CN218829932U - Portable unmanned aerial vehicle basic station - Google Patents

Abstract

The utility model provides a portable unmanned aerial vehicle basic station, include: the wireless communication device comprises a body, a first antenna, a wireless communication module, a control module, a second antenna and a battery power supply seat; the body is internally provided with an accommodating cavity, and the outer side of the body is provided with a strap; the first antenna and the second antenna are arranged on the top of the body; the wireless communication module and the control module are arranged in the accommodating cavity, and the first antenna, the wireless communication module, the control module and the second antenna are in signal connection in sequence; the battery power supply seat sets up the holding intracavity, wireless communication module with control module all with unmanned aerial vehicle battery electricity in the battery power supply seat is connected. Compared with the prior art, the utility model discloses a portable unmanned aerial vehicle basic station user of being convenient for carries it to the scene that the emergent relief disaster can't be arrived to the traffic lines, the nimble operation in portable unmanned aerial vehicle basic station of being convenient for to the accessible unmanned aerial vehicle battery supplies power.

Description

Portable unmanned aerial vehicle basic station

Technical Field

The utility model relates to an unmanned air vehicle technique field, concretely relates to portable unmanned aerial vehicle basic station.

Background

The unmanned aerial vehicle is an unmanned aerial vehicle operated by utilizing a radio remote control device and a self-contained program control device, has vulgar application in the fields of aerial photography, agriculture, plant protection, surveying and mapping, disaster relief, film and television shooting and the like, greatly expands the application of the unmanned aerial vehicle, and has higher requirements on the speed and the coverage range of data transmission by the unmanned aerial vehicle or similar unmanned aerial equipment in the actual application process. Therefore, in order to meet the actual use requirement of the unmanned aerial vehicle, an appropriate number of unmanned aerial vehicle base stations are usually deployed at specific positions on the ground to help realize data transmission.

The current mainstream base stations in the market are mainly fixed base stations and mobile base stations, and the fixed base stations have large volume, high cost, high requirements on layout sites and incapability of moving flexibly; the mobile base station is high in cost and cannot be used in areas where emergency disaster relief traffic cannot reach, so that the existing base station is difficult to flexibly adapt to emergency disaster relief scenes.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the shortcoming and not enough among the prior art, provide a portable unmanned aerial vehicle basic station.

An embodiment of the utility model provides a portable unmanned aerial vehicle basic station, include: the wireless communication device comprises a body, a first antenna, a wireless communication module, a control module, a second antenna and a battery power supply seat;

the body is internally provided with an accommodating cavity, and the outer side of the body is provided with a strap;

the first antenna and the second antenna are arranged on the top of the body and extend away from the body;

the wireless communication module and the control module are arranged in the accommodating cavity, and the first antenna, the wireless communication module, the control module and the second antenna are sequentially in signal connection;

the battery power supply seat is arranged in the containing cavity and used for containing unmanned aerial vehicle batteries, and the wireless communication module and the control module are electrically connected with the unmanned aerial vehicle batteries in the battery power supply seat.

Compared with the prior art, the utility model discloses a portable unmanned aerial vehicle basic station user of being convenient for carries it to the scene that the emergent relief of disaster can't be arrived to the traffic route, the nimble operation of the portable unmanned aerial vehicle basic station of being convenient for to the accessible unmanned aerial vehicle battery supplies power.

In some optional embodiments, the control module includes an industrial control module and an unmanned aerial vehicle remote control assembly, the industrial control module and the unmanned aerial vehicle remote control assembly are disposed in the accommodating cavity, and the first antenna, the wireless communication module, the industrial control module, the unmanned aerial vehicle remote control assembly and the second antenna are in signal connection in sequence.

In some optional embodiments, the top of the body is provided with two second antennas, and both the two second antennas are in signal connection with the unmanned aerial vehicle remote control assembly.

In some optional embodiments, the drone remote control assembly is removably disposed within the housing cavity.

In some optional embodiments, an installation groove is provided in the accommodation cavity, and the drone remote control assembly is snapped into the installation groove.

In some optional embodiments, the inner wall of the accommodating chamber is provided with two fixing plates, the fixing plates are provided with limiting parts, the limiting parts of the two fixing plates extend towards each other, and the mounting groove is formed between the inner wall of the accommodating chamber, the two fixing plates and the two limiting parts.

In some optional embodiments, a battery accommodating groove is formed in the battery power supply base, and a fastening groove for fastening and matching with a battery of the unmanned aerial vehicle is formed in at least one side of the battery accommodating groove.

In some optional embodiments, at least one adjusting groove is formed in the battery power supply base, the adjusting groove is communicated with the battery accommodating groove, a moving block is arranged in the adjusting groove, the moving block is close to or far away from the battery accommodating groove along the adjusting groove, a locking part and a fastening groove are arranged on the moving block, the locking part penetrates through the moving block and then is movably connected with the battery power supply base, and the fastening groove is located on one side, facing the battery accommodating groove, of the moving block.

In some optional embodiments, the body includes a frame body and a cover plate, the frame body has the accommodating cavity formed therein, the front side of the accommodating cavity has an opening formed therein, the cover plate closes the opening, and the battery power supply seat is exposed from the opening.

In some optional embodiments, a protective layer is disposed outside the frame, the strap is disposed on the protective layer, and the first antenna and the second antenna penetrate through the protective layer and then protrude from the top of the protective layer.

In order that the invention may be more clearly understood, particular embodiments of the invention will now be described with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural diagram of a portable unmanned aerial vehicle base station according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a side of a portable drone base station in a hidden partial structure according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a portable drone base station in a hidden partial structure according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a battery-powered base according to an embodiment of the present invention.

Description of reference numerals:

10. a body; 11. an accommodating cavity; 12. a harness; 13. a fixing plate; 131. a limiting part; 14. a frame body; 15. an opening; 20. a first antenna; 30. a wireless communication module; 40. a control module; 41. an industrial control module; 42. an unmanned aerial vehicle remote control assembly; 50. a second antenna; 60. a battery-powered base; 61. a battery housing groove; 62. buckling grooves; 63. adjusting the groove; 64. moving the mass.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1, which is a schematic structural diagram of a portable unmanned aerial vehicle base station according to an embodiment of the present invention, the portable unmanned aerial vehicle base station includes: the wireless communication device comprises a body 10, a first antenna 20, a wireless communication module 30, a control module 40, a second antenna 50 and a battery power supply base 60.

Please refer to fig. 2, which is a schematic structural diagram of a side of a base station of a portable unmanned aerial vehicle according to an embodiment of the present invention when the base station is in a hidden partial structure, wherein a receiving cavity 11 is disposed inside a body 10, and a strap 12 is disposed outside the body 10; the first antenna 20 and the second antenna 50 are disposed at the top of the body 10, extending away from the body 10; the wireless communication module 30 and the control module 40 are arranged in the accommodating cavity 11, and the first antenna 20, the wireless communication module 30, the control module 40 and the second antenna 50 are in signal connection in sequence; the battery power supply base 60 is arranged in the accommodating cavity 11 and used for placing an unmanned aerial vehicle battery, and the wireless communication module 30 and the control module 40 are electrically connected with the unmanned aerial vehicle battery in the battery power supply base 60. The user can be through the braces 12 on the body 10 with portable unmanned aerial vehicle basic station back of the body, and then make things convenient for the unmanned aerial vehicle basic station to be used for the unable scene that reaches emergency relief of traffic route, for example do not have the mountain wilderness on road, certainly, still be used for some other scenes that need the nimble removal of unmanned aerial vehicle basic station.

During the use, wireless communication module 30 receives the task signal of patrolling and examining that sends under the unmanned aerial vehicle dispatch platform through first antenna 20, then wireless communication module 30 will patrol and examine task data transmission and give control module 40, and control module 40 analyzes to patrol and examine behind the task data, sends control command to unmanned aerial vehicle through second antenna 50, and unmanned aerial vehicle receives control command, patrols and examines the task. During the process of polling the task by the unmanned aerial vehicle, polling information of the unmanned aerial vehicle can be transmitted to the control module 40 through the second antenna 50, and then the control module 40 transmits the polling information to the unmanned aerial vehicle dispatching platform through the wireless communication module 30 and the second antenna 50; wherein, unmanned aerial vehicle's the information of patrolling and examining can include real-time attitude information, patrol and examine the video, patrol and examine the achievement and so on.

The wireless communication module 30 may be a 4G communication module or a 5G communication module.

In some optional embodiments, the control module 40 includes an industrial control module 41 and a drone remote control assembly 42, the industrial control module 41 and the drone remote control assembly 42 are disposed in the accommodating cavity 11, and the first antenna 20, the wireless communication module 30, the industrial control module 41, the drone remote control assembly 42, and the second antenna 50 are in signal connection in sequence.

In this embodiment, industrial control module 41 is the industrial control computer mainboard, and it is used for patrolling and examining task data and analyzing, then industrial control module 41 will analyze out the task information and send unmanned aerial vehicle remote control subassembly 42, and unmanned aerial vehicle remote control subassembly 42 sends control command to unmanned aerial vehicle through second antenna 50.

In order to improve the communication quality between the control module 40 and the drone, in some optional embodiments, the top of the body 10 is provided with two second antennas 50, and the two second antennas 50 are both in signal connection with the drone remote control assembly 42. The two second antennas 50 may employ different transmit/receive frequencies.

In order to adapt to different types of unmanned aerial vehicles, the unmanned aerial vehicle remote control assembly 42 corresponding to different types of unmanned aerial vehicles is convenient to replace, and in some optional embodiments, the unmanned aerial vehicle remote control assembly 42 is detachably arranged in the accommodating cavity 11.

Please refer to fig. 3, which is a schematic structural diagram of a hidden partial structure of the portable unmanned aerial vehicle base station according to an embodiment of the present invention, a suitable design can be selected according to actual needs in a manner that the unmanned aerial vehicle remote control assembly 42 is installed in the accommodating cavity 11, for example, the unmanned aerial vehicle remote control assembly 42 can be connected to the body 10 in a manner of a snap connection or a threaded connection; in some alternative embodiments, a mounting slot is provided in the receiving cavity 11 into which the drone remote control assembly 42 snaps. The formation of the mounting groove may be designed according to actual requirements, for example, in the present embodiment, the inner wall of the accommodating chamber 11 is provided with two fixing plates 13, the fixing plate 13 is provided with a limiting portion 131, the limiting portions 131 of the two fixing plates 13 extend toward each other, and the mounting groove is formed between the inner wall of the accommodating chamber 11, the two fixing plates 13 and the two limiting portions 131, but is not limited to this example.

In addition, control module 40 and wireless communication module 30's operation can be supplied power through the unmanned aerial vehicle battery, does not rely on fixed power such as commercial power to operate, and convenient nimble operation need not carry special portable power source yet, only need use the unmanned aerial vehicle battery that carries alright with, the cost is reduced has increased and has carried out the flexibility of function to portable unmanned aerial vehicle basic station and unmanned aerial vehicle. In use, the battery of the unmanned aerial vehicle is placed on the battery power supply base 60, and the control module 40 and the wireless communication module 30 are powered through the battery power supply base 60. Of course, it should be noted that the control module 40 and the wireless communication module 30 may also not be limited to use an unmanned aerial vehicle battery for power supply, and a scheme of using the unmanned aerial vehicle battery for power supply is one of optional power supply schemes, and according to an actual application scenario, when the electric supply can be used or other mobile/fixed power supplies can be used for power supply, the unmanned aerial vehicle battery may not be used for power supply, for example, when the portable unmanned aerial vehicle base station is placed on a vehicle, the control module 40 and the wireless communication module 30 may be powered by a vehicle-mounted power supply. The battery power supply base 60 may be provided with a connector electrically connected to the battery of the drone, and the control module 40 and the wireless communication module 30 are electrically connected to the connector through wires.

In order to fix the battery of the drone conveniently, in some optional embodiments, a battery accommodating groove 61 is formed in the battery power base 60, and at least one side of the battery accommodating groove 61 is provided with a fastening groove 62 for fastening and matching with the battery of the drone. The positions and the number of the catching grooves 62 are designed in a manner suitable for the type of the unmanned aerial vehicle battery actually used, and in the present embodiment, the catching grooves 62 are provided on opposite sides of the battery receiving groove 61.

Please refer to fig. 4, which is a schematic structural diagram of a battery power supply base according to an embodiment of the present invention, in order to adapt to the unmanned aerial vehicle batteries with different sizes, in some optional embodiments, at least one adjusting groove 63 is disposed on the battery power supply base 60, the adjusting groove 63 is communicated with the battery accommodating groove 61, a moving block 64 is disposed in the adjusting groove 63, and the moving block 64 is adjusted along the adjusting groove 63 to be close to or far away from the battery accommodating groove 61, so as to reduce or enlarge the size of the unmanned aerial vehicle battery that can be accommodated in the battery accommodating groove 61. The moving block 64 is provided with a locking member (not shown) and a locking groove 62, the locking member passes through the moving block 64 and then is movably connected with the battery power supply base 60, and the locking groove 62 is located on one side of the moving block 64 facing the battery accommodating groove 61. The locking part is used for fixing the position of the moving block 64, and a proper design can be selected according to actual needs, for example, in the embodiment, the locking part is a threaded locking part, a strip-shaped through groove parallel to the adjusting groove 63 is formed in the moving block 64, the locking part penetrates through the strip-shaped through groove and then is in threaded connection with the battery power supply base 60, the moving block 64 is locked in the adjusting groove 63, the locking part is loosened, and the locking part moves along the strip-shaped through groove while the moving block 64 moves along the adjusting groove 63, so that the position of the moving block 64 can be adjusted; alternatively, a plurality of through holes may be provided in the battery power supply base 60, the through holes are arranged along the extending direction of the adjusting groove 63, and the locking member moving block 64 is inserted into one of the through holes to fix the moving block 64.

In order to facilitate assembly and operation, in some alternative embodiments, the body 10 includes a frame 14 and a cover plate (not shown), the frame 14 has a receiving cavity 11 formed therein, the front side of the receiving cavity 11 has an opening 15, the cover plate closes the opening 15, and the battery power socket 60 is exposed from the opening 15. The cover may be removably attached to the frame 14 or may be pivotally attached to the frame 14.

In order to improve the protection of the body 10, in some optional embodiments, a protective layer is disposed outside the frame 14, the strap 12 is disposed on the protective layer, and the first antenna 20 and the second antenna 50 protrude from the top of the protective layer after passing through the protective layer. The protective layer can be made of flexible cloth, leather and other materials.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A portable unmanned aerial vehicle basic station, its characterized in that includes: the wireless communication device comprises a body, a first antenna, a wireless communication module, a control module, a second antenna and a battery power supply seat;

the body is internally provided with an accommodating cavity, and the outer side of the body is provided with a strap;

the first antenna and the second antenna are arranged on the top of the body and extend away from the body;

the wireless communication module and the control module are arranged in the accommodating cavity, and the first antenna, the wireless communication module, the control module and the second antenna are in signal connection in sequence;

the battery power supply seat is arranged in the containing cavity and used for containing unmanned aerial vehicle batteries, and the wireless communication module and the control module are electrically connected with the unmanned aerial vehicle batteries in the battery power supply seat.

2. A portable drone base station according to claim 1, characterised in that: the control module includes industrial control module and unmanned aerial vehicle remote control subassembly, industrial control module with unmanned aerial vehicle remote control subassembly sets up the holding intracavity, first antenna wireless communication module industrial control module unmanned aerial vehicle remote control subassembly with the second antenna is according to preface signal connection.

3. The portable drone base station of claim 2, wherein: the top of body is provided with two the second antenna, two the second antenna all with unmanned aerial vehicle remote control subassembly signal connection.

4. The portable drone base station of claim 2, wherein: unmanned aerial vehicle remote control subassembly detachably sets up the holding intracavity.

5. A portable drone base station according to claim 4, characterised in that: the holding intracavity is provided with the mounting groove, unmanned aerial vehicle remote control subassembly card is gone into in the mounting groove.

6. The portable drone base station of claim 5, wherein: the inner wall in holding chamber is provided with two fixed plates, be provided with spacing portion on the fixed plate, two the spacing portion orientation of fixed plate extends each other, the mounting groove form in the inner wall in holding chamber, two fixed plate and two between the spacing portion.

7. A portable drone base station according to any one of claims 1 to 6, characterised in that: be provided with the battery accepting groove on the battery power supply seat, at least one side of battery accepting groove is provided with and is used for with unmanned aerial vehicle battery buckle complex catching groove.

8. The portable drone base station of claim 7, wherein: the battery power supply seat is provided with at least one adjusting groove, the adjusting groove is communicated with the battery accommodating groove, a moving block is arranged in the adjusting groove, the moving block is close to or far away from the battery accommodating groove along the adjusting groove, a locking part and a fastening groove are arranged on the moving block, the locking part penetrates through the moving block and is movably connected with the battery power supply seat, and the fastening groove is located at one side, facing the battery accommodating groove, of the moving block.

9. A portable drone base station according to any one of claims 1 to 6, characterised in that: the body comprises a frame body and a cover plate, the accommodating cavity is formed in the frame body, an opening is formed in the front side of the accommodating cavity, the cover plate closes the opening, and the battery power supply seat is exposed from the opening.

10. The portable drone base station of claim 9, wherein: the protective layer is arranged on the outer side of the frame body, the braces are arranged on the protective layer, and the first antenna and the second antenna penetrate through the protective layer and then extend out of the top of the protective layer.

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