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Rapid take-off booster device for unmanned aerial vehicle cluster

An unmanned, fast technology, applied in the direction of launching/dragging transmissions, etc.

Inactive Publication Date: 2019-02-05
CSSC SYST ENG RES INST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, these devices still have major deficiencies in terms of transportation standardization, UAV storage, size, energy storage, and frequency of launching UAVs.

Method used

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  • Rapid take-off booster device for unmanned aerial vehicle cluster
  • Rapid take-off booster device for unmanned aerial vehicle cluster
  • Rapid take-off booster device for unmanned aerial vehicle cluster

Examples

Experimental program
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Embodiment Construction

[0025] The specific implementation of the present invention will be further described below in conjunction with accompanying drawing:

[0026] Such as figure 1 Shown, the profile of the present invention is a standard container 1, which can be transported by vehicles such as vehicles and ships; as figure 2 The top cladding plate of the shown standard container 1 has a slidable skylight through which the UAV 2 flies out and completes lift-off. The skylight can also be replaced with other opening structures. The man-machine should have the function of folding the wings and unfold the wings after flying out of the standard container 1; the internal structure of the standard container 1 is as follows: image 3 Shown, the internal state of the present invention when storing and transporting is all as image 3 As shown, the UAV is stored on the shelf tray of the storage rack 3, and the linear motor is arranged obliquely according to the optimal take-off angle of the UAV. Such as...

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Abstract

The invention discloses a standard container-based rapid take-off booster device for an unmanned aerial vehicle cluster, and belongs to the take-off booster device on a aircraft take-off phase. The standard container-based rapid take-off booster device for the unmanned aerial vehicle cluster is applied to a large-scale fixed-wing unmanned aerial vehicle cluster maneuvers and rapid takes-off in cooperative operation under the limited environment conditions. The standard container-based rapid take-off booster device for the unmanned aerial vehicle cluster comprises a standardized container (1),an unmanned aerial vehicle (2), a storage rack (3) used for storing the unmanned aerial vehicle, a linear motor (5) used for launching the unmanned aerial vehicle, a mobile high energy density energystorage unit (6), a motor drive device (7) and a console (8). The standard container-based rapid take-off booster device for the unmanned aerial vehicle cluster realizes the integration of storage, transportation and launch of the unmanned aerial vehicle, the unmanned aerial vehicle can quickly reach a working area by means of vehicles in a maneuver mode, ships and other carrier tools, realize therapid continuous launching of the unmanned aerial vehicle, the cluster is formed rapidly, and cooperative operation tasks are rapidly carried out.

Description

technical field [0001] The invention belongs to the field of aircraft power-assisted take-off devices, in particular to a rapid-launch flying aid device for UAVs used in UAV cluster detection operations. Background technique [0002] With the rapid development of UAV technology and the popularization of civilian applications, the cost of UAVs has been greatly reduced, and the application of UAV cluster technology has also been developed rapidly. Cluster collaborative operations can often play a greater role than one plus one. Second, UAV swarm collaboration has broad application prospects in the fields of detection, operation, relay communication, monitoring, etc., and it also shows advantages far superior to traditional methods in terms of economy, technology, and convenience. In some application occasions, sudden operation demands are often encountered, and UAV clusters are required to quickly arrive at the scene and be deployed, such as video of the epicenter area after a...

Claims

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Application Information

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IPC IPC(8): B64F1/06
CPCB64F1/06
Inventor 孙科苗春晖杨杰杨森张滨沙江任海刚
Owner CSSC SYST ENG RES INST
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