CN218774286U - Unmanned aerial vehicle checkpoint that area vibration detected - Google Patents
Unmanned aerial vehicle checkpoint that area vibration detected Download PDFInfo
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- CN218774286U CN218774286U CN202222919945.6U CN202222919945U CN218774286U CN 218774286 U CN218774286 U CN 218774286U CN 202222919945 U CN202222919945 U CN 202222919945U CN 218774286 U CN218774286 U CN 218774286U
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Abstract
The utility model belongs to the technical field of unmanned aerial vehicle recreation, specifically disclose an unmanned aerial vehicle checkpoint that area vibration detected, including the checkpoint body, be equipped with intelligent vibration detection module and battery module on the detection terminal surface of checkpoint body, the battery module is located the side of intelligent vibration detection module and with intelligent vibration detection module electricity is connected. The utility model discloses an unmanned aerial vehicle checkpoint of area vibration detection through set up intelligent vibration detection module and battery module on the detection terminal surface of checkpoint body bottom, utilizes intelligent vibration detection module to detect unmanned aerial vehicle descending or the vibration that collides the checkpoint body and produce, and the battery module supplies power for intelligent vibration detection module, increases the unmanned aerial vehicle recreation clearance degree of difficulty, greatly increases the interest and the challenge of unmanned aerial vehicle recreation.
Description
Technical Field
The utility model belongs to the technical field of the unmanned aerial vehicle recreation, especially, relate to an unmanned aerial vehicle checkpoint that area vibration detected.
Background
Unmanned aerial vehicle (Band Of Drones) is a strategy game, not only keeps the characteristics Of the traditional round strategy game, but also has great breakthrough in the modeling Of roles and weapons, and the traditional unmanned aerial vehicle game is only used for purposeless control flight, so that the interestingness is poor and the challenge is avoided.
In order to add interest and challenge to the unmanned aerial vehicle game, a heavy level barrier is generally designed in the existing unmanned aerial vehicle training game to increase the difficulty of game clearance, for example, the chinese utility model discloses an unmanned aerial vehicle training level barrier (application number: cn201721465169. X), which comprises a bottom part and a body, wherein the body comprises a bottom part 1, and an infrared diffuse reflection type sensor 2 is installed at the bottom part. When the infrared diffuse reflection type sensor 2 detects that the unmanned aerial vehicle passes through or passes through, it can be judged that the unmanned aerial vehicle passes through the barrier smoothly. Although this unmanned aerial vehicle training checkpoint can suitably increase certain degree of difficulty for unmanned aerial vehicle recreation, in some unmanned aerial vehicle recreation, the clearance degree of difficulty of checkpoint is set for bigger, needs unmanned aerial vehicle to descend on the checkpoint or bump the checkpoint but the clearance, and this settlement of unable accurate detection will be had to current unmanned aerial vehicle checkpoint.
Therefore, the inventor has worked on designing a drone barrier to solve the above problems.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an: the utility model provides an unmanned aerial vehicle checkpoint that area vibration detected can accurately detect whether unmanned aerial vehicle descends on the checkpoint or collides the checkpoint, increases the unmanned aerial vehicle recreation clearance degree of difficulty.
In order to achieve the above object, the utility model discloses a technical scheme who adopts is:
the utility model provides an unmanned aerial vehicle checkpoint of area vibration detection, includes the checkpoint body, be equipped with intelligent vibration detection module and battery module on the detection terminal surface of checkpoint body, the battery module is located the side of intelligent vibration detection module and with the intelligent vibration detection module electricity is connected.
As the utility model discloses take vibration detection's unmanned aerial vehicle checkpoint's an improvement, the checkpoint body is transparent or translucent form, this internal inner chamber that is equipped with of checkpoint.
As the utility model discloses take unmanned aerial vehicle checkpoint of vibration detection's an improvement, intelligent vibration detection module install in the vibration detection inslot of checkpoint body bottom, the battery module install in the battery mounting groove of checkpoint body bottom, the battery mounting groove passes through the inner chamber with vibration detection groove intercommunication.
As the utility model discloses take vibration detection's unmanned aerial vehicle checkpoint's an improvement, intelligent vibration detection module includes base and main PCB board, the base lid is located on the checkpoint body, main PCB board with base fixed connection is located in the inner chamber, main PCB board is kept away from be connected with vibration sensor on the terminal surface of base.
As the utility model discloses take vibration detection's unmanned aerial vehicle checkpoint's an improvement, the vibration sensor slope sets up, main PCB board is close to it is connected with the switch to go up on the terminal surface of base, the switch passes the base extends outside the base.
As the utility model discloses take vibration detection's unmanned aerial vehicle checkpoint's an improvement, main PCB board is kept away from be connected with a plurality of LED lamp pearls on the terminal surface of base, be equipped with the antenna on the base, the antenna with main PCB board electricity is connected.
As the utility model discloses take vibration detection's unmanned aerial vehicle checkpoint's an improvement, the battery module pass through the battery mount pad with this body coupling of checkpoint, the output plug of battery module with the power supply socket cooperation of battery mount pad.
As the utility model discloses take vibration detection's unmanned aerial vehicle checkpoint's an improvement, the battery mount pad includes battery seat and apron, the apron lid forms the accepting groove on locating the socket groove of battery seat, the power supply socket is located in the accepting groove, the splenium of power supply socket passes according to the splenium the apron.
As the utility model discloses take unmanned aerial vehicle checkpoint of vibration detection's an improvement, the battery module includes drain pan, group battery and face-piece, the face-piece lid is located form the battery compartment on the drain pan, the group battery accept in the battery compartment, output plug with the drain pan is connected.
As the utility model discloses take vibration detection's unmanned aerial vehicle checkpoint's an improvement, be equipped with handle and multirow louvre on the face-piece, be equipped with a plurality of spacers in the face-piece.
Compared with the prior art, the utility model discloses an unmanned aerial vehicle checkpoint of area vibration detection through set up intelligent vibration detection module and battery module on the detection terminal surface of checkpoint body bottom, utilizes intelligent vibration detection module to detect unmanned aerial vehicle descending or the vibration that collides the checkpoint body and produce, and the battery module supplies power for intelligent vibration detection module, increases the unmanned aerial vehicle recreation clearance degree of difficulty, greatly increases the interest and the challenge that unmanned aerial vehicle played.
Description of the drawings:
fig. 1 is a perspective view of the unmanned aerial vehicle checkpoint with vibration detection of the present invention;
fig. 2 is an exploded perspective view of the unmanned aerial vehicle barrier with vibration detection of the present invention;
fig. 3 is another exploded perspective view of the unmanned aerial vehicle checkpoint with vibration detection of the present invention;
FIG. 4 is a three-dimensional exploded enlarged view of the intelligent vibration detection module of the present invention;
fig. 5 is a three-dimensional exploded enlarged view of the other viewing angle of the intelligent vibration detection module of the present invention;
fig. 6 is a three-dimensional exploded enlarged view of the battery module of the present invention;
FIG. 7 is a perspective enlarged view of the front shell of the present invention;
fig. 8 is a perspective enlarged view of the battery mounting base of the present invention;
fig. 9 is a three-dimensional exploded enlarged view of the battery mounting base of the present invention;
fig. 10 is the utility model discloses a take vibration detection's unmanned aerial vehicle checkpoint's three-dimensional user state diagram.
Illustration of the drawings:
1. a level body; 11. a vibration detection tank; 12. a battery mounting groove; 13. an inner cavity; 2. an intelligent vibration detection module; 21. a base; 22. a main PCB board; 23. an antenna; 24. a switch; 25. LED lamp beads; 26. a vibration sensor; 27. a duplex communication module; 3. a battery module; 31. a bottom case; 311. a spacer; 32. a battery pack; 33. a face shell; 331. heat dissipation holes; 332. a handle; 333. positioning a sheet; 34. an output plug; 4. a battery mounting seat; 41. a battery holder; 411. a socket slot; 42. a power supply socket; 421. a socket; 422. a pressing part; 43. a cover plate; 431. a through hole; 5. unmanned aerial vehicle.
Detailed Description
The following embodiments of the present invention will be specifically explained with reference to the accompanying drawings, which are only used for reference and illustration, and do not limit the scope of the present invention.
Referring to fig. 1 to 10, an unmanned aerial vehicle checkpoint that area vibration detected, including a checkpoint body 1, an intelligent vibration detection module 2 and a battery module 3, intelligent vibration detection module 2 and battery module 3 set up jointly on the detection terminal surface of checkpoint body 1 bottom, and battery module 3 is located intelligent vibration detection module 2's side and is connected with intelligent vibration detection module 2 electricity.
Referring to fig. 1, 2 and 3, the entire checkpoint body 1 is transparent or semitransparent, an inner cavity 13 is arranged in the checkpoint body 1, a vibration detection groove 11 and a battery installation groove 12 are arranged at the bottom of the checkpoint body 1, the vibration detection groove 11 is located at the center of the bottom of the checkpoint body 1, the battery installation grooves 12 are arranged at the sides of the vibration detection groove 11 at intervals, and the battery installation groove 12 is communicated with the vibration detection groove 11 through the inner cavity 13.
Referring to fig. 1 to 5, the intelligent vibration detection module 2 is installed in the vibration detection groove 11, and is specific, the intelligent vibration detection module 2 includes a base 21, a main PCB 22, an antenna 23, a plurality of LED lamp beads 25, a switch 24 and a duplex communication module 27, the base 21 is disc-shaped and is fixed in the vibration detection groove 11, so that the base 21 covers the pass body 1, the main PCB 22 is fixedly connected with the base 21, the whole main PCB 22 is located in the inner cavity 13, the vibration sensor 26, the plurality of LED lamp beads 25 and the duplex communication module 27 are all arranged on the end surface of the main PCB 22 far away from the base 21, wherein, the vibration sensor 26 is obliquely arranged, the switch 24 is arranged on the end surface of the main PCB 22 close to the base 21, the switch 24 passes through the base 21 and extends out of the base 21, the antenna 23 is fixed on the base 21, and the vibration sensor 26, the plurality of LED lamp beads 25, the duplex communication module 27, the switch 24 and the antenna 23 are all electrically connected with the main PCB 22.
Referring to fig. 2, 3, 7, 8 and 9, the battery module 3 is connected to the customs clearance body 1 through a battery mounting seat 4, the output plug 34 of the battery module 3 is matched with the power supply socket 42 of the battery mounting seat 4, the battery mounting seat 4 includes a battery seat 41, a cover plate 43 and the power supply socket 42, two opposite sides of the battery seat 41 are provided with single-side buckles, so as to greatly facilitate the assembly and disassembly of the battery module 3, and the charging is convenient, the whole battery seat 41 is in a shape of a U (kan) and is fixed in the battery mounting groove 12, the battery seat 41 is provided with a socket groove 411, the center of the cover plate 43 is provided with a through hole 431 to form a ring, the cover plate 43 is covered on the socket groove 411 to form an accommodating groove, the plugging end of the power supply socket 42 is provided with a socket 421, the side surface of the power supply socket 42 is provided with a T-shaped pressing portion 422, the power supply socket pressing portion 42 is located in the accommodating groove, and the socket pressing portion 422 passes through the through hole 431 of the socket 43, and the socket 421 is located at the opening of the accommodating groove.
Referring to fig. 1, 2, 3, 6 and 7, the battery module 3 has a large capacity and can extend the duration of the continuous operation of the checkpoint, the battery module 3 includes a bottom case 31, a battery pack 32 and a face shell 33, the bottom case 31 is inserted into the battery holder 41 and covers the cover plate 43, the bottom case 31 is separated by two spacers 311 to form battery slots, the output plug 34 is located outside the bottom case 31 and inserted into the socket 421 of the power supply socket 42, the tail of the output plug 34 is electrically connected to the electrical contact of the bottom case 31 through a cable, the battery pack 32 is specifically three batteries, the face shell 33 is in a shell shape, two rows of heat dissipation holes 331 are disposed at two corners of the face shell 33, a handle 332 is disposed on the end surface of the face shell 33 far from the bottom case 31 to facilitate taking out the whole battery module 3, a plurality of positioning pieces 333 are disposed inside the face shell 33, three semicircular positioning slots are disposed on each positioning piece 333, the face shell 33 covers the bottom case 31 to form three battery compartments, the three battery compartments are all communicated with the two rows of heat dissipation holes 331, the three battery compartments correspond to the three battery compartments, and the three battery compartments are separated by the same spacer 311, and are prevented from moving in the three battery compartments.
Referring to fig. 2 and 3, the connection socket of the main PCB 22 is electrically connected to the tail of the power supply socket 42 through a connection cable, and the connection cable may directly pass through the vibration detection slot 11, the inner cavity 13 and the battery installation slot 12, so that the main PCB 22 is electrically connected to the power supply socket 42, and the power supply socket 42 is electrically connected to the electrical contact plate on the bottom case 31 through the output plug 34, thereby achieving the purpose of electrically connecting the main PCB 22 to the battery pack 32.
Referring to fig. 1 to 10, will the utility model discloses a checkpoint is provided with intelligent vibration detection module 2 and battery module 3's one side down (as shown in fig. 10), make the directional oblique top of vibration sensor 26, when unmanned aerial vehicle 5 descends at checkpoint body 1's top or when colliding checkpoint body 1, can produce the impact of certain dynamics to checkpoint body 1, and then cause the vibration, vibration sensor 26 can detect the power of this vibration dynamics, and download the host computer to data via duplex communication module 27 and handle, last host computer procedure is categorised to the validity or the score value of this time impact, and with the result storage, output.
The utility model discloses in, a plurality of LED lamp pearl 25 evenly distributed just are LED lamp pearl able to programme on main PCB board 22, and LED lamp pearl 25 carries out real-time feedback with multiple modes such as flashing light colour, frequency, order, speed, breathing through the host computer processing result. Meanwhile, the sound box can be connected to generate various interactive sound effects. The battery module 3 is aligned to the battery mounting seat 4 and vertically inserted to the bottom, so that the power-on access can be realized, and meanwhile, the stable connection is realized without shaking. When the battery insufficient voltage need charge, host computer display equipment has the suggestion, and battery module 3 pilot lamp also can twinkle simultaneously, only needs open the unilateral knot of 4 both sides of battery mount pad, just can take off battery module 3 smoothly, directly presses the splenium 422 of pressing of power supply socket 42, alright follow power supply socket 42's socket 421 and extract output plug 34 to concentrate for battery charging.
The above disclosure is only for the preferred embodiments of the present invention, and the scope of the present invention should not be limited thereby, and the scope of the present invention is not intended to be limited thereby.
Claims (10)
1. The utility model provides an unmanned aerial vehicle checkpoint of area vibration detection, includes the checkpoint body, its characterized in that, be equipped with intelligent vibration detection module and battery module on the detection terminal surface of checkpoint body bottom, the battery module is located the side of intelligent vibration detection module and with intelligent vibration detection module electricity is connected.
2. The unmanned aerial vehicle checkpoint of area vibration detection of claim 1, wherein the checkpoint body is transparent or translucent, this internal inner chamber that is equipped with of checkpoint.
3. The unmanned aerial vehicle checkpoint of area vibration detection of claim 2 wherein, the intelligent vibration detection module is installed in the vibration detection groove of the checkpoint body bottom, the battery module is installed in the battery installation groove of the checkpoint body bottom, the battery installation groove through the inner chamber with the vibration detection groove intercommunication.
4. The unmanned aerial vehicle checkpoint of area vibration detection of claim 2, characterized in that, the intelligent vibration detection module includes base and main PCB board, the base lid is located on the checkpoint body, main PCB board with the base fixed connection and be located in the inner chamber, main PCB board is kept away from the terminal surface of base electricity and is connected with vibration sensor.
5. The unmanned aerial vehicle checkpoint of area vibration detection of claim 4, characterized in that, the vibration sensor slope sets up, main PCB board is close to the terminal surface of base electrically connected with the switch, the switch passes the base and extends outside the base.
6. The unmanned aerial vehicle checkpoint of area vibration detection of claim 4, characterized in that the terminal surface of main PCB board far away from the base is electrically connected with a plurality of LED lamp pearls, be equipped with the antenna on the base, the antenna with main PCB board electricity is connected.
7. The unmanned aerial vehicle checkpoint of area vibration detection of claim 1, characterized in that, the battery module passes through battery mount pad and is connected with the checkpoint body, the output plug of battery module with the power supply socket cooperation of battery mount pad.
8. The unmanned aerial vehicle checkpoint with vibration detection as claimed in claim 7, wherein the battery mounting base comprises a battery base and a cover plate, the cover plate is covered on a socket groove of the battery base to form a containing groove, the power supply socket is located in the containing groove, and a pressing portion of the power supply socket penetrates through the cover plate.
9. The unmanned aerial vehicle checkpoint of area vibration detection of claim 7, characterized in that, the battery module includes drain pan, group battery and face-piece, the face-piece lid is located form battery compartment on the drain pan, the group battery is acceptd in the battery compartment, output plug with the drain pan is connected.
10. The unmanned aerial vehicle checkpoint of area vibration detection of claim 9, wherein be equipped with handle and multirow louvre on the face casing, be equipped with a plurality of spacers in the face casing.
Priority Applications (1)
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CN202222919945.6U CN218774286U (en) | 2022-11-02 | 2022-11-02 | Unmanned aerial vehicle checkpoint that area vibration detected |
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CN202222919945.6U CN218774286U (en) | 2022-11-02 | 2022-11-02 | Unmanned aerial vehicle checkpoint that area vibration detected |
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CN218774286U true CN218774286U (en) | 2023-03-31 |
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