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CN-224211278-U - Unmanned aerial vehicle camera package assembly

CN224211278UCN 224211278 UCN224211278 UCN 224211278UCN-224211278-U

Abstract

The utility model discloses an unmanned aerial vehicle camera assembly structure, which belongs to the technical field of unmanned aerial vehicles and comprises an unmanned aerial vehicle body, wherein a camera bracket is arranged at the front end of the unmanned aerial vehicle body, a mounting seat is arranged on the camera bracket, the camera body is fixedly connected to the side wall of the mounting seat through an assembly mechanism, the arranged assembly mechanism presses a pressing rod which is arranged on the outer wall of the connecting seat and protrudes, so that the pressing rod pushes a movable plate which is vertically symmetrical to perform relative movement operation along a fixed rod through a connecting hole, after forcing a spring to perform shrinkage operation, the positioning block is arranged in a positioning groove, the pressing force on the pressing rod is released, after the spring performs elastic recovery extension operation, the movable plates at two ends are pushed to move oppositely until a limiting block penetrates through a limiting opening and then is inserted into a socket, and therefore, the camera body and the mounting seat on the camera bracket can be fixedly arranged on the unmanned aerial vehicle body, and the camera body can be assembled on the unmanned aerial vehicle body for use, and convenience is brought to the assembly and disassembly of the unmanned aerial vehicle camera.

Inventors

  • XIE YAXIONG

Assignees

  • 武汉鸿翼煜风科技有限公司

Dates

Publication Date
20260508
Application Date
20250516

Claims (6)

  1. 1. The unmanned aerial vehicle camera packaging structure comprises an unmanned aerial vehicle body (1), wherein a camera support (2) is arranged at the front end of the unmanned aerial vehicle body (1), and a mounting seat (3) is arranged on the camera support (2), and the unmanned aerial vehicle camera packaging structure is characterized in that a camera body (4) is fixedly connected to the side wall of the mounting seat (3) through an assembly mechanism (5), the assembly mechanism (5) comprises a connecting seat (9), a fixing rod (14), a spring (15), a movable plate (16) and a limiting block (18), the connecting seat (9) is fixedly connected to the side wall of the camera body (4), the fixing rod (14) is fixedly connected to the inside of the connecting seat (9), the spring (15) is sleeved outside the fixing rod (14), the movable plate (16) is fixedly connected to the two ends of the spring (15), and the limiting block (18) is fixedly connected to the outer side wall of the movable plate (16).
  2. 2. The unmanned aerial vehicle camera assembly structure of claim 1, wherein a group of symmetrical positioning grooves (6) are formed in the outer wall of the mounting seat (3).
  3. 3. The unmanned aerial vehicle camera assembly structure of claim 2, wherein the left side wall of the mounting seat (3) is provided with a vertical movable groove (7), and the upper end wall and the lower end wall of the inside of the vertical movable groove (7) are respectively provided with a limiting opening (8) communicated with the positioning groove (6).
  4. 4. The unmanned aerial vehicle camera assembly structure of claim 3, wherein the right side wall of the camera body (4) is fixedly provided with a connecting seat (9), the right side wall of the connecting seat (9) is fixedly provided with a group of locating blocks (10) which are vertically symmetrical and correspond to the locating grooves (6), and the top surface of the locating block (10) is also provided with a socket (11) which corresponds to the limiting opening (8).
  5. 5. The unmanned aerial vehicle camera assembly structure of claim 4, wherein the right side wall of the connecting seat (9) is provided with a vertical through groove (12) corresponding to the vertical movable groove (7), and the outer wall of the connecting seat (9) is also provided with a group of movable holes (13) which are vertically symmetrical and are communicated with the vertical through groove (12).
  6. 6. The unmanned aerial vehicle camera assembly structure of claim 5, wherein the fixed rod (14) is fixedly installed in a groove of the vertical through groove (12), a spring (15) is sleeved on a rod body of the fixed rod (14), movable plates (16) are fixedly installed at the upper end and the lower end of the spring (15) respectively, a connecting hole (17) is formed in the top surface of the movable plate (16) and is movably installed with the fixed rod (14) through the connecting hole (17), limiting blocks (18) are fixedly installed at right side parts of opposite surface walls of the movable plate (16) which are vertically symmetrical respectively, the limiting blocks (18) penetrate through limiting openings (8) and are inserted into insertion holes (11), compression rods (19) are fixedly installed at left side parts of the opposite surface walls of the movable plate (16) which are vertically symmetrical respectively, and the compression rods (19) penetrate through the movable holes (13).

Description

Unmanned aerial vehicle camera package assembly Technical Field The utility model relates to the technical field of unmanned aerial vehicles, in particular to an unmanned aerial vehicle camera assembly structure. Background Unmanned aerial vehicle, which is a fully-known unmanned aerial vehicle, is an unmanned aerial vehicle that is operated by a radio remote control device and a self-contained program control device, or is operated autonomously, either entirely or intermittently, by an on-board computer. From the appearance, the rotor has various forms, and a multi-rotor type, such as four rotors, six rotors and the like, and a fixed-wing type, a helicopter type and the like are common. The fuselage is usually made of lightweight and high-strength materials to reduce weight and ensure structural strength. Unmanned aerial vehicles are equipped with various types of sensors, like barometers for sensing altitude, GPS modules for determining position, etc., which provide critical data support for their flight. In terms of power, electric motors or fuel engines are often used to drive propellers or rotors to effect flight. In the prior art, in practical application, unmanned aerial vehicles are often used in various fields such as aerial photography and recording, mapping and geographic information acquisition, agricultural monitoring, security and monitoring, industrial inspection, scientific research, and the like. In these tasks, it is often necessary to load the camera on the drone and a stand is often provided to assist in the installation. However, the existing unmanned aerial vehicle camera assembly mode has certain limitations. Common assembly modes such as screw fixation and adhesive fixation, when screw fixation is adopted, the screw fixation is carried out by means of auxiliary tools such as screwdrivers, the operation process is relatively complicated, and particularly in the case of some space limitation or emergency installation, the auxiliary tools are used to bring a plurality of inconveniences. The gluing mode is simple and convenient in assembly, and can be completed without complex tools, but when the camera is required to be dismounted, maintained or replaced later, the dismounting work becomes extremely difficult due to the gluing firmness, and even the unmanned aerial vehicle body or the camera can be damaged, so that the cost is increased and the working efficiency is reduced. Therefore, the existing assembly modes bring inconvenience to the assembly and disassembly of the unmanned aerial vehicle camera. Disclosure of utility model The utility model mainly aims to provide an unmanned aerial vehicle camera assembly structure which can effectively solve the problems in the background technology. In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: The utility model provides an unmanned aerial vehicle camera package assembly, includes the unmanned aerial vehicle body, the front end of unmanned aerial vehicle body is equipped with the camera support, and is equipped with the mount pad on the camera support, through equipment mechanism fixedly connected with camera body on the lateral wall of mount pad, and equipment mechanism includes connecting seat, dead lever, spring, fly leaf and stopper, connecting seat fixed connection is on the lateral wall of camera body, and dead lever fixed connection is in the inside of connecting seat, the outside at the dead lever is established to the spring housing, and fly leaf fixed connection is at the both ends of spring, still fixedly connected with stopper on the lateral wall of fly leaf. Further, a group of symmetrical positioning grooves are formed in the outer wall of the mounting seat. Further, a vertical movable groove is formed in the left side wall of the mounting seat, and limiting openings communicated with the positioning grooves are formed in the upper end wall and the lower end wall of the inside of the vertical movable groove respectively. Further, a connecting seat is fixedly installed on the right side wall of the camera body, a group of locating blocks which are vertically symmetrical and correspond to the locating grooves are fixedly installed on the right side wall of the connecting seat, and a socket which corresponds to the limiting opening is further formed in the top surface of each locating block. Further, a vertical through groove corresponding to the vertical movable groove is formed in the right side wall of the connecting seat, and a group of movable holes which are vertically symmetrical and communicated with the vertical through groove are formed in the outer wall of the connecting seat. Further, dead lever fixed mounting is in the inslot of vertical logical groove, and the cover is equipped with the spring on the pole body of dead lever, the upper and lower both ends of spring are fixed mounting respectively has the fly leaf, and the connecting hole has been seted up to the t