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CN-224213858-U - Solar bus station with unmanned aerial vehicle automatic charging apron

CN224213858UCN 224213858 UCN224213858 UCN 224213858UCN-224213858-U

Abstract

The utility model relates to the technical field of intelligent traffic infrastructure, in particular to a solar bus station with an unmanned aerial vehicle automatic charging parking apron, which comprises a station base and a ceiling, wherein solar photovoltaic panels are symmetrically arranged on two sides of the surface of the ceiling, an energy storage system is arranged between the upper surface of the ceiling and the back of the solar photovoltaic panels, and the output end of the solar photovoltaic panels is connected with the energy storage system through a waterproof connector; the intelligent energy storage system comprises a bracket, an energy storage system, an unmanned aerial vehicle parking apron, an electromagnetic induction wireless charging technology, a solar power supply system and a solar energy power supply system, wherein the bracket is internally embedded with a wire slot, the energy storage system is connected with an output cable, the output cable runs along the bracket internally embedded with the wire slot, the middle of the upper surface of a ceiling is provided with the unmanned aerial vehicle parking apron with a wireless charging function, and the unmanned aerial vehicle parking apron adopts the electromagnetic induction wireless charging technology.

Inventors

  • XUE YUNQIANG
  • BI YUHAN
  • AN JING
  • LI JUNYING
  • ZHANG BORU
  • LIU JIAYU
  • Bao Guangfa

Assignees

  • 华东交通大学

Dates

Publication Date
20260508
Application Date
20250605

Claims (10)

  1. 1. The solar bus station with the unmanned aerial vehicle automatic charging apron comprises a station base (2) and a ceiling (12), and is characterized in that solar photovoltaic panels (1) are symmetrically arranged on two sides of the surface of the ceiling (12), an energy storage system (13) is arranged between the upper surface of the ceiling (12) and the back surface of the solar photovoltaic panels (1), and the output end of the solar photovoltaic panels (1) is connected with the energy storage system (13) through a waterproof connector; The unmanned aerial vehicle air handling system comprises a bracket (10), an energy storage system (13), an output cable (14), an unmanned aerial vehicle air handling table (6) and an unmanned aerial vehicle air handling table (6), wherein the bracket (10) is internally embedded with a wire slot, the energy storage system (13) is connected with the output cable (14), the output cable (14) runs along the wire slot embedded in the bracket (10), the middle part of the upper surface of a ceiling (12) is provided with the unmanned aerial vehicle air handling table (6) with a wireless charging function, and the unmanned aerial vehicle air handling table (6) adopts an electromagnetic induction wireless charging technology to support automatic charging of an unmanned aerial vehicle.
  2. 2. The solar bus stop with the unmanned aerial vehicle automatic charging apron according to claim 1, wherein solar photovoltaic panels (1) are arranged on two sides of the surface of the ceiling (12), the single solar photovoltaic panel (1) is a 1300W monocrystalline silicon component, the solar photovoltaic panel (1) is fixedly arranged at the top of the ceiling (12) through a photovoltaic panel bracket, and the photovoltaic panel bracket and the ceiling (12) are horizontally arranged at an inclination angle of 25 degrees.
  3. 3. The solar bus station with the unmanned aerial vehicle automatic charging apron according to claim 1, wherein four brackets (10) are fixedly connected to the top of the station base (2), and a ceiling (12) is fixed to the top of the brackets (10).
  4. 4. A solar bus station with an unmanned aerial vehicle automatic charging apron according to claim 3, wherein the station base (2) is provided with an intelligent bus information screen (4), and the intelligent bus information screen (4) is suspended between the middle two brackets (10) and is used for displaying bus route information and reminding passengers of going to the bus information of coming into the station.
  5. 5. A solar bus station with an unmanned aerial vehicle automatic charging apron according to claim 3, wherein an LED lighting system (9) is arranged between the two outermost brackets (10) and the two middle brackets (10), the LED lighting system (9) is connected with an energy storage system (13) through a waterproof connector, and the solar photovoltaic panel 1 is powered by the energy storage system (13) for night station illumination.
  6. 6. The solar bus station with the unmanned aerial vehicle automatic charging apron according to claim 1, wherein a bench (11) is fixedly installed on the station base (2), and the bench (11) is arranged below a ceiling (12).
  7. 7. The solar bus station with the unmanned aerial vehicle automatic charging apron according to claim 1, wherein an apron automatic locking device (7) is arranged on the unmanned aerial vehicle apron (6), and the apron automatic locking device (7) comprises a pressure sensor and an electromagnetic lock.
  8. 8. The solar bus station with the unmanned aerial vehicle automatic charging apron according to claim 3, wherein an unmanned aerial vehicle wireless charging platform working state display screen (5) is fixedly installed on the support (10), the unmanned aerial vehicle wireless charging platform working state display screen (5) adopts an industrial-grade touch control LCD panel, and scratch-resistant toughened glass is covered on the surface.
  9. 9. A solar bus station with an unmanned aerial vehicle automatic charging apron according to claim 1, wherein the front side of the station base (2) is provided with two guardrails (3), and a passing opening is reserved between the two guardrails (3) for guiding passengers to get on or off the bus in order.
  10. 10. The solar bus station with the unmanned aerial vehicle automatic charging apron according to claim 9, wherein the rear side of the station base (2) is connected with an accessible channel (8), and the width of the accessible channel (8) is more than or equal to 1.2 meters.

Description

Solar bus station with unmanned aerial vehicle automatic charging apron Technical Field The utility model relates to the field of intelligent traffic infrastructure, in particular to a solar bus station with an unmanned aerial vehicle automatic charging apron. Background At present, the urban bus stop has single function and mainly provides bus waiting and information display services. With the rapid development of unmanned aerial vehicle delivery service, the urban infrastructure has the following problems that unmanned aerial vehicle supporting service facilities are lacking, parking and charging support cannot be provided for delivery unmanned aerial vehicles, renewable energy sources are not fully utilized in a traditional energy source supply mode, the functional integration level is low, public transport service and unmanned aerial vehicle delivery requirements cannot be met at the same time, commercial operation support is lacking, user authentication and charging management cannot be achieved by unmanned aerial vehicle charging service, linkage with an urban public transport payment system is difficult, and sustainable service capability is limited. Therefore, the traditional platform cannot adapt to the development demands of smart cities, and a novel platform integrating public transportation service, unmanned aerial vehicle distribution and clean energy utilization is needed urgently, so that the unmanned aerial vehicle distribution is charged, the distribution endurance is guaranteed, and the reasonable utilization of urban space is realized. Disclosure of utility model The utility model aims to provide a solar bus station with an unmanned aerial vehicle automatic charging apron, so as to solve the problems in the background art. The aim of the utility model can be achieved by the following technical scheme: The solar bus station with the unmanned aerial vehicle automatic charging apron comprises a station base and a ceiling, wherein solar photovoltaic panels are symmetrically arranged on two sides of the surface of the ceiling, an energy storage system is arranged between the upper surface of the ceiling and the back of the solar photovoltaic panels, and the output end of the solar photovoltaic panels is connected with the energy storage system through a waterproof connector; The unmanned aerial vehicle air handling system comprises a support, an energy storage system, an unmanned aerial vehicle air handling system and an unmanned aerial vehicle air handling system, wherein a wire slot is embedded in the support, the energy storage system is connected with an output cable, the output cable runs along the wire slot embedded in the support, an unmanned aerial vehicle air handling system with a wireless charging function is arranged in the middle of the upper surface of a ceiling, and the unmanned aerial vehicle air handling system adopts an electromagnetic induction wireless charging technology to support automatic charging of an unmanned aerial vehicle. Solar photovoltaic panels are arranged on two sides of the surface of the ceiling, each solar photovoltaic panel is a 2600W monocrystalline silicon component, the solar photovoltaic panels are fixedly arranged at the top of the ceiling through photovoltaic panel supports, and the photovoltaic panel supports and the horizontal surface of the ceiling form an inclination angle of 25 degrees. Four brackets are fixedly connected to the top of the platform base, and a ceiling is fixed to the top of the brackets. The intelligent bus information screen is hung between the middle two brackets and used for displaying bus line information and reminding passengers of bus information about to get into the station. An LED lighting system is arranged between the two supports at the outermost side and the two supports in the middle, the LED lighting system is connected with an energy storage system through a waterproof connector, and a solar photovoltaic panel supplies power through the energy storage system and is used for night platform lighting. The bench is fixedly arranged on the platform base and arranged below the ceiling. The unmanned aerial vehicle air park is provided with an air park automatic locking device, and the air park automatic locking device comprises a pressure sensor and an electromagnetic lock. The unmanned aerial vehicle wireless charging platform working state display screen is fixedly mounted on the support, the unmanned aerial vehicle wireless charging platform working state display screen adopts an industrial-grade touch LCD panel, and scratch-resistant toughened glass is covered on the surface. Two guardrails are arranged on the front side of the platform base, and a passing opening is reserved between the two guardrails and used for guiding passengers to get on or off the vehicle in order. The rear side of the platform base is connected with an accessible channel, and the width of the accessible channel is more than or equal to 1.2