CN210555626U - Rotation type unmanned aerial vehicle air park - Google Patents

Abstract

The utility model discloses a rotation type unmanned aerial vehicle air park, comprising a base plate, the top four corners of bottom plate all is provided with four main tributary vaulting poles, and is located the bottom plate and all articulates with the top of two main tributary vaulting poles of one side has same connection pad, two be provided with the main tributary vaulting axle between the connection pad, the equal threaded connection in circumference outer wall both ends of main tributary vaulting axle has four to eight annular permutation's the auxiliary stay pole that distributes, and the equal threaded connection of the other end of auxiliary stay pole has the cross-connection head of right angle structure. The utility model discloses in, a plurality of unmanned aerial vehicle can park on the board that parks of difference, and the increase unmanned aerial vehicle's that is showing shut down quantity has improved the efficiency and the throughput of parking apron, and when night, can open corresponding instruction lamp pearl for the board that parks is clearly visible at night, for unmanned aerial vehicle shuts down at night and brings very big facility, improves the utility model provides a parking apron's range of application.

Description

Rotation type unmanned aerial vehicle air park

Technical Field

The utility model relates to an unmanned air vehicle technique field especially relates to a rotation type unmanned aerial vehicle air park.

Background

The unmanned aerial vehicle is an unmanned aerial vehicle, and is an unmanned aerial vehicle utilizing a radio remote control device and a self-contained program control device, and from a certain angle, the unmanned aerial vehicle can complete complex aerial flight tasks and various load tasks under the unmanned condition, and the body of the unmanned aerial vehicle comprises a gyroscope, an accelerometer, geomagnetic induction, a barometric sensor (hovering height rough control), an ultrasonic sensor (low altitude height precise control or obstacle avoidance), an optical flow sensor (hovering horizontal position precise determination), a GPS module (horizontal position height rough positioning) and a control circuit. The main function is to automatically maintain the normal flying attitude of the airplane.

Unmanned aerial vehicle is now more a neotype recreational tools, many people carry out unmanned aerial vehicle's flight exercise and recreation in the field, however, when carrying out the amusement in the field, along with the increase of unmanned aerial vehicle quantity, many places appear that unmanned aerial vehicle fan forms the unmanned aerial vehicle formation, this has provided the challenge to unmanned aerial vehicle air park capacity, single unmanned aerial vehicle can only be parked to present unmanned aerial vehicle air park mostly, can't provide good shut down environment for a plurality of unmanned aerial vehicle when playing in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art, and the rotation type unmanned aerial vehicle air park that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a rotary unmanned aerial vehicle parking apron comprises a bottom plate, wherein four main supporting rods are arranged at four corners of the top of the bottom plate, the top ends of the two main supporting rods positioned on the same side of the bottom plate are hinged with a connecting plate, a main supporting shaft is arranged between the two connecting plates, two ends of the circumferential outer wall of the main supporting shaft are in threaded connection with four to eight auxiliary supporting rods distributed in an annular and aligned mode, the other ends of the auxiliary supporting rods are in threaded connection with a four-way connector in a right-angle structure, an elastic rod is in threaded connection between the four-way connectors positioned on the same side, a same auxiliary supporting shaft is in threaded connection between the two four-way connectors positioned on the same plane, supporting sleeves are rotatably connected on the circumferential outer walls of the auxiliary supporting shafts, the tops of the supporting sleeves are connected with a parking plate through bolts, and the centers, and the bottom of connecting rod has the battery through bolted connection, the both ends of main tributary supporting axle all have the rocker through bolted connection, and one side threaded connection of rocker has spacing bolt, two the spacing hole that annular array distributes is all seted up to the circumference outer wall of connection pad, and the one end of two spacing bolts is pegged graft respectively in the inside in two spacing holes.

Preferably, rectangular slots are formed in four corners of the top of the bottom plate, connecting blocks are inserted into the four rectangular slots, limiting blocks are welded to the tops of the four connecting blocks, and the top ends of the four limiting blocks are in threaded connection with the bottom ends of the four main supporting rods respectively.

Preferably, the both sides of bottom plate all have two internal thread pipes through bolted connection, and the equal threaded connection in inside of four internal thread pipes is connected with the support screw of vertical setting, and the bottom of four support screw all is connected with the support footing through the bearing.

Preferably, four corners of the bottom of the shutdown plate are connected with reinforcing rib plates with triangular structures through bolts, and one sides of the reinforcing rib plates are stably and fixedly connected with the support sleeve through bolts.

Preferably, the top circumference of the shutdown plate is embedded with indicating lamp beads distributed in an annular array through screws, and the top center of the shutdown plate is coated with shutdown marks through fluorescent paint.

Preferably, the main support rod and the auxiliary support rod are self-locking gas springs, a charging socket is embedded in the top of the shutdown plate through a bolt, and the charging socket is electrically connected with the storage battery through a lead.

Preferably, the indication lamp bead is connected with a switch through a wire, and the switch is electrically connected with the storage battery through a wire.

The utility model has the advantages that:

1. the utility model provides a rotation type unmanned aerial vehicle parking apron, the rotating supports the screw lead screw, utilize the support footing to place the level with the floor, pass through the connecting block with four main tributary vaulting poles, the stopper installation, build the completion with the main tributary vaulting pole, then accomplish a plurality of vice back shafts and the installation of shut down the board, connecting rod and battery are installed to the bottom of shut down the board, utilize the battery to act as the balancing weight, make the shut down the board keep the level all the time, constitute an unmanned aerial vehicle parking apron support that can rotate, a plurality of unmanned aerial vehicles can park on the different shut down boards, the increase unmanned aerial vehicle's that is showing shut down quantity, the efficiency and the throughput of parking apron have been improved.

2. The utility model provides a rotation type unmanned aerial vehicle air park, when unmanned aerial vehicle shuts down, the user can pass through the rotation rocker, with the rotation of vacant parking board to the top, for unmanned aerial vehicle provides the parking environment, simultaneously, can utilize spacing bolt and spacing hole cooperation to fix the air park, improves the stability of shutting down, when night, can open corresponding instruction lamp pearl for the air park is clearly visible at night, shuts down at night for unmanned aerial vehicle brings very big facility, improves the utility model provides an application range of air park.

3. The utility model provides a rotation type unmanned aerial vehicle air park, when the equipment, the user of service can be according to unmanned aerial vehicle's actual quantity, increase and decrease the quantity of vice bracing piece, the elastic rod that utilizes different quantity constitutes the not support ring of equidimension, and simultaneously, increase and decrease the quantity of shut-down plate, make rotation type unmanned aerial vehicle air park use more nimble convenient, and simultaneously, at the in-process of shutting down, can utilize the battery to charge for unmanned aerial vehicle, promote unmanned aerial vehicle's duration, when not using, can disassemble air park into each accessory and accomodate, and is convenient to carry, provide very big facility for outdoor amusement.

Drawings

Fig. 1 is a schematic structural view of a rotary unmanned aerial vehicle apron provided by the present invention;

fig. 2 is a schematic view of a partial side view structure of a rotary unmanned aerial vehicle apron provided by the present invention;

fig. 3 is the utility model provides a rotation type unmanned aerial vehicle air park's shutdown plate structure schematic diagram.

In the figure: the device comprises a support footing 1, an internal threaded pipe 2, a support threaded screw rod 3, a main support rod 4, an elastic rod 5, an auxiliary support rod 6, an indication lamp bead 7, a main support shaft 8, a four-way connector 9, a connection disc 10, a reinforcing rib plate 11, an auxiliary support shaft 12, a support sleeve 13, a stop plate 14, a connection rod 15, a storage battery 16, a limit bolt 17, a bottom plate 18, a limit block 19, a connection block 20, a limit hole 21 and a rocker 22.

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.

Referring to fig. 1-3, a rotary unmanned aerial vehicle parking apron comprises a bottom plate 18, four main support rods 4 are arranged at four corners of the top of the bottom plate 18, the top ends of the two main support rods 4 positioned on the same side of the bottom plate 18 are hinged with the same connecting disc 10, a circular perforation is arranged at the center of a circle between the two connecting discs 10, the inside of the two circular perforation is rotatably connected with the same main support shaft 8, two ends of the circumferential outer wall of the main support shaft 8 are in threaded connection with four to eight auxiliary support rods 6 which are annularly and integrally distributed, the other end of the auxiliary support rod 6 is in threaded connection with a four-way connector 9 with a right-angle structure, an elastic rod 5 is in threaded connection between the four-way connectors 9 positioned on the same side, a support ring is formed between the elastic rods 5, and the same auxiliary support shaft 12 is connected between the, the circumference outer wall of vice back shaft 12 all rotates and is connected with supporting sleeve 13, and there is the board 14 that stops that the level set up at the top of supporting sleeve 13 through bolted connection, there is the connecting rod 15 of vertical setting bottom central authorities of supporting sleeve 13 through bolted connection, and there is battery 16 bottom of connecting rod 15 through bolted connection, there is the rocker 22 that the cross section is L type structure at the both ends of main tributary supporting shaft 8 through bolted connection, and one side threaded connection of rocker 22 has spacing bolt 17, the spacing hole 21 that annular array distributes is all seted up to the circumference outer wall of two connection pads 10, and peg graft respectively in the inside in two spacing holes 21 in the one end of two spacing bolts 17.

In the utility model, rectangular slots are arranged at four corners of the top of a bottom plate 18, connecting blocks 20 are inserted into the four rectangular slots, the top of each connecting block 20 is welded with a stopper 19, the top ends of the four stoppers 19 are respectively in threaded connection with the bottom ends of four main support rods 4, two inner threaded pipes 2 are respectively connected with two sides of the bottom plate 18 through bolts, the inner parts of the four inner threaded pipes 2 are respectively in threaded connection with a vertically arranged support threaded screw 3, the bottom of the four support threaded screws 3 are respectively connected with support feet 1 through bearings, four corners of the bottom of a shutdown plate 14 are respectively connected with a reinforcing plate 11 with a triangular structure through bolts, one side of the reinforcing plate 11 is firmly connected with a support sleeve 13 through bolts, the circumference of the top of the shutdown plate 14 is embedded with indicating lamp beads 7 distributed in an annular array through bolts, and the center of the top of the shutdown plate 14 is coated with a shutdown identifier through fluorescent, the main supporting rod 4 and the auxiliary supporting rod 6 are self-locking air springs, a charging socket is embedded in the top of the shutdown plate 14 through a bolt, the charging socket is electrically connected with the storage battery 16 through a lead, the indicating lamp bead 7 is connected with a switch through a lead, the switch is electrically connected with the storage battery 16 through a lead, and the switch is stably connected with the shutdown plate 14 through a bolt.

The working principle is as follows: at the idle position of the device, all driving parts, which refer to power elements, electric devices and adaptive power supplies, are connected through leads, and specific connecting means refer to the following working principle that the electric connection is completed among the electric devices in sequence;

rotating a supporting threaded screw rod 3, utilizing a supporting footing 1 to level a floor 18, installing four main supporting rods 4 through a connecting block 20 and a limiting block 19, completing the construction of a main supporting shaft 8, then completing the installation of a plurality of auxiliary supporting shafts 12 and a shutdown plate 14, installing a connecting rod 15 and a storage battery 16 at the bottom of the shutdown plate 14, utilizing the storage battery 16 as a balancing weight to ensure that the shutdown plate 14 is always kept horizontal, forming a rotatable unmanned aerial vehicle parking lot bracket, enabling a plurality of unmanned aerial vehicles to be parked on different shutdown plates 14, obviously increasing the parking number of the unmanned aerial vehicles, improving the efficiency and the throughput of the parking lot, enabling a user to rotate the vacant parking plate 14 to the upper side through rotating a rocker 22 when the unmanned aerial vehicles are parked, providing a parking environment for the unmanned aerial vehicles, and simultaneously utilizing a limiting bolt 17 to be matched with a limiting hole 21 to fix the parking lot, the stability of the parking is improved, and the corresponding indicating lamp beads 7 can be turned on at night, so that the parking plate 14 can be clearly seen at night, great convenience is brought to the night parking of the unmanned aerial vehicle, and the application range of the parking apron provided by the utility model is enlarged;

when the equipment, the user of service can be according to unmanned aerial vehicle's actual quantity, increase and decrease the quantity of auxiliary stay pole 6, utilize the elastic rod 5 of different quantity to constitute not equidimension support ring, and simultaneously, increase and decrease the quantity of shut-down board 14, make rotation type unmanned aerial vehicle air park use more nimble convenient, and simultaneously, at the in-process of shutting down, can utilize battery 16 to charge for unmanned aerial vehicle, promote unmanned aerial vehicle's duration, when not using, can disassemble the air park into each accessory and accomodate, and is convenient to carry, provides very big facility for outdoor amusement.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (7)

1. The rotary unmanned aerial vehicle parking apron comprises a bottom plate (18) and is characterized in that four main support rods (4) are arranged at four corners of the top of the bottom plate (18), the top ends of the two main support rods (4) which are positioned at the same side of the bottom plate (18) are hinged with a same connecting disc (10), a main support shaft (8) is arranged between the connecting discs (10), four to eight auxiliary support rods (6) which are distributed in an annular array are connected to two ends of the outer wall of the circumference of the main support shaft (8) in a threaded manner, four-way connectors (9) of a right-angle structure are connected to the other ends of the auxiliary support rods (6) in a threaded manner, elastic rods (5) are connected between the four-way connectors (9) positioned at the same side in a threaded manner, a same auxiliary support shaft (12) is connected between the two four-way connectors (9) positioned on the same plane in a threaded manner, and support sleeves, and the top of the support sleeve (13) is connected with a shutdown plate (14) through a bolt, the bottom center of the support sleeve (13) is connected with a connecting rod (15) through a bolt, the bottom of the connecting rod (15) is connected with a storage battery (16) through a bolt, the two ends of the main support shaft (8) are connected with a rocker (22) through a bolt, one side of the rocker (22) is connected with a limit bolt (17) through a thread, the two limit holes (21) distributed in an annular array are formed in the outer wall of the circumference of the connecting disc (10), and one end of each limit bolt (17) is respectively inserted into the two limit holes (21).

2. The rotary unmanned aerial vehicle apron as claimed in claim 1, wherein rectangular slots are formed in four corners of the top of the bottom plate (18), the connecting blocks (20) are inserted into the four rectangular slots, the limiting blocks (19) are welded to the tops of the four connecting blocks (20), and the top ends of the four limiting blocks (19) are respectively in threaded connection with the bottom ends of the four main supporting rods (4).

3. The rotary unmanned aerial vehicle apron of claim 2, characterized in that two internal threaded pipes (2) are connected to both sides of the bottom plate (18) through bolts, and vertically arranged supporting threaded screws (3) are connected to the insides of the four internal threaded pipes (2) through threaded connections, and supporting feet (1) are connected to the bottoms of the four supporting threaded screws (3) through bearings.

4. The rotary unmanned aerial vehicle apron according to claim 3, wherein four corners of the bottom of the apron (14) are connected with reinforcing rib plates (11) with triangular structures through bolts, and one side of each reinforcing rib plate (11) is firmly connected with the support sleeve (13) through a bolt.

5. The rotary unmanned aerial vehicle apron of claim 4, characterized in that the top circumference of the apron (14) is screwed with indicating lamp beads (7) distributed in an annular array, and the top center of the apron (14) is coated with an apron mark by fluorescent paint.

6. The rotary unmanned aerial vehicle apron of claim 5, characterized in that the main support bar (4) and the auxiliary support bar (6) are self-locking gas springs, the top of the apron (14) is embedded with a charging socket through a bolt, and the charging socket is electrically connected with the storage battery (16) through a wire.

7. The rotary unmanned aerial vehicle apron of claim 6, characterized in that the indicator light bead (7) is connected with a switch through a wire, and the switch is electrically connected with the storage battery (16) through a wire.

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