20240017860. SYSTEMS FOR UNMANNED AERIAL VEHICLE DOCKING, STORAGE, AND LOADING simplified abstract (ZIPLINE INTERNATIONAL INC.)
Contents
SYSTEMS FOR UNMANNED AERIAL VEHICLE DOCKING, STORAGE, AND LOADING
Organization Name
Inventor(s)
Keenan A. Wyrobek of South San Francisco CA (US)
Brendan D. Wade of South San Francisco CA (US)
Zoltan Laszlo of South San Francisco CA (US)
Brian Boomgaard of South San Francisco CA (US)
Joshua Liu of South San Francisco CA (US)
Gregoire Vandenbussche of South San Francisco CA (US)
Kevin Nalecz of South San Francisco CA (US)
Radhika Gurumurthy of South San Francisco CA (US)
SYSTEMS FOR UNMANNED AERIAL VEHICLE DOCKING, STORAGE, AND LOADING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240017860 titled 'SYSTEMS FOR UNMANNED AERIAL VEHICLE DOCKING, STORAGE, AND LOADING
Simplified Explanation
The abstract describes a docking system for unmanned aerial vehicles (UAVs) that includes a docking housing with a docking compartment and a docking assembly. The docking assembly is connected to the docking housing and is designed to suspend the UAV within the docking compartment. It includes a guiding feature that receives a docking feature of the UAV and directs the UAV towards a first captured position. Additionally, an advancement assembly is coupled with the guiding feature and moves the UAV from the first captured position to a second docked position.
- The docking system is designed to house and suspend UAVs within a docking compartment.
- The docking assembly includes a guiding feature that directs the UAV towards a first captured position.
- An advancement assembly moves the UAV from the first captured position to a second docked position.
Potential applications of this technology:
- Automated docking and charging of UAVs.
- Efficient storage and maintenance of UAVs.
- Integration with UAV delivery systems.
Problems solved by this technology:
- Ensures secure and precise docking of UAVs.
- Facilitates automated processes for UAV charging and maintenance.
- Reduces the risk of damage or loss during docking procedures.
Benefits of this technology:
- Streamlines UAV operations by automating docking and charging processes.
- Increases efficiency and reduces downtime for UAVs.
- Enhances safety and reliability of UAV docking procedures.
Original Abstract Submitted
a docking system for unmanned aerial vehicles (uavs) includes a docking housing that defines a docking compartment, and a docking assembly coupled to the docking housing and configured to suspend the uav within the docking compartment. the docking assembly may include a guiding feature configured to receive a docking feature of the uav and direct the uav toward a first captured position. the docking assembly may further include an advancement assembly operatively coupled with the guiding feature and configured to move the uav from the first captured position to a second docked position.
- ZIPLINE INTERNATIONAL INC.
- Keenan A. Wyrobek of South San Francisco CA (US)
- Brendan D. Wade of South San Francisco CA (US)
- Zoltan Laszlo of South San Francisco CA (US)
- Brian Boomgaard of South San Francisco CA (US)
- Joshua Liu of South San Francisco CA (US)
- Gregoire Vandenbussche of South San Francisco CA (US)
- Kevin Nalecz of South San Francisco CA (US)
- Radhika Gurumurthy of South San Francisco CA (US)
- B64U80/25
- B64F1/22
- B60L53/14