CN218288165U - Unmanned aerial vehicle airport buffering platform - Google Patents

Abstract

The utility model relates to an unmanned aerial vehicle platform technical field specifically is an unmanned aerial vehicle airport buffering platform, include: the assembling device comprises an assembling shell, a bearing table and a bearing seat, wherein the bearing table is arranged above the inside of the assembling shell; the bottom end of the interior of the assembling shell is fixedly provided with a supporting block, one side of the supporting block is provided with a damping spring, a rubber plate is connected above the supporting block, a rubber buffer is installed at the top end of the rubber plate, and the bottom end of the bearing table is connected with an engaging plate. The utility model discloses a plurality of rubber buffer of group are connected to plummer bottom welded linking plate, and the rubber slab of connecting on the supporting shoe in the assembly shell simultaneously, it is fixed mutually with rubber buffer, be convenient for when unmanned aerial vehicle stops to fall, dispersion unmanned aerial vehicle plays the cushioning effect to the impact force of plummer, installs damping spring between plummer and the assembly shell inner wall bottom simultaneously, plays the shock attenuation effect, is convenient for improve the cushioning effect.

Description

Unmanned aerial vehicle airport buffering platform

Technical Field

The utility model relates to an unmanned aerial vehicle platform technical field specifically is an unmanned aerial vehicle airport buffering platform.

Background

Unmanned aerial vehicle technique is becoming more mature, important fields such as military in china, agriculture all use, even at advertisement, film and video media also need unmanned aerial vehicle to shoot etc. conventional unmanned aerial vehicle except this body, needs corresponding airport platform, is convenient for land and stops, take off and fill can, guarantees the safety that unmanned aerial vehicle descends, and general unmanned aerial vehicle platform carries through load-bearing platform in the reality, keeps the roughness of contact surface when landing and stopping.

But the static bearing capacity of some platforms satisfies unmanned aerial vehicle's demand, but has certain impact force when unmanned aerial vehicle lands and stops, if the impact resistance and the buffer capacity of platform are not enough, produce not steadily very easily, influence the problem that unmanned aerial vehicle lands and stops, for this reason, we propose an unmanned aerial vehicle airport buffering platform.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an unmanned aerial vehicle airport buffering platform to the static bearing capacity who provides some platforms in solving above-mentioned background art satisfies unmanned aerial vehicle's demand, but has certain impact force when unmanned aerial vehicle lands to stop, if the anti impact force and the buffer capacity of platform are not enough, produces not steadily very easily, influences the problem that unmanned aerial vehicle lands to stop.

In order to achieve the above purpose, the utility model provides a following technical scheme: an unmanned aerial vehicle airport buffer platform, comprising: the assembling device comprises an assembling shell, a bearing table and a bearing seat, wherein the bearing table is arranged above the inside of the assembling shell; the bottom end of the interior of the assembling shell is fixedly provided with a supporting block, one side of the supporting block is provided with a damping spring, the upper portion of the supporting block is connected with a rubber plate, the top end of the rubber plate is provided with a rubber buffer, the bottom end of the bearing table is connected with a connecting plate, the top end of the bearing table is provided with a sliding groove, the interior of the sliding groove is connected with a rubber pad, and one side of the sliding groove is provided with a groove.

Preferably, the assembly shell is connected with the supporting block in a welding mode, and the supporting block is connected with the rubber plate in an adhesive mode.

Preferably, the rubber plate is connected with the rubber buffer in an adhesion mode, and the rubber buffers are distributed equidistantly and uniformly relative to the top end face of the rubber plate.

Preferably, the sliding groove is communicated with the groove, and the sliding groove is connected with the rubber pad in an adhesion mode.

Preferably, the other side of spout is settled there is the piece that blocks, and blocks the outer wall of piece and seted up the spacing groove, inner wall one side of spacing groove is connected with the buffer board, and the inner wall opposite side of spacing groove has seted up the intercommunicating pore, the inside of intercommunicating pore is worn out and is pressed from both sides tight piece, and the one end of pressing from both sides tight piece is connected with electric putter.

Preferably, the stop block is detachably connected with the bearing table through a bolt, and the stop block is connected with the buffer plate in an adhesion mode.

Preferably, the clamping block forms a sliding structure with the communicating hole through an electric push rod, and the clamping block is tightly attached to the buffer plate through the electric push rod.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a plurality of rubber buffer of group are connected to plummer bottom welded linking plate, and the rubber slab of connecting on the supporting shoe in the assembly shell simultaneously, it is fixed mutually with rubber buffer, be convenient for when unmanned aerial vehicle stops to fall, dispersion unmanned aerial vehicle plays the cushioning effect to the impact force of plummer, installs damping spring between plummer and the assembly shell inner wall bottom simultaneously, plays the shock attenuation effect, is convenient for improve the cushioning effect.

The utility model discloses a set up when unmanned aerial vehicle stops to land, correspond the plummer top slide and get into to the unmanned aerial vehicle support frame, the spout is the wide narrow form on one side of one end, be convenient for through the friction of spout with the unmanned aerial vehicle support frame, unload some impact force, the inside bonding of spout has the rubber pad simultaneously, improve frictional force and further improve shock-absorbing capacity, set up flutedly at assembly shell and spout corresponding point, when the plummer atress is through gliding, the unmanned aerial vehicle support frame of being convenient for gets into the recess, avoid bumping with the assembly shell.

The utility model discloses when unmanned aerial vehicle slided along the spout, its support frame inserted the spacing groove of blockking the piece and is convenient for stop moving, spacing inslot wall one side bonding buffer board, laminate mutually with the unmanned aerial vehicle support frame, promote through electric putter work and press from both sides tight piece and wear out the intercommunicating pore, make and press from both sides tight piece and compress tightly the unmanned aerial vehicle support frame in buffer board one side, carry on spacingly and fixed, avoid unmanned aerial vehicle to take place to rock.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

FIG. 3 is a schematic diagram of the rubber sheet structure of the present invention;

fig. 4 is a schematic diagram of the blocking block structure of the present invention.

In the figure: 1. assembling the shell; 2. a bearing platform; 3. a connection plate; 4. a rubber buffer; 5. a rubber plate; 6. a support block; 7. a damping spring; 8. a chute; 9. a rubber pad; 10. a groove; 11. a blocking block; 12. a limiting groove; 13. a communicating hole; 14. a clamping block; 15. an electric push rod; 16. a buffer plate.

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-

Fig. 3, an unmanned aerial vehicle airport buffer platform, comprising: the assembling device comprises an assembling shell 1, wherein a bearing platform 2 is arranged above the inside of the assembling shell 1; the bottom end in the assembly shell 1 is fixed with a supporting block 6, one side of the supporting block 6 is provided with a damping spring 7, a rubber plate 5 is connected above the supporting block 6, the top end of the rubber plate 5 is provided with a rubber buffer 4, the bottom end of the bearing table 2 is connected with a connecting plate 3, the assembly shell 1 is connected with the supporting block 6 in a welding way, the supporting block 6 is connected with the rubber plate 5 in an adhesive way, the rubber plate 5 is connected with the rubber buffer 4 in an adhesive way, the rubber buffer 4 is uniformly distributed in an equidistant way around the top end of the rubber plate 5, the connecting plate 3 welded at the bottom end of the bearing table 2 is connected with a plurality of groups of rubber buffers 4, meanwhile, the rubber plate 5 connected on the supporting block 6 in the assembly shell 1 is mutually adhered and fixed with the rubber buffer 4, so as to disperse the impact force of the unmanned aerial vehicle on the bearing table 2 when the unmanned aerial vehicle stops descending, and play a buffering role, and meanwhile, the damping spring 7 is arranged between the bearing table 2 and the bottom end of the inner wall of the assembly shell 1, play the shock attenuation effect, be convenient for improve the cushioning effect, spout 8 has been seted up on the top of plummer 2, spout 8's internal connection has rubber pad 9, one side of spout 8 is provided with recess 10, spout 8 is linked together with recess 10, spout 8 is connected with rubber pad 9 bonding, when unmanned aerial vehicle stops to land, correspond the unmanned aerial vehicle support frame and go up spout 8 and get into on the plummer 2, spout 8 is the wide narrow form on one side of one end, be convenient for through the friction of spout 8 with the unmanned aerial vehicle support frame, unload some impact force, spout 8 internal bonding has rubber pad 9 simultaneously, improve frictional force and further improve the shock-absorbing capacity, at assembly shell 1 and spout 8 corresponding point seted up recess 10, when plummer 2 atress is through the gliding, the unmanned aerial vehicle support frame of being convenient for gets into recess 10, avoid bumping with assembly shell 1.

As shown in fig. 1 and 4, an unmanned aerial vehicle airport buffering platform comprises: the opposite side of spout 8 is settled and is blocked piece 11, the spacing groove 12 has been seted up to the outer wall that blocks piece 11, inner wall one side of spacing groove 12 is connected with buffer board 16, intercommunicating pore 13 has been seted up to the inner wall opposite side of spacing groove 12, the inside of intercommunicating pore 13 is worn out and is had tight piece 14, the one end of pressing from both sides tight piece 14 is connected with electric putter 15, it can dismantle with plummer 2 through the bolt and is connected to block piece 11, it is connected with buffer board 16 bonding to block piece 11, it forms sliding construction through electric putter 15 and intercommunicating pore 13 to press from both sides tight piece 14, closely laminate with buffer board 16 through electric putter 15, when unmanned aerial vehicle slides along spout 8, its support frame inserts the spacing groove 12 that blocks piece 11 and is convenient for stop moving, spacing groove 12 inner wall one side bonding buffer board 16, laminate with the unmanned aerial vehicle support frame, it wears out intercommunicating pore 13 to promote to press from both sides tight piece 14 through electric putter 15 work, make press from both sides tight piece 14 and compress tightly the unmanned aerial vehicle support frame in buffer board 16 one side, spacing unmanned aerial vehicle support frame is spacing and fixed, avoid taking place to rock.

The working principle is as follows: when using the buffering platform, at first be equipped with plummer 2 on assembly shell 1 top, plummer 2 bottom welding links up board 3, the top bonding rubber slab 5 of the supporting shoe 6 of assembly shell 1 internal weld simultaneously, a plurality of groups rubber buffer 4 are installed to rubber slab 5 top, when plummer 2 atress gliding, disperse the impact force through rubber buffer 4 and rubber slab 5, play certain cushioning effect, plummer 2 and assembly shell 1 are inside to be equipped with damping spring 7 simultaneously, elasticity through damping spring 7, further improve the cushion force and the shock attenuation nature of buffering platform, assembly shell 1 sets up recess 10, when being convenient for unmanned aerial vehicle to stop and land, plummer 2 atress pushes down, be convenient for settle the unmanned aerial vehicle support frame through recess 10, avoid taking place to collide and lead to unmanned aerial vehicle side turn on, plummer 2 sets up spout 8, be the form that one end is wide one end is narrow, be convenient for carrying out certain degree to the blockking to the unmanned aerial vehicle support frame in advancing, slow down the impact clamping force, simultaneously, spout 8 internal bonding rubber slab 9 improves the frictional force, further slow down, after the unmanned aerial vehicle stops further, the support frame gets into the steady, the support frame 11, the electronic buffer block 16 that the outer wall of the support frame that the unmanned aerial vehicle runs out through the electronic buffer block that the push rod that 16 or rock through the electronic collision that the collision takes place.

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 (7)

1. An unmanned aerial vehicle airport buffering platform, comprising: the assembling device comprises an assembling shell (1), wherein a bearing table (2) is arranged above the inside of the assembling shell (1); the rubber buffer assembling device is characterized in that a supporting block (6) is fixed to the bottom end of the inner portion of the assembling shell (1), a damping spring (7) is arranged on one side of the supporting block (6), a rubber plate (5) is connected to the upper portion of the supporting block (6), a rubber buffer (4) is installed on the top end of the rubber plate (5), a connecting plate (3) is connected to the bottom end of the bearing table (2), a sliding groove (8) is formed in the top end of the bearing table (2), a rubber pad (9) is connected to the inner portion of the sliding groove (8), and a groove (10) is formed in one side of the sliding groove (8).

2. An unmanned aerial vehicle airport buffer platform of claim 1, wherein said mounting shell (1) is welded to a support block (6) and the support block (6) is glued to the rubber plate (5).

3. An unmanned aerial vehicle airport buffering platform of claim 1, wherein the rubber plate (5) is adhesively connected with the rubber bumper (4), and the rubber bumper (4) is equally spaced and evenly distributed about the top surface of the rubber plate (5).

4. An unmanned aerial vehicle airport buffer platform of claim 1, wherein said chute (8) is in communication with the groove (10) and the chute (8) is adhesively attached to the rubber pad (9).

5. The unmanned aerial vehicle airport buffering platform of claim 1, wherein a blocking block (11) is arranged on the other side of the sliding chute (8), a limiting groove (12) is formed in the outer wall of the blocking block (11), a buffering plate (16) is connected to one side of the inner wall of the limiting groove (12), a communication hole (13) is formed in the other side of the inner wall of the limiting groove (12), a clamping block (14) penetrates through the inside of the communication hole (13), and an electric push rod (15) is connected to one end of the clamping block (14).

6. An airport buffer platform for unmanned aerial vehicles, according to claim 5, wherein the blocking block (11) is detachably connected with the bearing platform (2) through bolts, and the blocking block (11) is adhesively connected with the buffer plate (16).

7. The unmanned aerial vehicle airport buffering platform of claim 5, wherein the clamping block (14) forms a sliding structure with the communication hole (13) through the electric push rod (15), and the clamping block (14) is tightly attached to the buffering plate (16) through the electric push rod (15).

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