A drone motor installation tool
By designing a drone motor installation tool with a rotatable clamp and fixing components, the problem of traditional clamps being unable to flexibly adjust the angle has been solved, improving motor installation efficiency and stability, and enhancing the flight performance of the drone.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENYANG YUANSHAN TECHNOLOGY CO LTD
- Filing Date
- 2025-10-11
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional drone motor mounting fixtures are fixed structures that cannot be flexibly adjusted in angle. This causes operators to encounter problems such as obstructed vision and limited operating space when installing motors in different positions, increasing the complexity of the operation and reducing installation efficiency.
A drone motor installation tool was designed, which includes a rotating clamp and a fixing component. The rotatable rotating clamp, composed of a rotating plate, a rotating shaft, a support tube, a pressure ring, and fixing bolts, combined with a support roller and fixing teeth, enables flexible adjustment and stable fixing of the motor angle during installation.
This improved the efficiency and stability of motor installation, ensuring the flight stability and power output efficiency of the drone, reducing frictional resistance, and enhancing the ease of operation and installation quality.
Smart Images

Figure CN224464573U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of drone motor installation technology, and in particular to a drone motor installation tool. Background Technology
[0002] In the manufacturing process of drones, the motor, as the core component providing power, directly affects the drone's flight stability, power output efficiency, and service life through its installation precision. Drones typically require the installation of motors in multiple symmetrical or specific locations on the fuselage or arms. For example, the end of the arms of a multi-rotor drone generally requires the installation of 4, 6, or 8 motors, and the installation angle and positional deviation of each motor must be strictly controlled within the design range to ensure force balance during flight.
[0003] To ensure the accuracy and stability of motor installation, the industry commonly uses mounting fixtures to secure the drone body to which the motor needs to be installed during the production process. However, traditional drone motor mounting fixtures are mostly fixed structures, meaning the fixture body and the mounting platform remain relatively fixed, unable to flexibly adjust the angle according to actual installation needs. This fixed structure has significant limitations in actual operation: when operators need to install motors at different locations on the drone (e.g., different arms), they often encounter problems such as obstructed vision and limited operating space. To avoid these obstacles, operators often need to frequently disassemble and reassemble the drone body to adjust its position, or constantly move their own stance to find a suitable operating angle. This increases the complexity of the operation and reduces the efficiency of installing the drone motor onto the drone body. Utility Model Content
[0004] The main objective of this invention is to provide a drone motor installation tool that can effectively solve the problems in the background art.
[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:
[0006] A drone motor mounting tool includes a mounting bracket. Several support rollers are rotatably mounted in a ring on the upper sidewall of the mounting bracket. A rotating clamp is rotatably mounted on the upper sidewall and the support rollers. The rotating clamp consists of a rotating plate, a rotating shaft, an anti-detachment plate, a support tube, a pressure ring, and fixing bolts. The rotating shaft is fixedly mounted at the lower end of the rotating plate, the anti-detachment plate is fixedly mounted at the lower end of the rotating shaft, the support tube is fixedly mounted at the upper end of the rotating plate, and the pressure ring is fixedly mounted at the upper end of the support tube by fixing bolts. A fixing assembly is fixedly mounted on the upper end of the upper sidewall of the mounting bracket and on one side of the rotating clamp. The fixing assembly consists of a fixing plate, guide rods, springs, a movable plate, fixing teeth, and baffles. The movable plate is movably mounted inside the fixing plate. Two guide rods are symmetrically fixedly mounted on the outer ends of the movable plate. Two springs are respectively sleeved on the two guide rods. Two baffles are respectively fixedly mounted on the outer ends of the two guide rods. The fixing teeth are fixedly mounted on the inner end of the movable plate.
[0007] Preferably, the upper end of the upper side wall of the mounting bracket is provided with a plurality of roller grooves in an annular shape, and a shaft hole is provided on the upper side wall of the mounting bracket between the plurality of roller grooves, the shaft hole penetrating the upper side wall of the mounting bracket vertically.
[0008] Preferably, the rotating plate on the rotating clamp is located above the mounting bracket, the lower end of the rotating plate is provided with an annular groove, the rotating shaft is rotatably installed in the shaft hole, the anti-detachment plate is located below the upper side wall of the mounting bracket, the outer wall of the rotating plate is provided with a number of locking grooves, and the upper end of the support tube and the lower end of the pressure ring are symmetrically provided with four arc-shaped grooves.
[0009] Preferably, the support roller is rotatably mounted in the roller groove, and the support roller is simultaneously located in the annular groove opened at the lower end of the rotating plate.
[0010] Preferably, the fixing plate on the fixing assembly is fixedly installed on the upper end of the mounting bracket. Two through holes are symmetrically opened on the fixing plate. The guide rod is slidably installed in the through holes. The spring is located on the inner side of the fixing plate. The baffle is located on the outer side of the fixing plate. The fixing teeth are inserted into the tooth grooves opened on the outer wall of the rotating plate.
[0011] Compared with the prior art, the present invention has the following beneficial effects:
[0012] By installing a rotatable clamp on the mounting bracket, consisting of a rotating plate, a rotating shaft, an anti-detachment plate, a support tube, a pressure ring, and fixing bolts, the angle of the drone body can be flexibly adjusted according to actual needs during motor installation. This avoids the problem of operators frequently disassembling and assembling the drone body or moving their own position due to obstructed vision or limited operating space, thus improving motor installation efficiency. The support rollers on the mounting bracket provide stable support for the rotating plate, reducing frictional resistance during clamp rotation and ensuring smooth rotation, making clamp rotation less strenuous. The fixing assembly on the mounting bracket, consisting of a fixed plate, guide rod, spring, moving plate, fixing teeth, and baffle, along with the tooth grooves, allows for quick fixing of the clamp after adjustment to the appropriate angle. This prevents accidental rotation of the clamp during motor installation on the drone body, ensuring the stability and accuracy of motor installation, improving installation quality, and ultimately contributing to ensuring the drone's flight stability, power output efficiency, and service life. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0014] Figure 2 This is a schematic diagram of the mounting bracket and support roller of this utility model;
[0015] Figure 3 This is a schematic diagram showing the positional relationship between the support roller and the rotating clamp of this utility model;
[0016] Figure 4 This is an exploded view of the rotary clamp of this utility model;
[0017] Figure 5 This is a structural schematic diagram of the fixing component of this utility model.
[0018] In the diagram: 1. Mounting bracket; 2. Support roller; 3. Rotating clamp; 4. Fixing assembly; 5. Roller groove; 6. Shaft hole; 7. Rotating plate; 8. Annular groove; 9. Rotating shaft; 10. Anti-detachment plate; 11. Gear groove; 12. Support tube; 13. Pressure ring; 14. Fixing bolt; 15. Fixing plate; 16. Through hole; 17. Guide rod; 18. Spring; 19. Moving plate; 20. Fixing gear. Detailed Implementation
[0019] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0020] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 As shown, a drone motor mounting tool includes a mounting bracket 1. Several support rollers 2 are rotatably mounted in a ring on the upper side wall of the mounting bracket 1. A rotating clamp 3 is rotatably mounted on the upper side wall of the mounting bracket 1 and the support rollers 2. The rotating clamp 3 consists of a rotating plate 7, a rotating shaft 9, an anti-detachment plate 10, a support tube 12, a pressure ring 13, and fixing bolts 14. The rotating shaft 9 is fixedly mounted on the lower end of the rotating plate 7, the anti-detachment plate 10 is fixedly mounted on the lower end of the rotating shaft 9, the support tube 12 is fixedly mounted on the upper end of the rotating plate 7, and the pressure ring 13 is fixedly mounted by the fixing bolts 14. A fixing assembly 4 is fixedly installed on the upper end of the support tube 12, on the upper side wall of the mounting bracket 1, and on one side of the rotating clamp 3. The fixing assembly 4 consists of a fixing plate 15, guide rods 17, springs 18, a movable plate 19, fixing teeth 20, and baffles 21. The movable plate 19 is movably installed inside the fixing plate 15. There are two guide rods 17, which are symmetrically fixedly installed on the outer ends of the movable plate 19. There are two springs 18, which are respectively sleeved on the two guide rods 17. There are two baffles 21, which are respectively fixedly installed on the outer ends of the two guide rods 17. The fixing teeth 20 are fixedly installed on the movable plate 19. At the inner end of 9, a rotatable rotating clamp 3, consisting of a rotating plate 7, a rotating shaft 9, an anti-detachment plate 10, a support tube 12, a pressure ring 13, and fixing bolts 14, is installed on the mounting bracket 1. This allows the drone body to flexibly adjust its angle according to actual needs during motor installation, avoiding the problem of operators frequently disassembling and assembling the drone body or moving their own position due to obstructed vision or limited operating space, thus improving motor installation efficiency. Furthermore, by installing support rollers 2 on the mounting bracket 1, stable support is provided for the rotating plate 7, reducing frictional resistance during the rotation of the rotating clamp 3 and ensuring... To ensure smooth rotation, the rotating clamp 3 rotates with less effort. By setting a fixing assembly 4 on the mounting bracket 1, consisting of a fixing plate 15, a guide rod 17, a spring 18, a moving plate 19, a fixing tooth 20, and a baffle 21, and in conjunction with the tooth groove 11, the rotating clamp 3 can be quickly fixed after being adjusted to a suitable angle. This prevents the rotating clamp 3 from rotating unexpectedly during the installation of the motor onto the UAV body, ensuring the stability and accuracy of the motor installation, improving the installation quality, and thus helping to ensure the flight stability, power output efficiency, and service life of the UAV.
[0021] Specifically, the upper end of the upper sidewall of the mounting bracket 1 is provided with several roller grooves 5 in an annular shape. A shaft hole 6 is provided on the upper sidewall of the mounting bracket 1 between the roller grooves 5, and the shaft hole 6 passes through the upper sidewall of the mounting bracket 1 vertically. The rotating plate 7 on the rotating clamp 3 is located above the mounting bracket 1. The lower end of the rotating plate 7 is provided with an annular groove 8. The rotating shaft 9 is rotatably installed in the shaft hole 6. The anti-detachment plate 10 is located below the upper sidewall of the mounting bracket 1. Several toothed grooves 11 are provided on the outer wall of the rotating plate 7. The upper end of the support tube 12 and the lower end of the pressure ring 13 are symmetrically provided with four arc-shaped grooves. The support roller 2 is rotatably installed in the roller groove 5. The support roller 2 is also located in the annular groove 8 opened at the lower end of the rotating plate 7. The fixing plate 15 on the fixing assembly 4 is fixedly installed on the upper sidewall of the mounting bracket 1. At one end, two through holes 16 are symmetrically opened on the fixed plate 15. The guide rod 17 is slidably installed in the through holes 16. The spring 18 is located on the inner side of the fixed plate 15, and the baffle 21 is located on the outer side of the fixed plate 15. The fixing teeth 20 are inserted into the tooth grooves 11 opened on the outer wall of the rotating plate 7. The shape of the fixing teeth 20 is adapted to the shape of the tooth grooves 11. The tooth shape of the fixing teeth 20 is completely matched with the tooth shape of the tooth grooves 11, ensuring that the fixing teeth 20 can fit tightly with the tooth grooves 11 after insertion. Thus, the rotating plate 7 is effectively fixed through the meshing of the two, preventing the rotating plate 7 from rotating accidentally during the motor installation process. At the same time, this matching relationship also ensures that when the angle of the rotating plate 7 needs to be adjusted, the fixing teeth 20 can be smoothly disengaged from the tooth grooves 11 without affecting the rotation adjustment of the rotating plate 7.
[0022] When installing the drone motor onto the drone body, first place the drone body on the upper end of the support tube 12, and then use the fixing bolts 14 to press the pressure ring 13 onto the drone arm, so that the drone arm is in the arc groove on the support tube 12 and the pressure ring 13, thereby firmly fixing the drone body onto the rotating clamp 3. When it is necessary to rotate and adjust the drone body fixed on the rotating clamp 3 according to the motor installation requirements, first pull the guide rod 17, the moving plate 19, the fixing tooth 20 and the baffle 21 outward. At this time, the moving plate 19 will compress the spring 18, and the fixing tooth 20 will disengage from the tooth groove 11 opened on the outer wall of the rotating plate 7, thereby releasing the fixation of the rotating plate 7 on the rotating clamp 3. Then, rotate the rotating clamp 3 according to the motor installation position requirements. At this time, the rotating shaft 9 on the rotating clamp 3 will rotate in the shaft hole 6 of the mounting bracket 1, and at the same time rotate... Plate 7 will rotate on support roller 2. Due to this friction, support roller 2 will rotate within roller groove 5 to assist plate 7 in rotating smoothly. When the drone body on the rotating fixture 3 is adjusted to the appropriate angle, release baffle 21. At this time, spring 18 will reset and push moving plate 19 to move inward. Moving plate 19 will drive fixed tooth 20 to insert into the corresponding tooth groove 11 on the outer wall of rotating plate 7, thereby fixing rotating fixture 3. At this time, the operator can install motors on the drone body. After installation, pull baffle 21 outward again to disengage fixed tooth 20 from tooth groove 11. Then rotate rotating fixture 3 to adjust rotating plate 7 to the next motor installation position and fix it. Repeat the above installation steps until all motors are installed. Finally, unscrew fixing bolt 14, remove pressure ring 13, and remove drone body with motor installed from support tube 12.
[0023] Obviously, the above embodiments are merely illustrative examples for clear explanation and are not intended to limit the implementation. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations here. However, obvious variations or modifications derived therefrom are still within the protection scope of this invention.
Claims
1. A tool for installing a drone motor, comprising a mounting bracket (1), characterized in that: The mounting bracket (1) has several support rollers (2) rotatably mounted in a ring on its upper side wall. A rotating clamp (3) is rotatably mounted on the upper side wall of the mounting bracket (1) and the several support rollers (2). The rotating clamp (3) consists of a rotating plate (7), a rotating shaft (9), an anti-detachment plate (10), a support tube (12), a pressure ring (13), and fixing bolts (14). The rotating shaft (9) is fixedly mounted on the lower end of the rotating plate (7), the anti-detachment plate (10) is fixedly mounted on the lower end of the rotating shaft (9), the support tube (12) is fixedly mounted on the upper end of the rotating plate (7), and the pressure ring (13) is fixedly mounted on the upper end of the support tube (12) by fixing bolts (14). A fixing component (4) is fixedly installed on the upper end of the upper side wall of the mounting bracket (1) and on one side of the rotating clamp (3). The fixing component (4) consists of a fixing plate (15), a guide rod (17), a spring (18), a moving plate (19), a fixing tooth (20), and a baffle (21). The moving plate (19) is movably installed on the inner side of the fixing plate (15). There are two guide rods (17) and they are symmetrically fixedly installed on the outer end of the moving plate (19). There are two springs (18) and they are respectively sleeved on the two guide rods (17). There are two baffles (21) and they are respectively fixedly installed on the outer end of the two guide rods (17). The fixing tooth (20) is fixedly installed on the inner end of the moving plate (19).
2. The UAV motor installation tool according to claim 1, characterized in that: The upper end of the upper side wall of the mounting bracket (1) is provided with a number of roller grooves (5) in an annular shape. A shaft hole (6) is provided on the upper side wall of the mounting bracket (1) and between the roller grooves (5). The shaft hole (6) passes through the upper side wall of the mounting bracket (1) from top to bottom.
3. The UAV motor installation tool according to claim 2, characterized in that: The rotating plate (7) on the rotating clamp (3) is located above the mounting bracket (1). The lower end of the rotating plate (7) is provided with an annular groove (8). The rotating shaft (9) is rotatably installed in the shaft hole (6). The anti-detachment plate (10) is located below the upper side wall of the mounting bracket (1). Several toothed grooves (11) are provided on the outer wall of the rotating plate (7). The upper end of the support tube (12) and the lower end of the pressure ring (13) are symmetrically provided with four arc-shaped grooves.
4. The UAV motor installation tool according to claim 3, characterized in that: The support roller (2) is rotatably installed in the roller groove (5), and the support roller (2) is simultaneously located in the annular groove (8) opened at the lower end of the rotating plate (7).
5. The UAV motor mounting tool according to claim 4, characterized in that: The fixing plate (15) on the fixing component (4) is fixedly installed on the upper end of the mounting bracket (1). Two through holes (16) are symmetrically opened on the fixing plate (15). The guide rod (17) is slidably installed in the through hole (16). The spring (18) is located on the inner side of the fixing plate (15). The baffle (21) is located on the outer side of the fixing plate (15). The fixing tooth (20) is inserted into the tooth groove (11) opened on the outer wall of the rotating plate (7).