CN-224225315-U - Multi-rotor-wing multi-purpose transportation unmanned aerial vehicle

Abstract

The utility model relates to the technical field of unmanned aerial vehicle transportation, in particular to a multi-rotor-wing amphibious transportation unmanned aerial vehicle. The utility model provides a many rotor is transportation unmanned aerial vehicle that perches, includes that the interior year thing box that is equipped with holds the chamber, sets up in the four corners that holds the chamber and to the outer lift rotor that extends of this year thing box, sets up in the electronic four-wheel drive chassis of this year thing box bottom side, sets up in the installation slot of this year thing box front side, can dismantle the activity fastener of being connected and be located the control center that holds the intracavity with this installation slot. According to the utility model, the mounting slot is arranged on the object carrying box body, when corresponding external accessories such as a sensor and a camera are required to be replaced according to actual scenes, the movable buckling piece is arranged on the rear side of the external accessories, so that the movable buckling piece is buckled with the mounting slot and the communication data line is connected into the internal control center, and therefore, the quick mounting and dismounting are realized, and the standardized interface slot is also arranged on the control center, thereby facilitating the quick connection of the external accessories and realizing the operation.

Inventors

• HE ZHIWEI
• Shu Fangmei
• LIN JUNFENG
• LIAN FENGPING

Assignees

• 泉州信息工程学院

Dates

Publication Date

20260512

Application Date

20250414

Claims (10)

1. 1. The utility model provides a many rotor are transportation unmanned aerial vehicle that perches which characterized in that includes The object carrying box body is internally provided with a containing cavity; lifting rotors which are arranged at four corners of the accommodating cavity and extend out of the carrying box body; The electric four-wheel drive chassis is arranged at the bottom side of the carrying box body; The mounting slot is arranged on the front side of the carrying box body; the movable buckling piece is detachably connected with the mounting slot; The control center is positioned in the accommodating cavity and is electrically connected with the lifting rotor wing and the electric four-wheel drive chassis; The front side of the carrying box body is provided with a plurality of power supply holes, the accommodating cavity is communicated with the outside through the power supply holes, the mounting slot is arranged on the front side of the carrying box body and is attached to the outer wall of the carrying box body, the mounting slot is longitudinally provided with a sliding groove with a cross section, the upper side of the sliding groove is communicated with the outside, the lower side of the sliding groove is sealed, the rear side of the mounting slot is also provided with a communication groove, the position of the communication groove corresponds to that of the power supply hole, and the power supply hole is communicated with the sliding groove through the communication groove.
2. 2. The multi-rotor multi-purpose transportation unmanned aerial vehicle according to claim 1, wherein the movable buckling piece comprises a joint surface, buckling columns and a wire column, the cross section of the buckling columns is cross-shaped and is matched with the sliding groove, the front sides of the buckling columns are connected with the joint surface, the rear sides of the buckling columns are connected with the wire column, and the wire column is matched with the shape of the communication groove.
3. 3. The multi-rotor multi-purpose transportation unmanned aerial vehicle of claim 2, wherein the movable fastener is transversely provided with a through hole, an elastic clamping groove extends upwards from the through hole, one side of the elastic clamping groove is communicated with the through hole, and the other side of the elastic clamping groove is communicated with the outside.
4. 4. The multi-rotor, multi-dwelling transport unmanned aerial vehicle of claim 1, wherein the movable fastener and the mounting slot are both of a resilient material.
5. 5. The multi-rotor multi-purpose transportation unmanned aerial vehicle according to claim 3, further comprising an electric propeller, wherein the bottom side of the carrying box body is provided with a groove, the electric four-wheel drive chassis is provided with an opening, the position of the opening corresponds to the position of the groove, the electric propeller is clamped in the groove and extends out of the groove, and the electric propeller is electrically connected with the control center.
6. 6. The multi-rotor multi-purpose transportation unmanned aerial vehicle of claim 5, further comprising a high-definition camera and a multi-spectrum sensor, wherein the movable fastener is mounted on the back side of the high-definition camera and the multi-spectrum sensor, and the high-definition camera and the multi-spectrum sensor are detachably connected with the mounting slot through the movable fastener.
7. 7. The multi-rotor multi-purpose transportation unmanned aerial vehicle of claim 6, further comprising a power supply battery, wherein the power supply battery is located in the carrying case, and the power supply battery is electrically connected with the lifting rotor, the electric four-wheel drive chassis, the control center and the electric propeller.
8. 8. The multi-rotor, multi-dwelling transport unmanned aerial vehicle of claim 7, wherein the control center is provided with a standardized interface slot, the standardized interface slot comprising a plurality of mechanical interface slots and electrical interface slots, the standardized interface slot being electrically connected to the control center.
9. 9. The multi-rotor, multi-dwelling transport unmanned aerial vehicle of claim 8, wherein the high-definition camera, the multi-spectral sensor, and the power supply battery are each provided with a communication data line that is connected to the mechanical interface slot or the electrical interface slot on the standardized interface slot.
10. 10. The multi-rotor, multi-dwelling transportation unmanned aerial vehicle of claim 9, wherein the communication data lines of the high-definition camera and the multi-spectrum sensor are clamped into the through hole through the elastic clamping groove.

Description

Multi-rotor-wing multi-purpose transportation unmanned aerial vehicle Technical Field The utility model relates to the technical field of unmanned aerial vehicle transportation, in particular to a multi-rotor-wing multi-dwelling transportation unmanned aerial vehicle. Background With the wide application of unmanned aerial vehicle technology, the importance of unmanned aerial vehicle technology in the transportation field is increasingly highlighted. However, when the existing unmanned aerial vehicle performs different transportation tasks, customized design is often required to be performed for specific tasks, which results in insufficient universality and flexibility of the unmanned aerial vehicle. In practical application, a user needs to frequently replace the corresponding unmanned aerial vehicle according to different sea, land and air scenes, so that the cost is increased, and the working efficiency is reduced. In addition, the accessory replacement process of the existing unmanned aerial vehicle is complex, the time consumption for installation and disassembly is long, and the requirement of rapid task switching is difficult to meet. Disclosure of utility model Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model may be realized and attained by the structure particularly pointed out in the written description and the appended drawings. The utility model aims to overcome the defects and provide the multi-rotor multi-purpose transportation unmanned aerial vehicle, a plurality of lifting rotors, driving wheels and propellers are arranged on the carrying box body, so that the carrying box body realizes multi-purpose transportation, the multi-purpose transportation unmanned aerial vehicle is suitable for different transportation scenes, the carrying box body is also provided with the mounting slots, when corresponding external accessories such as a sensor and a camera are required to be replaced according to actual scenes, the rear side of the external accessory is provided with the movable buckling piece, the movable buckling piece is buckled with the mounting slots and a communication data line is connected into the internal control center, and therefore quick installation and disassembly are realized, and standardized interface slots are also arranged on the control center, so that the external accessories are convenient to quickly connect, and operation is realized. The utility model provides a multi-rotor multi-purpose transportation unmanned aerial vehicle which comprises a carrying box body, lifting rotors, an electric four-wheel drive chassis, an installation slot, a movable buckling piece and a control center, wherein the carrying box body is internally provided with a containing cavity, the lifting rotors are arranged at four corners of the containing cavity and extend out of the carrying box body, the electric four-wheel drive chassis is arranged at the bottom side of the carrying box body, the installation slot is arranged at the front side of the carrying box body, the movable buckling piece is detachably connected with the installation slot, and the control center is positioned in the containing cavity and is electrically connected with the lifting rotors and the electric four-wheel drive chassis; The front side of the carrying box body is provided with a plurality of power supply holes, the accommodating cavity is communicated with the outside through the power supply holes, the mounting slot is arranged on the front side of the carrying box body and is attached to the outer wall of the carrying box body, the mounting slot is longitudinally provided with a sliding groove with a cross section, the upper side of the sliding groove is communicated with the outside, the lower side of the sliding groove is sealed, the rear side of the mounting slot is also provided with a communication groove, the position of the communication groove corresponds to that of the power supply hole, and the power supply hole is communicated with the sliding groove through the communication groove. The application discloses a novel unmanned aerial vehicle, which is characterized in that a carrying box body provided with a containing cavity is used for realizing carrying transportation functions, a lifting rotor wing extending to the outside of the carrying box body is used for driving the carrying box body to fly in a lifting manner, an electric four-wheel drive chassis is used for driving the carrying box body to travel on land, land-air amphibious transportation is realized, a mounting slot arranged at the front side of the carrying box body corresponds to the position of a power supply hole, when a movable buckling piece is connected with an external accessory such as a camera and a sensor, the quick di