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CN-224225313-U - High altitude rescue unmanned aerial vehicle

CN224225313UCN 224225313 UCN224225313 UCN 224225313UCN-224225313-U

Abstract

The utility model provides a high-altitude rescue unmanned aerial vehicle, which belongs to the technical field of rescue equipment of unmanned aerial vehicles and comprises a mounting module arranged at the bottom of the rescue unmanned aerial vehicle, wherein a mounting guide rail is arranged at the bottom of the mounting module, a plurality of mounting blocks are fixedly arranged in each mounting guide rail, a first jack is transversely arranged in each mounting block in a penetrating manner, a limiting assembly is movably arranged in each first jack, a second jack is vertically arranged in each mounting block, each second jack penetrates through the first jack on the same shaft, a connector is detachably arranged in each second jack, and a life buoy is arranged at the bottom of each connector.

Inventors

  • FANG YIQIU
  • LI BO
  • GUO GUOBIN
  • LI CHANGQING

Assignees

  • 华启天成(深圳)智能科技有限公司

Dates

Publication Date
20260512
Application Date
20250516

Claims (6)

  1. 1. The high-altitude rescue unmanned aerial vehicle comprises a mounting module (101) arranged at the bottom of the rescue unmanned aerial vehicle (100), and a life buoy (102) arranged at the bottom of the mounting module (101), and is characterized in that a mounting guide rail (200) is arranged at the bottom of the mounting module (101), a plurality of mounting blocks (201) are fixedly arranged in each mounting guide rail (200), each mounting block (201) is matched with the mounting guide rail (200), a first socket (202) is transversely arranged in each mounting block (201) in a penetrating manner, each first socket (202) penetrates through two sides of the mounting guide rail (200), a limiting component (300) is movably arranged in each first socket (202), a second socket (203) is vertically arranged in each mounting block (201), each second socket (203) is arranged on the same shaft in a penetrating manner, a detachable connection head (400) is arranged in each second socket (203), and a connection head (400) is arranged at the bottom of each life buoy (400).
  2. 2. The high-altitude rescue unmanned aerial vehicle of claim 1, wherein each limiting assembly (300) comprises an electric push rod (301) matched with the first socket (202), the driving end of each electric push rod (301) is located on one side of the mounting guide rail (200), a supporting plate (302) is arranged at the bottom of the driving end of each electric push rod (301), each supporting plate (302) is connected with the side edge close to the mounting guide rail (200), a slot (303) is formed in the other end of each first socket (202), and the notch of each slot (303) is matched with the telescopic end of each electric push rod (301).
  3. 3. An overhead rescue unmanned aerial vehicle as claimed in claim 2, wherein a third socket (401) is transversely arranged in each connector (400) in a penetrating manner, each connector (400) is matched with the second socket (203) which is coaxial with the connector, and the third socket (401) is matched with the first socket (202).
  4. 4. An overhead rescue unmanned aerial vehicle according to claim 3, wherein an internal thread cylinder (402) is arranged at the bottom of each connecting head (400), an external thread pipe (403) is arranged at the bottom of each internal thread cylinder (402), and the internal thread cylinders (402) are in threaded fit with the external thread pipes (403).
  5. 5. The high-altitude rescue unmanned aerial vehicle of claim 4, wherein a locator (404) is arranged in each external threaded tube (403), a buffer pad (405) is arranged in each internal threaded tube (402), and the buffer pad (405) is attached to the locator (404).
  6. 6. The high-altitude rescue unmanned aerial vehicle of claim 5, wherein a connecting rod (501) is arranged at the bottom of each external threaded pipe (403), a connecting buckle (502) is arranged at the bottom of each connecting rod (501), and the connecting buckle (502) is hinged with the hanging ring (500).

Description

High altitude rescue unmanned aerial vehicle Technical Field The utility model relates to the technical field of unmanned aerial vehicle rescue equipment, in particular to a high-altitude rescue unmanned aerial vehicle. Background The unmanned aerial vehicle mainly has high-altitude flight capability (such as strong wind resistance, long endurance and high navigational altitude), can carry rescue materials (such as lifesaving equipment and medicines), is provided with a camera or a thermal imaging instrument for high-altitude investigation, and has the core advantages of wide coverage range and rapid arrival at remote or high-risk areas, and can be applied to rescue scenes on the sea or in water in order to improve the practicability of the unmanned aerial vehicle. In the related art, for water rescue, conventional rescue tools such as ships, helicopters and the like are used in the past. And unmanned aerial vehicle is as a high-efficient convenient instrument, for traditional mode, has that take off and land time is short, the route is easy to plan, single rescue cost is low, can not cause advantages such as secondary casualties, can be quick, the efficient carries out effective rescue in extreme severe weather environment, can greatly improve rescue efficiency. However, the number of the existing unmanned aerial vehicle mounted life buoy is small, and most of the unmanned aerial vehicle only has the capability of single life buoy throwing, so that the unmanned aerial vehicle is inconvenient to use when people fall into water are more, and the problem is solved by the unmanned aerial vehicle for high-altitude rescue. Disclosure of utility model In view of this, the utility model provides a high-altitude rescue unmanned aerial vehicle, which enables the electric push rod to draw out the first jack and the third jack by starting the electric push rod, so that the slot is separated from the electric push rod, and further the connector is separated from the mounting block, and further the life buoy falls down to the side of the help seeker under the gravity of the earth, and further the emergency rescue of a plurality of help seekers can be satisfied. In order to solve the technical problems, the utility model provides a high-altitude rescue unmanned aerial vehicle, which comprises a mounting module arranged at the bottom of the rescue unmanned aerial vehicle, wherein a life buoy arranged at the bottom of the mounting module is provided with mounting guide rails, a plurality of mounting blocks are fixedly arranged in each mounting guide rail, each mounting block is matched with the mounting guide rail, a first socket is transversely arranged in each mounting block in a penetrating manner, each first socket penetrates through two sides of the mounting guide rail, a limiting component is movably arranged in each first socket, a second socket is vertically arranged in each mounting block, each second socket penetrates through the first socket on the same shaft, a connector is detachably arranged in each second socket, a hanging ring is arranged at the bottom of each connector, and a life buoy is arranged in each hanging ring. Every spacing subassembly all includes an electric putter with first socket adaptation, electric putter is used for inserting in first socket and the third socket, and then in first socket to the connector cross arm, electric putter's drive end is located one of them side of mounting guide rail, every electric putter drive end's bottom all is provided with a backup pad, the backup pad is used for the drive end on the fixed mounting electric putter, and then make electric putter's drive end be connected with mounting guide rail, every backup pad all is connected with the side that mounting guide rail is close, every first socket's the other end all is provided with a slot, the slot is used for accepting the head of electric putter flexible end, the notch of every slot all with electric putter's flexible end looks adaptation. All transversely run through in every connector and be provided with a third socket, third socket is used for laminating mutually with first socket, and then makes first socket and third socket corresponding intercommunication after making the connector insert the second socket, every connector and its coaxial second socket looks adaptation, and third socket all looks adaptation with first socket. The bottom of each connector is provided with an internal thread cylinder, the internal thread cylinder is used for enabling the connector to be connected with an external thread tube, the internal thread cylinder is also used for installing a buffer cushion and a cage positioner, the bottom of the internal thread cylinder is provided with an external thread tube, the external thread tube is used for enabling the connecting rod to be connected with the internal thread cylinder, and the internal thread cylinder is in threaded fit with the external thread tube. Each external threa