Unmanned aerial vehicle multi-mounting throwing support

By designing a multi-mounted throwing bracket for drones, the problem of insufficient throwing capacity of existing drone mounting units was solved, achieving the effect of multiple mounts that can be released individually, thus improving the carrying and throwing efficiency of drones.

CN224375883UActive Publication Date: 2026-06-19SHANDONG DONGYUN ELECTRONIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG DONGYUN ELECTRONIC TECH CO LTD
Filing Date
2025-07-04
Publication Date
2026-06-19

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Abstract

This utility model provides a multi-mount throwing bracket for drones, mainly relating to the field of drone mounting. The multi-mount throwing bracket includes a mounting arm with a connecting structure at the top and a mounting plate at the bottom. Several upper connectors are evenly arranged circumferentially on the bottom of the mounting plate. Mounting units are detachably mounted on the upper connectors, and each mounting unit has a lower connector detachably connected to the upper connectors. The advantages of this utility model are: it can fully utilize the drone's mounting space, achieve centralized placement of multiple drone mounts, and allow for the release of mounted items one by one, greatly improving the drone's long-range throwing capability and efficiency.
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Description

Technical Field

[0001] This utility model mainly relates to the field of drone mounting, specifically a drone multi-mount throwing bracket. Background Technology

[0002] Adding payloads to drones for long-range delivery can enhance their civilian cargo transport or military strike capabilities beyond observation and photography. Currently, drone payload units are mostly single or parallel designs, resulting in low delivery capacity and an inability to individually deliver multiple payloads. This poor performance fails to meet the multi-payload requirements of drones in both civilian and military applications, as well as the need for individual payload delivery. Utility Model Content

[0003] To address the shortcomings of existing technologies, this utility model provides a multi-mount throwing bracket for drones. It can make full use of the drone's mounting space, realize the centralized placement of multiple drone mounts, and release the mounted items one by one, thereby greatly improving the drone's long-range throwing capability and throwing efficiency.

[0004] To achieve the above objectives, this utility model employs the following technical solution:

[0005] A multi-mount throwing support for a drone includes a mounting arm with a connecting structure at the top and a mounting plate at the bottom. Several upper connectors are evenly arranged around the bottom of the mounting plate. Mounting units are detachably mounted on the upper connectors, and the mounting units have lower connectors that are detachably connected to the upper connectors.

[0006] The mounting arm includes an upper arm and a sliding arm. The upper arm has a slide rail, and the sliding arm slides in conjunction with the slide rail. The sliding arm and the upper arm are fastened together by bolts.

[0007] A mounting unit can be detachably installed at the center of the bottom of the mounting plate.

[0008] Of the upper connectors arranged in a circular array on the mounting plate, one upper connector is omitted at the location corresponding to the front side of the UAV.

[0009] Of the upper connectors arranged in a circular array on the mounting plate, one upper connector is omitted at the location corresponding to the rear side of the UAV.

[0010] The upper connector is a slot, and the lower connector is a snap fastener. The connection of the mounting unit is achieved through the sliding engagement of the slot and the snap fastener.

[0011] The upper connector is fixed to the lower connector by a fastening bolt.

[0012] The mounting unit has 2-6 units.

[0013] Compared with the existing technology, the beneficial effects of this utility model are:

[0014] This utility model has a simple structure and compact layout. It makes full use of the space below the drone and can realize multiple arrangements of the mounting units, thereby improving the carrying capacity of the drone.

[0015] The mounting unit of this utility model has a simple connection with the mounting plate and a stable structure. It can achieve rapid installation and disassembly while ensuring a stable load, thus improving assembly and maintenance in specific environments.

[0016] Each mounting unit of this invention is an independent unit, which can be released individually under centralized mounting, thus improving the flexibility of drone deployment. Attached Figure Description

[0017] Appendix Figure 1 This is a first-dimensional structural schematic diagram of the present invention;

[0018] Appendix Figure 2 This is a schematic diagram of the second stereoscopic view of the present invention;

[0019] Appendix Figure 3 This is a schematic diagram of the main structure of this utility model;

[0020] Appendix Figure 4 This is a top view of the structure of this utility model;

[0021] The reference numerals in the attached diagram are: 1. Mounting arm; 2. Mounting plate; 3. Mounting unit; 11. Connecting structure; 12. Upper arm; 13. Sliding arm; 21. Upper connector; 31. Lower connector. Detailed Implementation

[0022] The present invention will be further described in conjunction with the accompanying drawings and specific embodiments. It should be understood that these embodiments are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that after reading the teachings of this invention, those skilled in the art can make various alterations or modifications to the present invention, and these equivalent forms also fall within the scope defined in this application.

[0023] like Figure 1-4 As shown, the multi-mount throwing bracket for drones according to this utility model includes a mounting arm 1. The mounting arm 1 has a connecting structure 11 at its top. The mounting arm 1 cooperates with a mounting component pre-installed on the bottom of the drone through the connecting structure 11 to achieve the connection between the mounting arm 1 and the drone. In this embodiment, the connecting structure 11 consists of multiple connecting ears evenly arranged on the top of the mounting arm 1. By tightening bolts, the mounting arm 1 can be stably connected to the bottom of the drone.

[0024] A mounting plate 2 is provided at the bottom of the mounting arm 1. The mounting plate 2 serves as the connecting component for the mounting unit 3, enabling stable installation of the mounting unit 3 on the bottom of the drone. Several upper connectors 21 are evenly arranged circumferentially at the bottom of the mounting plate 2. The mounting unit 3 is detachably mounted on each upper connector 21, and the mounting unit 3 has a lower connector 31 that is detachably connected to the upper connectors 21. In this embodiment, the upper connector 21 is a slot, and the lower connector 31 is a snap-fit ​​that mates with the slot. Specifically, both the snap-fit ​​and the slot have a structure that is wider at the top and narrower at the bottom, thus ensuring the connection stability of the mounting unit 3 after smooth docking.

[0025] Furthermore, in order to ensure that the mounting unit 3 will not slip off due to flight after installation, corresponding pin holes or threaded holes can be opened on the upper connector 21 and the lower connector 31 in this embodiment. Therefore, after the upper connector 21 and the lower connector 31 are connected, the upper connector 21 and the lower connector 31 can be fixed by using positioning pins or positioning bolts, so that the mounting unit 3 is more stable and will not fall off or shift due to the flight of the UAV, thus ensuring the flight stability of the UAV.

[0026] Specifically, the mounting arm 1 includes an upper arm 12 and a sliding arm 13. The upper arm 12 has a slide rail, and the sliding arm 13 slides in conjunction with the slide rail. The sliding arm 13 is fastened to the upper arm 12 by bolts. The upper arm 12 or the sliding arm 13 has multiple bolt fastening points, and the heights of the multiple bolt fastening points are not consistent. With this structural design, the length of the mounting arm 1 can be adjusted according to the model of the UAV or temporary needs.

[0027] Specifically, among the upper connectors 21 arranged in a circular array on the mounting plate 2, one upper connector 21 is omitted at the location corresponding to the front side of the drone. This structure is suitable for drone models with the camera mounted on the bottom, without hindering the drone's operation. More specifically, among the upper connectors 21 arranged in a circular array on the mounting plate 2, one upper connector 21 is omitted at the location corresponding to the rear side of the drone. This structure is suitable for drone models with the altitude sensor located at the bottom rear side.

[0028] Furthermore, a mounting unit 3 is installed at the center of the bottom of the mounting tray 2. This mounting unit 3 is also detachably connected to the upper connector 21 at the center of the bottom of the mounting tray 2 via a lower connector 31. The placement of this mounting unit 3 makes full use of the bottom space of the mounting tray 2, increases the payload of the UAV, and enables the UAV to undertake higher payload and dropping tasks within its load capacity.

[0029] Specifically, 2-6 mounting units 3 can be mounted on the bottom of mounting plate 2. The number of mounting units 3 can be increased or decreased according to the payload capacity of the drone and actual needs.

[0030] This drone-mounted throwing support has a simple structure and a reasonable layout. The circumferentially arranged mounting units 3 make full use of the space under the drone, improving the overall carrying capacity and throwing efficiency. In this invention, the mounting units 3 on the throwing support are single-unit structures, each unit 3 being an independent entity. This allows for individual throwing control of each unit 3, as well as simultaneous throwing control of multiple units 3, thereby enhancing the drone's throwing capability.

Claims

1. A multi-mounted throwing support for unmanned aerial vehicles, comprising a mounting arm (1), characterized in that: The top of the mounting arm (1) has a connecting structure (11), and the bottom of the mounting arm (1) is provided with a mounting plate (2). The bottom of the mounting plate (2) is provided with several upper connectors (21) evenly arranged in a circle. The upper connectors (21) are detachably provided with mounting units (3), and the mounting units (3) are provided with lower connectors (31) that are detachably connected to the upper connectors (21).

2. The multi-mounted throwing support for a drone according to claim 1, characterized in that: The mounting arm (1) includes an upper arm (12) and a sliding arm (13). The upper arm (12) has a slide rail, and the sliding arm (13) slides in conjunction with the slide rail. The sliding arm (13) and the upper arm (12) are fastened together by bolts.

3. The multi-mounted throwing support for a drone according to claim 1, characterized in that: A mounting unit (3) can be detachably installed at the bottom center of the mounting disk (2).

4. The multi-mounted throwing support for a drone according to claim 1, characterized in that: Among the upper connectors (21) arranged in a circular array on the mounting plate (2), one upper connector (21) is omitted at the part corresponding to the front side of the UAV.

5. A multi-mounted throwing support for a drone according to claim 4, characterized in that: Among the upper connectors (21) arranged in a circular array on the mounting plate (2), one upper connector (21) is omitted at the part corresponding to the rear side of the UAV.

6. A multi-mounted throwing support for a drone according to any one of claims 1-5, characterized in that: The upper connector (21) is a slot, and the lower connector (31) is a buckle. The connection of the mounting unit (3) is achieved through the sliding cooperation of the slot and the buckle.

7. A multi-mounted throwing support for a drone according to claim 6, characterized in that: The upper connector (21) is fixed to the lower connector (31) by a fastening bolt.

8. A multi-mounted throwing support for a drone according to any one of claims 1-5, characterized in that: The mounting unit (3) has 2-6 units.