, It includes at least one or more of the solar panel cleaning unit.

In addition, in the convergence function bus platform system including a self-powered system, the bus platform electrical device may further include a water spray device that sprays water to the solar panel or supplies water to the solar panel cleaning unit. have.

In addition, in the convergence function bus platform system including a self-powered system, the water jet device is supplied by the pump, and a pump for providing a flow force to the water storage tank, the water stored in the water storage tank It includes an injection device for spraying the water.

In addition, in the convergence function bus platform system including a self-power generation system, the solar power generation unit includes a solar panel, a plurality of optical sensors mounted on the solar panel, and a panel body to which the solar panel is coupled. And a solar panel driving device coupled between the panel body and the bus platform structure.

In addition, in the convergence function bus platform system including a self-powered system, the solar panel cleaning unit is connected to the brush and the brush portion is coupled to the brush in contact with the solar panel is detachable, the brush, It includes a driving motor for rotating, a moving motor part connected to the brush part, a moving member connected to the moving motor part and rotated, and a guide frame in which the moving member is inserted and guided.

According to the present invention, energy can be self-reliant by generating electricity in combination with solar and wind power generators and supplying the generated electricity to an electric device of a bus platform that provides electric devices of a bus platform structure. The power generation efficiency can be improved by driving the wind power generator by using the flow force of the induced air, energy saving and environmental protection are possible through the solar panel, and a cleaning unit for washing the solar panel is further included. , It is possible to improve the power generation efficiency by removing foreign matter in the photovoltaic panel, and to improve the power generation efficiency to improve the power generation efficiency by cooling the photovoltaic panel using water. It is generated by using electricity generated in a complex manner, and by operating the air purifier using the generated electricity, fine dust Environmental factors including fumes, polluted air, heavy rain, cold weather, heavy snow, and heavy heat as the citizens waiting for the bus wait at the bus platform structure And, it is possible to obtain a convergence function bus platform structure including a self-powered system that can be safely protected from the vehicle.

1 is a schematic configuration diagram of a convergence function bus elevating structure including a self-powered system according to an embodiment of the present invention.
FIG. 2 is a perspective view schematically showing an embodiment of a convergence function bus elevating structure including the self-generation system shown in FIG. 1.
3 is a configuration diagram schematically showing a solar panel in a convergence function bus elevating structure including the self-generation system shown in FIG. 2.
4 is a configuration diagram schematically showing a bottom view of the solar panel shown in FIG. 3.
5 is a schematic use state diagram of the solar generator shown in FIG. 3.
6 is a configuration diagram schematically showing another embodiment of a solar panel in the convergence function bus platform structure including the self-generation system shown in FIG. 2.
7 is a block diagram schematically showing another embodiment of the solar generator in the electrical system shown in FIG.
8 is a configuration diagram schematically showing a cleaning unit in the solar generator shown in FIG. 7.
9 is a schematic use state diagram of the solar generator shown in FIG. 7.
10 is a schematic configuration diagram of a display device in a convergence function bus platform structure including the self-generation system shown in FIG. 2.
11 is a configuration diagram schematically showing another embodiment of the solar generator in the convergence function bus platform structure including the self-generation system shown in FIG. 2.
12 is a schematic first use state diagram of the solar power generator shown in FIG. 11.
13 is a schematic second use state diagram of the photovoltaic generator shown in FIG. 11.
14 is a schematic first use state diagram of a convergence function bus platform including the self-generation system shown in FIG. 2.
15 is a schematic second use state diagram of a convergence function bus platform including the self-generation system shown in FIG. 2.
16 is a schematic configuration diagram of a convergence function bus platform including a self-powered system according to another embodiment of the present invention.
17 is a perspective view schematically showing an embodiment of a convergence function bus platform including the self-generation system shown in FIG. 16.
18 is a block diagram schematically showing the water spray device of the convergence function bus platform including the self-generation system shown in FIG.
19 is a partial configuration diagram schematically showing another embodiment of a convergence function bus platform including the self-generation system shown in FIG. 16.

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 interpreted as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Accordingly, the shape of the elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that in each drawing, the same members may be indicated by the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are judged to unnecessarily obscure the subject matter of the present invention are omitted.

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

1 is a schematic configuration diagram of a convergence function bus platform structure including a self-powered system according to an embodiment of the present invention.

As shown, the convergence function bus platform system 1000 includes a power generation unit 1100, a control unit 1200, a bus platform structure electric device 1300, a power storage unit 1400, and a bus platform structure 1500. .

More specifically, the bus platform structure 1500 may be constructed on a sidewalk adjacent to a lane, and may be constructed on a bus stop in a bus central lane. In addition, the power generation unit 1100, the control unit 1200, the bus platform electric device 1300, and the power storage unit 1400 are mounted on the bus platform structure 1500.

The power generation unit 1100 includes a solar power generator 1110 and a wind power generator 1120.

The solar generator 1110 includes a solar panel and is used to generate electricity using sunlight. In addition, as the bus platform is generally installed on a terrain that is not affected by sunlight, as much sunlight as possible can be introduced.

The wind generator 1120 is for generating electricity using wind flowing by a vehicle entering the bus platform structure 1000.

The control unit 1200 is connected to the power generation unit 1100, the power storage unit 1400, and the bus platform electric device 1300, and the electricity generated by the power generation unit 1100 is the power storage unit 1400 or the bus platform structure electric device ( 1300).

In addition, the controller 1200 controls selective operation and electricity supply of the bus platform electrical device and the power storage unit.

In addition, the bus platform electric device 1300 includes a lighting device 1310, an air purification device 1320, a display device 1330, a surveillance camera 1340, a solar panel driving device 1350, and a solar panel cleaning unit 1360. ), A charging unit 1370, a wired / wireless communication module 1380, an automatic door module 1390 and an air curtain 1391.

In addition, each of the electric devices of the bus platform electric device 1300 is operated through electricity supplied through the power generation unit 1100 or the power storage unit 1400.

The lighting device 1310 is for illuminating a road formed along an adjacent area of the bus platform structure 1500 or the bus platform structure.

The air purifying device 1320 is for purifying air in adjacent areas and roads of the bus platform structure.

The display device 1330 may be selectively installed inside and outside the bus platform structure. And it can provide a variety of information, including driving information, weather, public information and advertisements of the bus.

The surveillance camera 1340 monitors an adjacent area of the bus platform structure or a road formed along the bus platform structure. In addition, the surveillance camera 1340 may monitor the state of the power generation unit 1100 and the bus platform electrical device 1300 and the cause of the damage.

The solar panel driving device 1350 is for moving the solar panel of the solar generator. That is, in order to secure the light incident to the solar panel as much as possible, it is to change the angle at which the solar panel is mounted according to the movement of the sun.

The solar panel cleaning unit 1360 is for cleaning the solar panel of the solar generator.

The bus platform electrical device 1300 may further include a charging unit 1370. The charging unit 1370 is connected to the power storage unit 1400 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 1370 may be used as a drone charger. That is, when the drone is running out of battery and runs out of battery, it is seated on the charging unit and can be charged in contact and non-contact manner. To this end, the charging unit 1370 may include a contact pin for charging or a wireless charging transmitter.

Further, the charging unit 1370 includes an external contact terminal, and various electric products installed adjacent to the bus stop may be connected.

In addition, the power storage unit 1400 or the charging unit 1370 includes an external contact terminal, and can provide electricity to an electric device of a bicycle storage unit installed adjacent to a bus stop.

Further, the charging unit 1370 is implemented as a wireless charging unit, and can supply electricity to the electric bus when the electric bus stops.

The wired / wireless communication module 1380 receives external information including operation information of the bus from the outside, and transmits the shooting information of the surveillance camera 1340 to the external central control system in real time.

In addition, the bus platform electrical device 1300 includes various sensors such as temperature, humidity, and fine dust detection, and displays the detected information on the display device 1330, or through the wired / wireless communication module 1380 to the central processing system. Real-time transmission is possible.

The automatic door module 1390 is for automatically opening and closing the door of the bus platform structure. To this end, a driving device and a switch are included. In addition, the automatic door device can be implemented by opening and closing by a sensor and automatic opening and closing by a sensor.

The air curtain 1391 is for preventing external air inflow into the bus platform structure. To this end, the air curtain 1391 is mounted to face the door of the bus platform structure, and can be automatically operated so that external air can not be introduced while the door is open.

Next, the control unit 1200 stores electric energy generated from the power generation unit 1100 in the power storage unit 1400 or controls supply of authority energy to the bus platform electric device 1300. In addition, the controller 1200 controls the electric device of the bus platform electric device 1300.

In addition, various electric devices such as an air conditioner, a hot air fan, a fan, and a TV may be installed inside the bus platform structure 1500, all of which operate using electricity generated from the solar generator 110 and the wind generator 1120. do.

In addition, inside the bus platform structure 1500, convenient facilities such as a kiosk may be provided, and electricity such as a refrigerator and a vending machine for this purpose is generated by power generated by the solar generator 110 and the wind generator 1120. It is driven.

FIG. 2 is a perspective view schematically showing an embodiment of a convergence function bus platform structure including the self-generation system shown in FIG. 1.

As illustrated, the bus platform system 1000 includes a solar power generator 110 and a wind power generator 1120 mounted on the bus platform structure 1500. In addition, the bus platform electric device includes a lighting device 1310, an air purification device 1320, a display device 1330, a surveillance camera 1340, a solar panel driving device 1350, an automatic door module 1390, and an air curtain ( 1391).

In addition, the bus platform electrical device 1300 is mounted on the bus platform structure 1500.

More specifically, the solar generator 1110 includes a solar panel 1111. In addition, a plurality of optical sensors 1112 may be mounted on the solar panel 1111 for detecting the amount of incident light of sunlight.

That is, the light sensor 1112 is used to detect the amount of sunlight, and to adjust the angle at which the solar panel 1111 is mounted on the bus platform structure 1500 according to the amount of light.

In addition, the solar panel 1111 is coupled to the panel body 1113, a fluid flow hole may be formed in the panel body 1113.

Accordingly, the fluid is circulated through the fluid flow hole to cool the solar panel 1111, and power generation efficiency is improved.

The wind power generator 1120 may be mounted at a sidewalk or a bus central road stop adjacent to the bus platform structure 1500.

It includes a fan 1121 and a power generation module 1122. The fan 1121 is connected to the power generation module 1122, and the power generation module 1122 generates electricity by electromagnetic force when the fan 1121 is rotated.

Accordingly, when a vehicle such as a bus travels on a road adjacent to the bus platform structure 1500, air flows, and the fan 1121 of the wind power generator 1120 is rotated by the flowed air.

In addition, the wind power generator 1120 may be installed on one side and multiple sides of the bus platform structure 1500, and a plurality of them may be installed at equal intervals.

The lighting device 1310 is mounted on the bus platform structure 1500. In addition, the lighting device 1310 may be mounted to irradiate light toward a road adjacent to the bus platform structure 1500 or adjacent to the bus platform structure 1500.

The air purification device 1320 is for purifying air flowing around the bus platform structure 1500. To this end, the air purification device 1320 includes an air purification filter 1321.

The display device 1330 may be selectively mounted inside and outside the bus platform structure 1500. In addition, when mounted outside, it is intended to provide information to people located outside the bus platform structure 1500.

In addition, when mounted inside the bus platform structure 1500, it provides various information such as information about the bus operation.

The surveillance camera 1340 is for monitoring an adjacent area of the bus platform structure 1500 or detecting a pollution state of the solar panel. To this end, the surveillance camera 1340 is mounted on the bus platform structure 1500 so as to be located on top of the solar panel 1111.

The solar panel driving apparatus 1350 is for moving the mounting position of the solar panel with respect to the bus platform structure 1500. That is, when the sun is moved, the angle of the solar panel is adjusted to secure the maximum amount of sunlight.

To this end, the solar panel driving device 1350 may be implemented in various ways, such as hydraulic.

The automatic door module 1390 is for automatically driving the door 1510 of the bus platform structure 1500, and may include a driving motor and a connection link.

The air curtain 1391 blocks air inflow to prevent outside air from entering the interior of the bus platform structure 1500 in a state in which the door 1510 of the bus platform structure 1500 is opened. To this end, the air curtain 1391 is mounted on the bus platform structure 1500 so as to face the door 1510.

That is, the bus platform structure 1500 may be made of a closed type that includes a door, or may be made of an open form on one side, and an air curtain mounted on the open part.

FIG. 3 is a schematic diagram of a solar panel in a convergence function bus including the self-generation system shown in FIG. 2, and FIG. 4 is a schematic view of a bottom view of the solar panel shown in FIG. 3. 5 is a schematic use state diagram of the photovoltaic generator shown in FIG. 3.

As illustrated, the solar generator 2110 includes a first solar panel 2111, a second solar panel 2112, and a third solar panel 2113.

In addition, the second photovoltaic panel 2112 and the third photovoltaic panel 2113 are mounted to be pulled out on both sides around the first photovoltaic panel 2111.

To this end, the second solar panel 2112 and the third solar panel 2113 include mobile units 2112a and 2113a, respectively. The mobile units 2112a and 2113a include a motor and a gear portion. In addition, a guide gear portion 2111b corresponding to the gear portion is formed on the first solar panel 2111. In addition, the second solar panel 2112 and the third solar panel 2113 are selectively withdrawn as the gear portion moves the guide gear portion 2111b by a motor, respectively.

Accordingly, when the solar panel reduces wind resistance due to strong wind or the like, the second solar panel 2112 and the third solar panel 2113 are moved to overlap the first solar panel 2111, and the amount of sunlight is increased. When large, the second solar panel 2112 and the third solar panel 2113 are withdrawn from the first solar panel 2111. In addition, the second solar panel 2112 and the third solar panel 2113 may be selectively adjusted by respective mobile units 2112a and 2113a.

6 is a configuration diagram schematically showing another embodiment of a solar panel in a convergence function bus platform including the self-generation system shown in FIG. 2.

As shown, the solar generator 3110 includes a solar panel 3111. And 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 the external electric device.

For example, the charging unit 1370 may be used as a drone charger. That is, when the drone is running out of battery and runs out of battery, it is seated on the charging unit and can be charged in contact and non-contact manner. For this, the charging unit C may include a contact pin for charging or a wireless charging transmitter.

7 is a block diagram schematically showing another embodiment of the photovoltaic generator in the electrical system shown in FIG. 2, and FIG. 8 is a diagram schematically showing a cleaning unit in the photovoltaic generator shown in FIG. It is a schematic diagram.

As illustrated, the solar generator 4110 includes a solar panel 4111. In addition, a cleaning unit 4290 is mounted on the solar panel 4111.

The solar panel cleaning unit 4290 includes a brush part 4191, a driving motor 4332, a moving motor 4333, a moving member 4194, a washing water spraying part 4235, a washing water storage part 4196, and a battery part ( 4397) and a guide frame 4398.

More specifically, the brush portion 4191 is coupled so that a plurality of brushes in contact with the solar panel can be detachably attached, and the brush is connected to and rotated with the drive motor 4392.

In addition, the moving member 4394 is for moving the brush portion 4191, and is connected to the brush portion 4191 and the moving motor 4393. In addition, the moving member 4394 is rotated according to the driving of the moving motor 4393 and is guided along the guide portion 4398a formed in the guide frame 4398.

In addition, the washing water spraying unit (4395) is connected to the washing water storage unit (4396) to receive washing water, and is located in front of the brush unit (4391).

The washing water storage unit 4196 may be connected to a river water flow pipe (shown as 1383 in FIG. 1) of the river purification device to store purified river water.

In addition, the solar panel cleaning unit 4290 may further include a pump and a spray nozzle to spray the washing water more effectively.

In addition, the battery unit 4301 is in contact with the charging ground 4113 formed on the solar panel take-out body 4112 to receive electricity generated from the solar generator 1110.

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

10 is a schematic configuration diagram of a display device in a convergence function bus platform including the self-generation system shown in FIG. 2.

As illustrated, the display device 1330 is for providing various information including weather, public information, and advertisements, and includes a first area 1331, a second area 1332, and a third area 1333 can do.

In addition, different types of content may be displayed on the first area 1331, the second area 1332, and the third area 1333.

As an example of this, bus operation information may be displayed in the first area 1331, public information may be displayed in the second area 1332, and advertisements may be displayed in the third area 1333.

In addition, the second area 1332 may disclose missing children, election publicity materials, and public office information.

Also, contents provided to the display device 1330 may be replaced through the control unit. This facilitates real-time management.

11 is a configuration diagram schematically showing another embodiment of a photovoltaic generator in a convergence function bus platform including the self-generation system shown in FIG. 2, and FIG. 12 is a photovoltaic generator shown in FIG. Is a schematic first use state diagram, and FIG. 13 is a schematic second use state diagram of the solar generator shown in FIG. 11.

As shown, the photovoltaic generator 5110 includes a photovoltaic panel 5111. In addition, a cleaning unit 5390 is mounted on the solar panel 5111.

In addition, a solar panel driving device 5350 is coupled between the panel body 5113 and the solar panel 5111.

In addition, the second photovoltaic panel 5111 'and the third photovoltaic panel 5111 "are mounted to be pulled out from both sides around the first photovoltaic panel 5111.

Then, the incident angle of the sun is detected according to the amount of light detected from the optical sensor 5112, and the inclination angle of the solar panel 5111 is adjusted by operating the solar panel driving device 5350.

In addition, the cleaning unit 5290 has the same configuration as the cleaning unit 4290 illustrated in FIG. 8.

14 is a schematic use state diagram of a convergence function bus platform including the self-generation system shown in FIG. 2.

As shown, when the bus is running toward the bus platform structure 1500, air flows and the fan 1121 of the wind power generator 1120 rotates, and power is generated.

In addition, the photovoltaic generator 1110 generates electricity through the photovoltaic panel 1111. And the generated electricity is directly supplied to the bus platform electric device or stored in the power storage unit.

The lighting device 1310 irradiates light on a road formed along the bus platform structure 1500 and an area adjacent to the bus platform.

The air purification device 1320 is intended to inhale the flowing air and soot around the bus platform structure 1500 and purify it to discharge purified air.

In addition, when the bus is located adjacent to the bus platform structure 1500, the door of the bus platform structure 1500 is opened by the automatic door module, and the air curtain 1395 is operated so that the exhaust fumes and contaminated air are buses. Inflow to the lifting structure 1500 is blocked.

15 is a schematic second use state diagram of a convergence function bus platform including the self-generation system shown in FIG. 2.

As shown, the photovoltaic generator 1110 naturally includes as the photovoltaic panel 1111 includes a retractable auxiliary photovoltaic panel 1111 'and the auxiliary photovoltaic panel 1111' is drawn toward India. Shade is formed.

In addition, a wireless charging module is mounted on the auxiliary solar panel 1111 ', the auxiliary solar panel 1111' is drawn out to the driveway, and an electric vehicle including an electric bus can be wirelessly charged by the wireless charging module. .

16 is a schematic configuration diagram of a convergence function bus platform including a self-powered system according to another embodiment of the present invention.

As shown, the convergence function bus platform 6000 includes a power generation unit 6100, a control unit 6200, a bus platform electrical device 6300, a power storage unit 6400, and a bus platform structure 6500.

In addition, the bus platform electric device 6300 further comprises a water jet device 6360 as compared to the bus platform electric device 1300 shown in FIG. 1.

More specifically, the power generation unit 6100 includes a solar power generator 6110 and a wind power generator 6120.

In addition, the bus platform electrical device 6300 includes a lighting device 6310, an air purification device 6320, a display device 6330, a surveillance camera 6340, a solar panel driving device 6350, and a water spray device 6360. , A solar panel cleaning unit 6370 and a charging unit 6380.

The water spraying device 6360 is for supplying water for cooling the solar panel by spraying water on the solar panel, or for washing the solar panel to the solar panel cleaning unit 6370.

In addition, when spraying the water spraying device 6360 toward the air, fine dust in the air can be reduced as it merges with the sprayed water.

17 is a perspective view schematically showing one embodiment of a convergence function bus platform including the self-generation system shown in FIG. 16, and FIG. 18 is a convergence function bus platform including the self-generation system shown in FIG. It is a schematic diagram showing the water spray device of.

As shown, the water injection device 6360 includes an injection device 631, a water storage tank 6636, a pump 6263, and a water supply pipe 6264.

In addition, the water storage tank 6302 may be supplied with water from the outside, receive rainwater, purify through filtering, and then supply the water to the injection device 6263 through a water supply pipe 6264 through a pump 6263.

In addition, the water storage tank 6636 may be installed on both sides based on the driving direction of the vehicle.

The spraying device 6301 sprays water toward the solar panel 6111, and the solar panel 6111 is cooled by water sprayed from the spraying device 6301, and power generation efficiency is increased.

19 is a partial configuration diagram schematically showing another embodiment of a convergence function bus platform including the self-generation system shown in FIG. 16.

As illustrated, the water spray device further comprises a water spray part 7365 for the road.

More specifically, the water jet device includes the water jetting device 6360 shown in FIG. 16 as it is, and further comprises a water jetting unit 7365 capable of jetting water toward the road.

In addition, the water injection unit 7365 is connected to the water storage tank and is mounted on the delivery block 10 constructed on the road to spray water toward the road. Accordingly, foreign matter such as fine dust on the road can be removed, and air pollution can be reduced because it is not scattered even when the vehicle is running. In addition, when a heat wave occurs, water can be sprayed on the road to lower the temperature around the sidewalk.

In addition, the water spray unit may further include an angle adjustment unit so that the angle of the spray nozzle can be adjusted, through which water may be sprayed upward.

In addition, the water spray device may be implemented as a calcium chloride injection device for snow removal. To this end, the water spray device further includes a calcium chloride storage unit and a switch means, and is selectively connected to a water or calcium chloride supply unit by a switch means, and sprays water or calcium chloride on the road through the water injection unit.

In addition, the water spray unit is connected to the control unit, the control unit may be controlled to operate according to the weather information and weather conditions of the day under the control of the National Weather Service or the central monitoring system.

The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, but those of ordinary skill in the art to which the present invention pertains may have other specific forms without changing the technical spirit or essential features of the present invention. It will be understood that it can be practiced. Therefore, it should be understood that one embodiment described above is illustrative in all respects and not limiting.

1000: bus platform system 1100: power generation department
1110: solar generator 1111: solar panel
1112: Optical sensor 1113: Panel body
1120: wind generator 1121: fan
1122: power generation module 1200: control unit
1300: electric device 1310: lighting device
1320: air purification device 1321: air purification filter
1330: display device

Claims (8)

A power generation unit including at least one of a solar power generator and a wind power generator;
A bus platform electrical device operated using electrical energy generated by the power generation unit; And
And a bus platform structure in which the electric power generation unit and the bus platform electrical system are mounted.
Convergence function bus platform system including self-generation system. According to claim 1,
A power storage unit that stores electricity generated by the generator; And
It is connected to the power generation unit, the bus platform electrical device and the power storage unit,
Further comprising a control unit for controlling the power generation unit, the bus platform electrical device and the selective operation and electricity supply of the power storage unit
Convergence function bus platform system including self-generation system. According to claim 1,
The bus platform electrical device,
At least one of a lighting device, an air purification device, a display device, a surveillance camera, a solar panel driving device, a wired / wireless communication module, an automatic door module, and a solar panel cleaning unit
Convergence function bus platform system including self-generation system. According to claim 3,
The bus platform electrical device,
Further comprising a water spray device for spraying water to the solar panel or supplying water to the solar panel cleaning unit
Convergence function bus platform system including self-generation system. According to claim 4,
The water spray is,
A water storage tank, a pump for providing a flow force to the water stored in the water storage tank, and an injection device for spraying water supplied by the pump
Convergence function bus platform system including self-generation system. The method of claim 5,
The water jet device further includes a water spray unit for spraying water on the road,
The water injection unit is connected to the water storage tank and mounted on the sidewalk block to spray water toward the road.
Convergence function bus platform system including self-generation system. According to claim 1,
The photovoltaic power generation unit, a photovoltaic panel, a plurality of optical sensors mounted on the photovoltaic panel, and a photovoltaic panel driving device coupled between the panel body to which the photovoltaic panel is coupled, the panel body and the bus platform structure Containing
Convergence function bus platform system including self-generation system. According to claim 3,
The solar panel cleaning unit,
And the brush portion is coupled so that the brush in contact with the solar panel is detachable,
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,
The moving member is inserted to include a guide frame to be guided
Convergence function bus platform system including self-generation system.

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