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CN-224211296-U - Unmanned aerial vehicle charging platform and unmanned aerial vehicle charging system

CN224211296UCN 224211296 UCN224211296 UCN 224211296UCN-224211296-U

Abstract

The application discloses an unmanned aerial vehicle charging platform and an unmanned aerial vehicle charging system, and relates to the technical field of unmanned aerial vehicle charging. Unmanned aerial vehicle charging platform is including charging the platform and setting up charging seat and guiding mechanism on charging the platform with sharp slip respectively, and the slip direction of charging seat is mutually perpendicular with guiding mechanism's slip direction, and charging platform is used for parking the unmanned aerial vehicle that waits to charge, and guiding mechanism is used for carrying out the direction to unmanned aerial vehicle on its sliding track, and charging seat is used for pegging graft the cooperation with unmanned aerial vehicle's on its sliding track charging plate. It can improve unmanned aerial vehicle's convenience of charging.

Inventors

  • TENG HAO
  • LIU ZHENHUA
  • SHI JIAN
  • CAO YUANYI
  • WANG GANG
  • DENG HAO
  • Gao Hansheng

Assignees

  • 武汉华测创新空间信息技术有限责任公司

Dates

Publication Date
20260508
Application Date
20250414

Claims (10)

  1. 1. The utility model provides an unmanned aerial vehicle charging platform, its characterized in that is in including charging stand and the sharp slip setting respectively charging stand and guiding mechanism on the charging stand, the slip direction of charging stand with guiding mechanism's slip direction is mutually perpendicular, the charging stand is used for parking the unmanned aerial vehicle that waits to charge, guiding mechanism is used for carrying out the direction to unmanned aerial vehicle on its sliding track, the charging stand is used for pegging graft the cooperation with unmanned aerial vehicle's on its sliding track charging plate.
  2. 2. The unmanned aerial vehicle charging platform of claim 1, wherein the charging stand is provided with a first slide rail and a second slide rail, the charging stand is slidably disposed on the first slide rail, and the guide mechanism is slidably disposed on the second slide rail.
  3. 3. The unmanned aerial vehicle charging platform of claim 2, wherein the guiding mechanism comprises a first pushrod and a second pushrod slidingly disposed on the second slide rail, the first pushrod and the second pushrod therebetween for parking the unmanned aerial vehicle to be charged.
  4. 4. The unmanned aerial vehicle charging platform of claim 3, wherein the charging dock comprises a first charging dock and a second charging dock slidably disposed on the second slide rail, the unmanned aerial vehicle to be charged being parked between the first charging dock and the second charging dock.
  5. 5. The unmanned aerial vehicle charging platform of claim 4, wherein the charging station is further provided with a drive mechanism that drives the charging station and the guide mechanism to slide.
  6. 6. The unmanned aerial vehicle charging platform of claim 5, wherein the drive mechanism comprises a first drive assembly and a second drive assembly, the first drive assembly driving the first charging dock and the second charging dock to slide, the second drive assembly driving the first pushrod and the second pushrod to slide.
  7. 7. An unmanned aerial vehicle charging system, characterized in that, including unmanned aerial vehicle and the unmanned aerial vehicle charging platform of any one of claims 1-6, unmanned aerial vehicle is placed on the unmanned aerial vehicle charging platform, unmanned aerial vehicle includes fuselage and undercarriage, be provided with the charging pad on the undercarriage, the charging pad with unmanned aerial vehicle charging platform's charging seat grafting cooperation.
  8. 8. The unmanned aerial vehicle charging system of claim 7, wherein the landing gear comprises a base and a link connecting the base and the fuselage, the charging pad is disposed on the base, and a wiring harness of the charging pad extends through the link to a charging module of the fuselage.
  9. 9. The unmanned aerial vehicle charging system of claim 8, wherein the base is provided with a rolling member by which to roll on the unmanned aerial vehicle charging platform.
  10. 10. The unmanned aerial vehicle charging system of claim 8, wherein the landing gear is provided with a buffer block by which it abuts against a guide mechanism of the unmanned aerial vehicle charging platform.

Description

Unmanned aerial vehicle charging platform and unmanned aerial vehicle charging system Technical Field The application relates to the technical field of unmanned aerial vehicle charging, in particular to an unmanned aerial vehicle charging platform and an unmanned aerial vehicle charging system. Background Under the tide of the age of rapid progress of the technology at present, the unmanned aerial vehicle industry is undergoing explosive growth, and is becoming an indispensable power assistant in various fields, and deeply integrating various links of people in production and life. From the high altitude plant protection in agricultural field, accurately scatter pesticide, chemical fertilizer, greatly promote work efficiency, in the film and television preparation, catch the shake picture of taking photo by plane that is difficult to reach before, bring brand-new vision feast for spectator, go to express delivery logistics industry again, open "air delivery" new mode, shorten the delivery duration, even in emergency rescue scene, can pass through complicated topography fast, the critical information of very first time transmission, put in rescue supplies. At present, rotor unmanned aerial vehicle is as industry mainstream type, mostly relies on electric drive to go ahead. In the prior art, the battery of the unmanned aerial vehicle is replaced to realize quick charging, and the replaced battery is charged through a special charger, so that the charging mode is excessively complicated. Disclosure of utility model The application aims to provide an unmanned aerial vehicle charging platform and an unmanned aerial vehicle charging system, which can improve charging convenience of an unmanned aerial vehicle. Embodiments of the present application are implemented as follows: According to one aspect of the embodiment of the application, the unmanned aerial vehicle charging platform comprises a charging platform, a charging seat and a guiding mechanism, wherein the charging seat and the guiding mechanism are respectively arranged on the charging platform in a linear sliding mode, the sliding direction of the charging seat is perpendicular to the sliding direction of the guiding mechanism, the charging platform is used for parking an unmanned aerial vehicle to be charged, the guiding mechanism is used for guiding the unmanned aerial vehicle on the sliding track of the unmanned aerial vehicle in the direction, and the charging seat is used for being in plug-in fit with a charging plate of the unmanned aerial vehicle on the sliding track of the unmanned aerial vehicle. Optionally, as an implementation manner, the charging stand is provided with a first sliding rail and a second sliding rail, the charging stand is slidably arranged on the first sliding rail, and the guiding mechanism is slidably arranged on the second sliding rail. Optionally, as an implementation manner, the guiding mechanism includes a first push rod and a second push rod that are slidably disposed on the second slide rail, and the unmanned aerial vehicle to be charged is parked between the first push rod and the second push rod. Optionally, as an implementation manner, the charging seat includes a first charging seat and a second charging seat that are slidably disposed on the second sliding rail, and the unmanned aerial vehicle to be charged is parked between the first charging seat and the second charging seat. Optionally, as an implementation manner, a driving mechanism is further arranged on the charging stand, and the driving mechanism drives the charging stand and the guiding mechanism to slide. Optionally, as an implementation manner, the driving mechanism includes a first driving component and a second driving component, the first driving component drives the first charging seat and the second charging seat to slide, and the second driving component drives the first push rod and the second push rod to slide. In another aspect of the embodiments of the present application, there is provided an unmanned aerial vehicle charging system, including an unmanned aerial vehicle and an unmanned aerial vehicle charging platform as set forth in any one of the above, the unmanned aerial vehicle being placed on the unmanned aerial vehicle charging platform. Optionally, as an implementation manner, the unmanned aerial vehicle includes a fuselage and a landing gear, a charging board is arranged on the landing gear, and the charging board is in plug-in connection with a charging seat of a charging platform of the unmanned aerial vehicle. Optionally, as an implementation manner, the landing gear includes a base and a connecting rod that connects the base and the body, the charging board is disposed on the base, and a wire harness of the charging board extends to the charging module of the body through the connecting rod. Optionally, as an implementation manner, the base is provided with a rolling element, and the unmanned aerial vehicle charging platform roll