CN218929852U - Unmanned aerial vehicle multi-machine shutdown platform and storage device - Google Patents

Abstract

The utility model relates to the field of unmanned aerial vehicle multi-machine shutdown platforms, in particular to an unmanned aerial vehicle multi-machine shutdown platform and a storage device. The unmanned aerial vehicle parking system comprises a base and a group of unmanned aerial vehicle parking stations, wherein the group of unmanned aerial vehicle parking stations are circumferentially arranged, and the group of unmanned aerial vehicle parking stations are in sliding connection with the base; the driving device is arranged on the base and is in transmission connection with a group of unmanned aerial vehicle stopping tables, and the driving device can drive a group of unmanned aerial vehicle stopping tables to move on a first travel position and a second travel position; when a group of unmanned aerial vehicle parking stations move to the first travel position, a group of unmanned aerial vehicle parking stations are gathered together in position, and when a group of unmanned aerial vehicle parking stations move to the second travel position, a group of unmanned aerial vehicle parking stations are far away from each other in position. Space is saved, unmanned aerial vehicle multi-machine shutdown platform is convenient to integrally store, and unmanned aerial vehicle multi-machine shutdown platform is convenient to integrally transfer and transport.

Description

Unmanned aerial vehicle multi-machine shutdown platform and storage device

Technical Field

The utility model relates to the field of unmanned aerial vehicle multi-machine shutdown platforms, in particular to an unmanned aerial vehicle multi-machine shutdown platform and a storage device.

Background

The unmanned aerial vehicle multi-machine shutdown platform can be used for accommodating a plurality of unmanned aerial vehicles once, and the interval between each shutdown platform on the existing unmanned aerial vehicle multi-machine shutdown platform is too close to each other, so that the adjacent unmanned aerial vehicles collide when the unmanned aerial vehicle multi-machine takes off or lands, and the visual positioning errors when the unmanned aerial vehicles land are caused, so that the unmanned aerial vehicles do not land on the preset shutdown platform. Therefore, certain take-off and landing distances need to be ensured between each of the stopping platforms of the unmanned aerial vehicle multi-machine stopping platform. Reference may be made to a multi-station unmanned aerial vehicle automatic charging machine nest disclosed in the patent application publication No. CN 114954984A. According to the technical scheme disclosed by the technical scheme and referring to the drawings in the specification, a plurality of cabin modules are designed, and certain intervals are kept among the cabin modules. But also expose the shortcoming that current unmanned aerial vehicle multimachine shut down platform exists simultaneously, lie in: the spatial position of each unmanned aerial vehicle shutdown platform can not be adjusted, leads to the whole occupation space of multi-machine shutdown platform big, is unfavorable for accomodating its whole transportation.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides the unmanned aerial vehicle multi-machine shutdown platform and the storage device, which save space, facilitate the whole storage of the unmanned aerial vehicle multi-machine shutdown platform and facilitate the whole transfer and transportation of the unmanned aerial vehicle multi-machine shutdown platform.

In order to achieve the above object, the present utility model is realized by the following technical scheme: an unmanned aerial vehicle multi-machine shutdown platform, comprising: the unmanned aerial vehicle parking system comprises a base and a group of unmanned aerial vehicle parking stations, wherein the group of unmanned aerial vehicle parking stations are circumferentially arranged, and the group of unmanned aerial vehicle parking stations are in sliding connection with the base;

the driving device is arranged on the base and is in transmission connection with a group of unmanned aerial vehicle stopping tables, and the driving device can drive a group of unmanned aerial vehicle stopping tables to move on a first travel position and a second travel position;

when a group of unmanned aerial vehicle parking stations move to the first travel position, a group of unmanned aerial vehicle parking stations are gathered together in position, and when a group of unmanned aerial vehicle parking stations move to the second travel position, a group of unmanned aerial vehicle parking stations are far away from each other in position.

Among the above-mentioned devices, a set of unmanned aerial vehicle parking platform gathers together or keeps away from each other can understand a set of unmanned aerial vehicle parking platform that the circumference set up, diminish or grow from the centre of a circle distance at circumference place. The unmanned aerial vehicle multi-machine shutdown platform is characterized in that a group of unmanned aerial vehicle shutdown stations are arranged on a base, the group of unmanned aerial vehicle shutdown stations are driven to gather together and keep away from each other through a driving device, and when the group of unmanned aerial vehicle shutdown stations keep away from each other, the distance required by landing or taking off of the unmanned aerial vehicle can be ensured. When unmanned aerial vehicle berths on unmanned aerial vehicle shutdown platform, drive a set of unmanned aerial vehicle shutdown platform gathers together each other to practiced thrift the space, be convenient for wholly accomodate unmanned aerial vehicle multi-machine shutdown platform, conveniently shift unmanned aerial vehicle multi-machine shutdown platform is whole, transport.

Further, an unmanned aerial vehicle multi-machine shutdown platform, circumference is equipped with a set of seat that removes on the base, unmanned aerial vehicle shutdown platform slides and sets up on removing the seat, remove the radial extension setting of seat along a set of unmanned aerial vehicle shutdown platform place circumference. As the preferable scheme of the utility model, the movable seat is arranged to ensure the stability of the movement of the unmanned aerial vehicle stopping table.

Further, an unmanned aerial vehicle multi-machine shut down platform, drive arrangement include a set of lead screw and driving motor, driving motor is connected with screw drive, lead screw extending direction with unmanned aerial vehicle shut down platform slip direction is parallel, the lead screw rotates the setting on removing the seat, the lead screw is connected with unmanned aerial vehicle shut down platform transmission. As the preferable scheme of the utility model, the screw rod is adopted for transmission, so that the transmission stability can be ensured. Specifically, the driving device adopts a screw motor, the screw motor is composed of a driving motor and a screw, and a group of screw motors arranged in the circumferential direction can be adopted to realize transmission of a group of unmanned aerial vehicle stop stations. The transmission connection mode of the screw and the unmanned aerial vehicle stop table belongs to the conventional technology, and specifically, a screw hole which is adaptive to the screw is formed in the unmanned aerial vehicle stop table, and the screw is arranged in the screw hole, so that the screw and the unmanned aerial vehicle stop table can be connected in a transmission mode.

Further, an unmanned aerial vehicle multi-machine shut down platform, the lead screw include a positive and negative tooth lead screw, a pair of unmanned aerial vehicle shut down platform respectively with positive tooth section and the anti-tooth section transmission of positive and negative tooth lead screw are connected.

Further, the unmanned aerial vehicle multi-machine shutdown platform, lead screw quantity be 4, a set of lead screw circumference sets up, a set of near end of lead screw is equipped with the bevel gear, adjacent the bevel gear intermeshes, adjacent a pair of lead screw profile of tooth revolves to opposite, driving motor with one of them screw drive connects. As a preferable scheme of the utility model, the synchronous driving device is arranged, and the synchronous movement of 4 lead screws is realized through one driving motor, so that the utility model has the advantages of reducing the cost and improving the reliability.

The unmanned aerial vehicle storage device comprises a storage box, wherein the storage box comprises an opening state and a closing state; including an unmanned aerial vehicle multi-machine platform of shutting down, work as the containing box is in the closed condition, be equipped with in the containing box and accomodate the chamber, unmanned aerial vehicle shut down the platform and be in first journey position, multi-machine platform of shutting down wholly sets up in accomodating the intracavity. The device is different from a multi-station unmanned aerial vehicle automatic charging machine nest disclosed in an utility model patent application document with the publication number of CN 114954984A, and all cabins are respectively provided with the storage devices capable of being opened and closed.

Further, the unmanned aerial vehicle storage device comprises a cover body and a box body, wherein the cover body is movably connected with the box body, when the storage box is in an open state, the multi-machine shutdown platform is integrally arranged at the top of the box body, and the cover body moves to the outer side of the box body; when the storage box is in a closed state, the cover body is covered at the upper end of the box body to form a closed storage cavity. According to the structure, when the storage box is in the open state, the unmanned aerial vehicle stopping table can be driven to move to the second stroke position, the unmanned aerial vehicle stopping table can exceed the outer side of the box body, mutual interference during landing of unmanned aerial vehicles is prevented, and synchronous landing of unmanned aerial vehicles on a group of unmanned aerial vehicle stopping tables can be achieved. When unmanned aerial vehicle shut down the platform and remove to the second stroke position, each unmanned aerial vehicle's interval distance is confirmed, the containing box can reduce the horizontal projection size of box according to above-mentioned characteristic, reduces the occupation space of containing box.

The box body is characterized in that the concrete structure of the box body can be a hollow box body with an opening at the upper end, the whole cover body is a plate body, a lifting device is arranged in the box body, the base is arranged on the lifting device, when the storage box is in a closed state, the shutdown platform integrally descends into the box body, and the cover body is covered at the upper end of the box body; when the storage box is in an open state, the shutdown platform rises to the top of the box body through the lifting device.

Further, an unmanned aerial vehicle storage device, the base is fixed at the box top, accomodate the chamber setting on the lid, works as the containing box is in the closed condition, accomodate the chamber setting in the nearly box one side of lid. As the preferable scheme of the utility model, the cover body is a cover body integrally and is covered on the box body, and the structure does not need to be provided with a lifting device, so that the utility model has the advantages of cost saving and good reliability.

The technical scheme can be seen that the utility model has the following beneficial effects:

1. the utility model provides an unmanned aerial vehicle multi-machine stopping platform, which drives a group of unmanned aerial vehicle stopping stations to gather together and keep away from each other through a driving device, and can ensure the distance required by landing or taking off of unmanned aerial vehicles when the group of unmanned aerial vehicle stopping stations keep away from each other. When unmanned aerial vehicle berths on unmanned aerial vehicle shutdown platform, drive a set of unmanned aerial vehicle shutdown platform gathers together each other to practiced thrift the space, be convenient for wholly accomodate unmanned aerial vehicle multi-machine shutdown platform, conveniently shift unmanned aerial vehicle multi-machine shutdown platform is whole, transport.

2. The utility model provides an unmanned aerial vehicle storage device, which is different from a multi-station unmanned aerial vehicle automatic charging machine nest disclosed in the patent application document with the publication number of CN 114954984A, wherein all cabins are respectively provided with an openable storage device.

Drawings

Fig. 1 is a schematic three-dimensional structure of a multi-machine shutdown platform of an unmanned aerial vehicle according to embodiment 1;

FIG. 2 is a top view of a multi-aircraft landing of the unmanned aircraft of embodiment 1 when the landing is moved to a second travel position;

FIG. 3 is a top view of a multi-aircraft landing of the unmanned aircraft of embodiment 1 when the landing is moved to a first trip position;

fig. 4 is a schematic three-dimensional structure of a multi-machine shutdown platform of an unmanned aerial vehicle according to embodiment 2;

FIG. 5 is an enlarged view of a portion of FIG. 4 at circle A;

fig. 6 is a schematic three-dimensional structure of an open state of a storage device of an unmanned aerial vehicle according to embodiment 3;

fig. 7 is a schematic three-dimensional structure of a closed state of the unmanned aerial vehicle storage device according to embodiment 3;

fig. 8 is a cross-sectional view of fig. 7.

In the figure:

1-an unmanned aerial vehicle stopping station; 11-a sliding table; 111-a slider;

2-a base; 21-a mobile seat; 211-a guide rail;

3-a driving device; 31-a lead screw; 311-positive and negative tooth screw rods; 312-bevel gear; 32-a drive motor;

4-a storage box; 40-a receiving cavity; 41-a cover; 410-split cover; 42-a box body; 43-connecting rod.

Detailed Description

Example 1

The unmanned aerial vehicle multi-machine shutdown platform comprises a base 2 and a group of unmanned aerial vehicle shutdown platforms 1, wherein the group of unmanned aerial vehicle shutdown platforms 1 are circumferentially arranged, and the group of unmanned aerial vehicle shutdown platforms 1 are in sliding connection with the base 2;

the unmanned aerial vehicle parking platform further comprises a driving device 3, wherein the driving device 3 is arranged on the base 2, the driving device 3 is in transmission connection with one group of unmanned aerial vehicle parking platforms 1, and the driving device 3 can drive one group of unmanned aerial vehicle parking platforms 1 to move on a first travel position and a second travel position;

as shown in fig. 2 and 3, when a group of the unmanned aerial vehicle stopping platforms 1 are moved to the first travel position, a group of the unmanned aerial vehicle stopping platforms 1 are gathered together, and when a group of the unmanned aerial vehicle stopping platforms 1 are moved to the second travel position, a group of the unmanned aerial vehicle stopping platforms 1 are moved away from each other. One group of unmanned aerial vehicle parking stations 1 gather together or keep away from each other can understand a set of unmanned aerial vehicle parking stations 1 that circumference set up, and the centre of a circle distance that is located from the circumference diminishes or grow. In this embodiment, a group of the unmanned aerial vehicle stopping platforms 1 are on the same horizontal plane.

The multi-machine shutdown platform for the unmanned aerial vehicle is characterized in that a group of unmanned aerial vehicle shutdown stations 1 are arranged on a base 2, a group of unmanned aerial vehicle shutdown stations 1 are driven by a driving device 3 to gather together and keep away from each other, and when the group of unmanned aerial vehicle shutdown stations 1 keep away from each other, the required distance for landing or taking off of the unmanned aerial vehicle can be ensured. When unmanned aerial vehicle berths on unmanned aerial vehicle shutdown platform 1, drive a set of unmanned aerial vehicle shutdown platform 1 gathers together each other to practiced thrift the space, be convenient for wholly accomodate unmanned aerial vehicle multi-machine shutdown platform, conveniently shift unmanned aerial vehicle multi-machine shutdown platform is whole, transport. In this embodiment, the overall structure of the unmanned aerial vehicle parking station 1 is in an inverted cone shape, and specific reference may be made to the structure of a parking platform in an automatic landing positioning device for an unmanned aerial vehicle disclosed by CN 218086011U.

In this embodiment, a set of removal seat 21 is equipped with to the circumference on the base 2, unmanned aerial vehicle platform 1 slides and sets up on removing seat 21, remove seat 21 along the radial extension setting of a set of unmanned aerial vehicle platform 1 place circumference. The movable seat 21 is arranged to ensure the stability of the movement of the unmanned aerial vehicle parking station 1. In this embodiment, the unmanned aerial vehicle stop station 1 bottom is fixed with slip table 11, be equipped with sliding part between slip table 11 and the removal seat 21, sliding part includes guide rail 211 and slider 111, slider 111 sets up on slip table 11, guide rail 211 sets up on removing seat 21, slider 111 and guide rail 211 sliding connection.

In this embodiment, the driving device 3 includes a set of lead screw 31 and driving motor 32, driving motor 32 is connected with lead screw 31 drive, lead screw 31 extending direction with unmanned aerial vehicle platform 1 slip direction is parallel, lead screw 31 rotates and sets up on moving seat 21, lead screw 31 is connected with unmanned aerial vehicle platform 1 transmission. The screw rod 31 is adopted for transmission, so that the transmission stability can be ensured. Specifically, the driving device 3 adopts a screw motor, and the screw motor is composed of a driving motor 32 and a screw 31, and can adopt a group of screw motors circumferentially arranged to realize transmission of a group of unmanned aerial vehicle parking stations 1. The transmission connection mode of the screw rod 31 and the unmanned aerial vehicle stopping table 1 belongs to the existing conventional technology, specifically, a screw hole which is adaptive to the screw rod 31 is formed in the unmanned aerial vehicle stopping table 1, and the screw rod 31 is arranged in the screw hole, so that transmission connection of the screw rod 31 and the unmanned aerial vehicle stopping table 1 can be realized.

In this embodiment, the screw 31 includes a positive and negative screw 311, and a pair of the unmanned aerial vehicle stopping stations 1 are respectively in transmission connection with the positive tooth section and the negative tooth section of the positive and negative screw 311. In this embodiment, a through type positive and negative tooth motor is adopted, and is formed by combining a positive and negative tooth screw 311 and a driving motor 32, so that a pair of unmanned aerial vehicle stop platforms 1 can slide synchronously. In this embodiment, the driving device 3 is composed of a pair of screw motors and a through type positive and negative tooth motor, where the pair of screw motors are disposed on two sides of the through type positive and negative tooth motor, and the whole body forms a cross shape.

Example 2

As shown in fig. 4 and fig. 5, the difference between this embodiment and embodiment 1 is that the number of screws 31 is 4, in this embodiment, a group of screws 31 are circumferentially arranged, a bevel gear 312 is disposed at a close end of a group of screws 31, adjacent bevel gears 312 are engaged with each other, the tooth shapes of adjacent pairs of screws 31 are opposite, and the driving motor 32 is in driving connection with one of the screws 31. The synchronous driving device is arranged, and the synchronous movement of 4 lead screws 31 is realized through one driving motor 32, so that the device has the advantages of reducing the cost and improving the reliability.

Example 3

Combine the unmanned aerial vehicle storage device that fig. 6-8 show, including containing box 4, including opening and closed two kinds of states on the containing box 4, still include embodiment 1 an unmanned aerial vehicle multimachine shut down platform, work as when containing box 4 is in closed state, be equipped with in the containing box 4 and accomodate chamber 40, unmanned aerial vehicle shut down station 1 is in first stroke position, the whole setting of multimachine shut down platform is in containing chamber 40. The unmanned aerial vehicle automatic charging machine nest is different from the unmanned aerial vehicle automatic charging machine nest with multiple machine positions disclosed in the patent application document with the publication number of CN 114954984A, all cabins are respectively provided with an openable and closable storage device, the unmanned aerial vehicle storage device adopts an integral storage box 4, integrally stores a multi-machine shutdown platform, has a good structure, and has the advantages of saving space and reducing cost.

In this embodiment, the storage box 4 includes a cover 41 and a box 42, where the cover 41 and the box 42 are movably connected, and when the storage box 4 is in an open state, the multi-machine stopping platform is integrally disposed at the top of the box 42, and the cover 41 moves to the outside of the box 42; when the storage box 4 is in a closed state, the cover 41 is covered on the upper end of the box 42 to form a closed storage cavity 40. Based on above-mentioned structure, when containing box 4 is in the open condition, can drive unmanned aerial vehicle shut down platform 1 and remove to the second stroke position, unmanned aerial vehicle shut down platform 1 can surpass the outside of box 42 prevents that unmanned aerial vehicle from interfering each other when rising and falling, can realize unmanned aerial vehicle on a set of unmanned aerial vehicle shut down platform 1 and rise and fall in step. When the unmanned aerial vehicle stopping table 1 moves to the second travel position, the storage box 4 can reduce the horizontal projection size of the box body 42 and reduce the occupied space of the storage box 4 according to the characteristics when the interval distance of each unmanned aerial vehicle is determined.

The concrete structure of the box body 42 may be a hollow box body with an opening at the upper end, the cover body 41 is a plate body as a whole, a lifting device is arranged in the box body 42, the base 2 is arranged on the lifting device, when the storage box 4 is in a closed state, the shutdown platform is wholly lowered into the box body 42, and the cover body 41 is covered at the upper end of the box body 42; when the storage box 4 is in an open state, the shutdown platform is lifted to the top of the box body 42 through the lifting device.

In this embodiment, the base 2 is fixed on the top of the case 42, the accommodating cavity 40 is disposed on the cover 41, and when the accommodating case 4 is in the closed state, the accommodating cavity 40 is disposed on a side of the cover 41 near the case 42. The cover 41 is integrally a cover body and is covered on the box 42, and the structure does not need to be provided with a lifting device, so that the device has the advantages of cost saving and good reliability. In this embodiment, the cover 41 is composed of a pair of split covers 410, a connecting rod 43 is hinged between the split covers 410 and the case 42, and when the storage case 4 is in an open state, the split covers 410 rotate to two sides of the case 42; when the storage box 4 is in the closed state, the split cover 410 rotates to above the box 42, and the split covers 410 are attached to each other to form the cover 41.

The technical principles of the present utility model have been described above in connection with specific embodiments, which are provided for the purpose of explaining the principles of the present utility model and are not to be construed as limiting the scope of the present utility model in any way. Other embodiments of the utility model will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (8)

1. An unmanned aerial vehicle multi-machine shutdown platform, its characterized in that: the unmanned aerial vehicle automatic parking system comprises a base (2) and a group of unmanned aerial vehicle parking stations (1), wherein the group of unmanned aerial vehicle parking stations (1) are arranged in an array mode along the circumferential direction, and the group of unmanned aerial vehicle parking stations (1) are in sliding connection with the base (2);

the unmanned aerial vehicle parking platform further comprises a driving device (3), wherein the driving device (3) is arranged on the base (2), the driving device (3) is in transmission connection with a group of unmanned aerial vehicle parking platforms (1), and the driving device (3) can drive a group of unmanned aerial vehicle parking platforms (1) to move on a first travel position and a second travel position;

when a group of unmanned aerial vehicle parking stations (1) move to a first travel position, a group of unmanned aerial vehicle parking stations (1) are gathered together in position, and when a group of unmanned aerial vehicle parking stations (1) move to a second travel position, a group of unmanned aerial vehicle parking stations (1) are far away from each other in position.

2. The unmanned aerial vehicle multi-aircraft shutdown platform of claim 1, wherein: the unmanned aerial vehicle parking platform is characterized in that a group of movable seats (21) are circumferentially arranged on the base (2), the unmanned aerial vehicle parking platform (1) is slidably arranged on the movable seats (21), and the movable seats (21) are radially arranged along the circumference of the group of unmanned aerial vehicle parking platform (1).

3. The unmanned aerial vehicle multi-aircraft shutdown platform of claim 1, wherein: the driving device (3) comprises a group of lead screws (31) and a driving motor (32), the driving motor (32) is in driving connection with the lead screws (31), the extending direction of the lead screws (31) is parallel to the sliding direction of the unmanned aerial vehicle stopping table (1), the lead screws (31) are rotatably arranged on the movable seat (21), and the lead screws (31) are in transmission connection with the unmanned aerial vehicle stopping table (1).

4. A multi-aircraft shutdown platform for an unmanned aerial vehicle according to claim 3, wherein: the screw rod (31) comprises a positive and negative screw rod (311), and the pair of unmanned aerial vehicle stop platforms (1) are respectively in transmission connection with the positive tooth section and the negative tooth section of the positive and negative screw rod (311).

5. A multi-aircraft shutdown platform for an unmanned aerial vehicle according to claim 3, wherein: the number of the screw rods (31) is 4, one group of screw rods (31) are circumferentially arranged, bevel gears (312) are arranged at the close ends of one group of screw rods (31), adjacent bevel gears (312) are meshed with each other, the tooth shapes of the adjacent pair of screw rods (31) are opposite in rotation direction, and the driving motor (32) is in driving connection with one screw rod (31).

6. The unmanned aerial vehicle storage device comprises a storage box (4), wherein the storage box (4) comprises an opening state and a closing state; the method is characterized in that: the unmanned aerial vehicle multi-machine stopping platform further comprises the unmanned aerial vehicle multi-machine stopping platform according to any one of claims 1-5, when the containing box (4) is in a closed state, a containing cavity (40) is arranged in the containing box (4), the unmanned aerial vehicle stopping platform (1) is in a first travel position, and the multi-machine stopping platform is integrally arranged in the containing cavity (40).

7. The unmanned aerial vehicle storage device of claim 6, wherein: the storage box (4) comprises a cover body (41) and a box body (42), the cover body (41) is movably connected with the box body (42), when the storage box (4) is in an open state, the multi-machine stopping platform is integrally arranged at the top of the box body (42), and the cover body (41) moves to the outer side of the box body (42); when the storage box (4) is in a closed state, the cover body (41) is arranged at the upper end of the box body (42) in a covering mode to form a closed storage cavity (40).

8. The unmanned aerial vehicle storage device of claim 7, wherein: the base (2) is fixed at the top of the box body (42), the containing cavity (40) is arranged on the cover body (41), and when the containing box (4) is in a closed state, the containing cavity (40) is arranged on one side, close to the box body (42), of the cover body (41).

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