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CN-224211279-U - Unmanned aerial vehicle photoelectric pod

CN224211279UCN 224211279 UCN224211279 UCN 224211279UCN-224211279-U

Abstract

The utility model relates to an unmanned aerial vehicle photoelectric pod, belongs to the technical field of unmanned aerial vehicle equipment, and in particular relates to an unmanned aerial vehicle photoelectric pod. The utility model achieves the effects of adapting unmanned aerial vehicles with different specifications, stably installing the nacelle platform and flexibly adjusting the lens acquisition angle, solves the problems that the conventional unmanned aerial vehicle photoelectric nacelle is difficult to adapt to the specifications of different unmanned aerial vehicles, is unstable to install and is limited in lens acquisition, and has simple structure and strong practicability.

Inventors

  • XU XIAOCHUAN
  • PENG GUOQING

Assignees

  • 内蒙古建筑职业技术学院

Dates

Publication Date
20260508
Application Date
20250527

Claims (6)

  1. 1. The unmanned aerial vehicle photoelectric pod comprises an unmanned aerial vehicle body (1) and two unmanned aerial vehicle supporting legs (2) which are fixed at the bottom of the unmanned aerial vehicle body (1) and are arranged in parallel, and is characterized by further comprising; The nacelle platform is arranged between two unmanned plane support legs (2) at the bottom of the unmanned plane body (1); The nacelle platform comprises an I-shaped nacelle platform body (3), the nacelle platform body (3) is detachably and fixedly arranged at the bottom of the unmanned aerial vehicle body (1), a fixing bolt (301) connected with a shell at the bottom of the unmanned aerial vehicle body (1) is arranged at the top of the nacelle platform body (3), hollowed-out areas (302) communicated with the interior of the nacelle platform body (3) are formed in four side wall surfaces of the middle vertical section of the nacelle platform body (3), and a lens acquisition module is arranged in the nacelle platform body (3); At least two sets of accomodate regulation recess (303) have been seted up to the bilateral symmetry of nacelle platform body (3), and every accomodates regulation recess (303) inside and all is provided with the spacing claw part that is used for centre gripping adjacent unmanned aerial vehicle supporting leg (2) one end, accomodates the inside of regulation recess (303) and still is provided with the spring assembly that is used for adjusting the horizontal telescopic displacement of spacing claw part.
  2. 2. The unmanned aerial vehicle optoelectronic pod of claim 1, wherein the limiting claw component comprises an L-shaped fixed claw (4), a clamping groove (401) capable of being fastened and fixed on the unmanned aerial vehicle supporting leg (2) is formed in the bottom of one end of the fixed claw (4), the other end of the fixed claw (4) extends into the corresponding storage adjusting groove (303), the spring component comprises a connecting ring (6) fixed on the inner bottom surface of the storage adjusting groove (303), one end of a hook (601) is hooked on the connecting ring (6), one end of a spring column (602) is hooked on the other end of the hook (601), and the other end of the spring column (602) is fixedly connected with the fixed claw (4) extending into the storage adjusting groove (303).
  3. 3. An unmanned aerial vehicle optoelectronic pod according to claim 1, wherein the lens acquisition module comprises a camera body (5) arranged inside the pod stage body (3).
  4. 4. The unmanned aerial vehicle photoelectric pod of claim 3, wherein the bottom of the inner vertical section of the pod platform body (3) is fixedly provided with a motor (501), and the output end of the motor (501) is fixedly connected with the bottom shell of the camera body (5).
  5. 5. An unmanned aerial vehicle optoelectronic pod according to claim 2, wherein the cross-sectional size of the fixing claw (4) is adapted to the internal cross-sectional size of the receiving adjustment recess (303).
  6. 6. A drone optoelectronic pod according to claim 5, characterized in that the bottom of the drone support leg (2) is flush with the bottom of the pod stage body (3).

Description

Unmanned aerial vehicle photoelectric pod Technical Field The utility model relates to the technical field of unmanned aerial vehicle equipment, in particular to an unmanned aerial vehicle photoelectric pod. Background The unmanned aerial vehicle photoelectric pod is widely applied to the fields of aviation shooting, environment monitoring, inspection and the like, and realizes image acquisition and data acquisition of a target area through equipment such as a carried camera and the like. In practical applications of unmanned aerial vehicle optoelectronic pods, the pod needs to be stably mounted on the unmanned aerial vehicle. Through retrieving, the chinese patent of bulletin number CN220281708U, the utility model discloses an unmanned aerial vehicle photoelectric pod, relate to unmanned aerial vehicle technical field, including the pod main part, the top of pod main part is provided with the unmanned aerial vehicle main part, can dismantle through fixing device between unmanned aerial vehicle main part and the pod main part and be connected, the bottom through aiming at the mounting panel with the block of pod main part upper end is provided with the movable slot of T shape, and the size laminating of block and movable slot, promote the block to the inside of fly leaf, when the block gets into the inside of fly leaf completely, then can move the fly leaf down to the spacing inslot that the pod main part top set up, realize spacing to the block, release the movable slot on the mounting panel again with the block of pod main part top, then separate between pod main part and the mounting panel, the device makes when the installation, only need with the block between and the mounting panel separate, through the fly leaf to the both ends of block fixed can, and is simple structure, easy operation, convenient subsequent maintenance and installation. Above-mentioned current unmanned aerial vehicle photoelectricity nacelle mounting structure often only can adapt to the unmanned aerial vehicle of specific specification, when unmanned aerial vehicle supporting leg interval is different, is difficult to effectively install fixedly. And the situation of unstable structure is easy to appear after installation. Specifically, the prior art adopts a plug-in matching mode of a T-shaped movable groove and a clamping block, and the quick assembly disassembly function is realized, but a continuous and effective pressing mechanism is lacked. In the unmanned aerial vehicle flight process, because of the effect of mechanical vibration and airflow impact, simple grafting structure produces the clearance easily, leads to appearing relative displacement between nacelle main part and the unmanned aerial vehicle main part, and then influences stability. The problems of poor suitability and unstable installation not only affect the use effect of the unmanned aerial vehicle photoelectric pod, but also can cause the pod to shake or even fall off in the flight process, and potential safety hazards exist. Disclosure of utility model In order to solve the technical problems, the utility model provides an unmanned aerial vehicle photoelectric pod, which is connected with an unmanned aerial vehicle body through a fixing bolt, wherein both sides of the unmanned aerial vehicle photoelectric pod are provided with a telescopic adjusting limiting claw part and a spring assembly, the side wall of the middle vertical end is provided with a hollow area, and a lens acquisition module is arranged in the hollow area, and the unmanned aerial vehicle photoelectric pod has the effects of adapting to unmanned aerial vehicles with different specifications, stably installing pod platforms and flexibly adjusting the lens acquisition angle. The technical scheme for realizing the purpose of the utility model is that the unmanned aerial vehicle photoelectric pod comprises an unmanned aerial vehicle body, two unmanned aerial vehicle supporting legs which are arranged in parallel and fixed at the bottom of the unmanned aerial vehicle body, and also comprises a plurality of unmanned aerial vehicle supporting legs; The nacelle platform is arranged between two unmanned aerial vehicle supporting legs at the bottom of the unmanned aerial vehicle body; The nacelle platform comprises an I-shaped nacelle platform body, a fixing bolt is arranged at the top of the nacelle platform body and is in threaded connection with the bottom shell of the unmanned aerial vehicle body, hollow areas which are communicated with the interior of the nacelle platform body are formed in four side wall surfaces of the middle vertical end of the nacelle platform body, and a lens acquisition module is arranged in the nacelle platform body; At least two sets of accommodating and adjusting grooves are symmetrically formed in two sides of the nacelle platform body, limiting jaw components used for clamping one end of each supporting leg of the adjacent unmanned aerial vehicle are arranged in each