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CN-224225335-U - Fixed wing unmanned aerial vehicle's net recovery unit that hits

CN224225335UCN 224225335 UCN224225335 UCN 224225335UCN-224225335-U

Abstract

The utility model discloses a collision net recovery device of a fixed wing unmanned aerial vehicle, which is used for improving deployment efficiency. The utility model comprises a column body, a movable rod, a connecting rod, a movable plate, an interception net and a foot rest, wherein one end of the column body is connected with the foot rest, a fixed plate is arranged at the other end of the column body, the movable rod is movably connected to the fixed plate, the interception net is arranged at one end of the movable rod, which is far away from the fixed plate, and is used for intercepting an unmanned aerial vehicle, the movable plate is sleeved on the column body, is positioned between the foot rest and the fixed plate, is connected with the movable plate through the connecting rod, and is matched with the connecting rod to control the movable rod to rotate.

Inventors

  • MA YANGANG

Assignees

  • 成都云翅科技有限公司

Dates

Publication Date
20260512
Application Date
20250514

Claims (9)

  1. 1. Fixed wing unmanned aerial vehicle hits net recovery unit, its characterized in that includes: the device comprises a column body, a movable rod, a connecting rod, a movable plate, an interception net and a foot rest; one end of the column body is connected with the foot rest, a fixed plate is arranged at the other end of the column body, the movable rod is movably connected to the fixed plate, the interception net is arranged at one end of the movable rod, which is far away from the fixed plate, and the interception net is used for intercepting the unmanned aerial vehicle; The movable plate is sleeved on the column body, the movable plate is located between the foot rest and the fixed plate, the movable rod is connected with the movable plate through the connecting rod, and the movable plate is matched with the connecting rod to control the movable rod to rotate.
  2. 2. The mesh hit recovery device of claim 1, wherein the blocking net comprises a first blocking net and a second blocking net, the first blocking net and the second blocking net are respectively connected with the movable rod, and the first blocking net is parallel to the second blocking net.
  3. 3. The mesh hit recovery device according to claim 2, wherein the first barrier is made of one of nylon, polyester fiber and aramid fiber.
  4. 4. A striker recovery device according to any of claims 1 to 3, wherein the side of the fixed plate facing the blocking net is provided with a sponge block.
  5. 5. A striker recovery device according to any of claims 1 to 3, wherein said blocking net is detachably connected to said movable bar.
  6. 6. A mesh collision recovery apparatus according to any one of claims 1 to 3, wherein the movable rod is provided in an arc shape.
  7. 7. A mesh collision recovery apparatus according to any one of claims 1 to 3, in which the end of the movable rod is provided with a guide light which is embedded on the movable rod.
  8. 8. A net collision recovery apparatus as claimed in any one of claims 1 to 3, wherein a connection block is provided on the foot rest, and a through hole is provided on the connection block so that the column is connected in the through hole.
  9. 9. The mesh collision recovery apparatus according to claim 8, wherein an included angle between a direction of the perforation on the connection block and a horizontal plane is 15-90 degrees.

Description

Fixed wing unmanned aerial vehicle's net recovery unit that hits Technical Field The application relates to the technical field of unmanned aerial vehicle equipment, in particular to a collision net recovery device of a fixed wing unmanned aerial vehicle. Background Along with the rapid development of unmanned aerial vehicle technology, the small-sized fixed wing unmanned aerial vehicle has the characteristics of strong endurance, wide operation range, high load adaptability and the like, and has irreplaceable application value in complex scenes such as mountain area topography mapping, forest fire monitoring, disaster emergency search and rescue and the like. At present, aiming at the unmanned aerial vehicle recovery requirement under the no-runway condition, a collision network recovery technology has become a mainstream solution. The technology absorbs the kinetic energy of the unmanned aerial vehicle during landing through the synergistic effect of the interception net and the buffering damping system, so that the unmanned aerial vehicle can be safely decelerated in a limited space. But traditional device that hits net generally adopts steel truss structure as the main part support, deploys the assigned position with steel truss structure to can use after the assembly interception net on steel truss structure, steel truss structure is formed through numerous bolt group's by numerous metal component, though can guarantee device stability, whole weight is heavier, is difficult to carry fast in rugged mountain region environment, and bolt assembly process is loaded down with trivial details, and deployment efficiency is lower. Disclosure of utility model In order to solve the technical problems, the application provides a collision net recovery device of a fixed wing unmanned aerial vehicle, which can improve deployment efficiency. The application provides a collision net recovery device of a fixed wing unmanned aerial vehicle, which comprises the following components: Fixed wing unmanned aerial vehicle hits net recovery unit, its characterized in that includes: the device comprises a column body, a movable rod, a connecting rod, a movable plate, an interception net and a foot rest; one end of the column body is connected with the foot rest, a fixed plate is arranged at the other end of the column body, the movable rod is movably connected to the fixed plate, the interception net is arranged at one end of the movable rod, which is far away from the fixed plate, and the interception net is used for intercepting the unmanned aerial vehicle; The movable plate is sleeved on the column body, the movable plate is located between the foot rest and the fixed plate, the movable rod is connected with the movable plate through the connecting rod, and the movable plate is matched with the connecting rod to control the movable rod to rotate. Optionally, the interception net comprises a first blocking net and a second blocking net, the first blocking net and the second blocking net are respectively connected with the movable rods, and the first blocking net is parallel to the second blocking net. Optionally, the first barrier net is made of one of nylon, polyester fiber and aramid fiber. Optionally, a sponge block is arranged on one side of the fixed plate facing the interception net. Optionally, the interception net is detachably connected with the movable rod. Optionally, the movable rod is arc-shaped. Optionally, a guiding lamp is arranged at the tail end of the movable rod, and the guiding lamp is inlaid on the movable rod. Optionally, a connection block is provided on the stand, and a through hole is provided on the connection block, so that the column is connected in the through hole. Optionally, an included angle between the perforation direction on the connecting block and the horizontal plane is 15-90 degrees. From the above technical scheme, the application has the following effects: According to the application, the column body is connected to the foot rest, the fixed plate is arranged on the column body, the movable rod is movably connected to the fixed plate, the interception net is connected to one end of the movable rod, which is far away from the fixed plate, the movable plate is sleeved on the column body, two ends of the connecting rod are respectively connected with the movable rod and the movable plate, the movable plate is matched with the connecting rod to control the movable rod to rotate, when the movable rod rotates to enable the interception net to be opened, the interception of the unmanned aerial vehicle is realized through the interception net, and the rotation of the movable rod can be realized by only moving the movable plate in deployment, namely, the opening and the closing of the interception net are realized without redundant bolt matching processes, so that the deployment efficiency can be improved. Drawings In order to more clearly illustrate the technical solutions of the present ap