CN217072297U - Real standard room unmanned aerial vehicle assembly platform - Google Patents

Abstract

The invention discloses an unmanned aerial vehicle assembly platform of a training room, which comprises a bearing top plate for placing an unmanned aerial vehicle body, a lifting column fixed on the lower side of the bearing top plate and used for controlling the bearing top plate to move up and down, a control barrel sleeved on the lifting column and connected with the lifting column in a sliding manner, a supporting bottom plate fixed on the lower side of the control barrel, a plurality of clamping assemblies arranged on the bearing top plate and used for clamping and locking the unmanned aerial vehicle body on the bearing top plate, and a lifting assembly arranged in the control barrel and used for controlling the lifting column to lift; and a rotating ring groove for mounting a clamping assembly is formed in the upper side of the bearing top plate.

Description

Real standard room unmanned aerial vehicle assembly platform

Technical Field

The invention relates to the technical field of unmanned aerial vehicle assembly, in particular to an unmanned aerial vehicle assembly platform in a training room.

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, and along with the continuous progress and development of the existing unmanned technology, a plurality of small civil photography unmanned aerial vehicles are put into the market in large quantity, and when the unmanned aerial vehicle is assembled in a training room, a plurality of assembling platforms are needed.

Chinese patent No. CN211967396U discloses many rotor unmanned aerial vehicle assembly platform, it slides to different positions in the T-slot through a plurality of anchor clamps, thereby can realize the fixed of the unmanned aerial vehicle's of different rotor numbers main part, and whole assembly platform height-fixing, at the in-process of unmanned aerial vehicle equipment, the back is decided to the main part clamp, need inevitably detect and assemble the fuselage of unmanned aerial vehicle co-altitude, the inconvenience of assembly platform ten minutes in the use that can not height-adjusting like this.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide an unmanned aerial vehicle assembly platform of a training room to solve the problems.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides an unmanned aerial vehicle assembly platform of a training room, which comprises a bearing top plate for placing an unmanned aerial vehicle body, a lifting column fixed on the lower side of the bearing top plate and used for controlling the bearing top plate to move up and down, a control barrel sleeved on the lifting column and connected with the lifting column in a sliding manner, a supporting bottom plate fixed on the lower side of the control barrel, a plurality of clamping assemblies arranged on the bearing top plate and used for clamping and locking the unmanned aerial vehicle body on the bearing top plate, and a lifting assembly arranged in the control barrel and used for controlling the lifting column to lift; and a rotating ring groove for mounting a clamping assembly is formed in the upper side of the bearing top plate.

Further, the clamping assembly comprises a control plate, a sliding connecting rod and a clamping plate, wherein the sliding connecting rod is fixed on the lower side of the control plate and is clamped in the rotating ring groove and is in sliding connection with the rotating ring groove, and the clamping plate is arranged on the control plate and is used for clamping the machine body.

Furthermore, the lifting assembly comprises a control rotating rod which penetrates one side of the control barrel and is rotatably connected with the control barrel, and a control rotating rod, an upper end and a lifting column which are in threaded connection, wherein the lower end of the control rotating rod is rotatably connected with the supporting bottom plate, a rotating gear which is fixed at one end, close to the supporting bottom plate, of the threaded rod and is used for rotating the threaded rod, a driving gear which is fixed at one end, close to the threaded rod, of the control rotating rod and is meshed with the rotating gear, and a rotating disc which is fixed at one end, far away from the driving gear, of the control rotating rod.

Furthermore, the middle part of the bottom end of the lifting column is provided with a thread through groove in threaded connection with the threaded rod.

Furthermore, a movable sliding chute which is connected with the clamping plate in a sliding manner is arranged on the upper side of the control plate; limiting sliding grooves for limiting the clamping plates are formed in the two sides of the moving sliding groove; a sliding bulge clamped in the movable sliding chute is fixed on one side of the clamping plate close to the control plate; limiting bulges clamped in the limiting sliding grooves are fixed on two sides of the sliding bulge; and an extrusion spring for enabling the clamping plates to approach each other is fixed on the limiting bulge.

Furthermore, toggle rings for opening the clamping plate are fixed on two sides of the clamping plate.

Further, the lower end of the sliding connecting rod is fixed with a limiting plate which limits the sliding connecting rod in the rotating ring groove.

The invention has the beneficial effects that:

the unmanned aerial vehicle assembly platform for the training room locks the theme of the unmanned aerial vehicle on the bearing top plate through the plurality of clamping assemblies, the locking assemblies are in sliding connection with the rotating ring grooves, the unmanned aerial vehicle can still rotate on the bearing top plate for 360 degrees after being locked, and the unmanned aerial vehicle can be conveniently operated; the lifting device comprises a lifting column, a control cylinder, a supporting bottom plate, a plurality of clamping assemblies and a lifting assembly, wherein the lifting column is fixed on the lower side of a bearing top plate and used for controlling the bearing top plate to move up and down; the lifting columns are controlled by the lifting assembly to move up and down in the control cylinder, the height of the bearing top plate can be controlled, and therefore the height of the unmanned aerial vehicle can be adjusted as required, and the unmanned aerial vehicle can be detected and assembled from the machine bodies with different heights.

Drawings

FIG. 1 is a schematic diagram of an overall structure of an unmanned aerial vehicle assembly platform of a training room according to the invention;

FIG. 2 is a schematic structural view of an assembly platform lifting assembly of an unmanned aerial vehicle in a training room according to the present invention;

FIG. 3 is a schematic structural view of a bearing top plate of an assembly platform of an unmanned aerial vehicle in a training room according to the invention;

FIG. 4 is a schematic cross-sectional view of a bearing top plate of an assembly platform of an unmanned aerial vehicle in a training room according to the invention;

fig. 5 is a schematic sectional structure view of a clamping assembly of an assembly platform of an unmanned aerial vehicle in a training room of the invention.

Reference numbers in the figures:

1. a load bearing top plate; 2. a lifting column; 3. a control cylinder; 4. a support base plate; 5. a clamping assembly; 6. a lifting assembly; 7. rotating the ring groove; 8. a control panel; 9. a sliding connecting rod; 10. a clamping plate; 11. a threaded rod; 12. a rotating gear; 13. controlling the rotating rod; 14. a drive gear; 15. rotating the disc; 16. a threaded through slot; 17. a moving chute; 18. a limiting chute; 19. a slipping projection; 20. a limiting bulge; 21. a compression spring; 22. a dial ring; 23. and a limiting plate.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1 to 5, the assembly platform for an unmanned aerial vehicle in a training room provided in this embodiment includes a bearing top plate 1 for placing a body of the unmanned aerial vehicle, a lifting column 2 fixed on a lower side of the bearing top plate 1 for controlling the bearing top plate 1 to move up and down, a control cylinder 3 sleeved on the lifting column 2 and slidably connected with the lifting column 2, a support bottom plate 4 fixed on a lower side of the control cylinder 3, a plurality of clamping assemblies 5 mounted on the bearing top plate 1 for clamping and locking the body on the bearing top plate 1, and a lifting assembly 6 disposed in the control cylinder 3 for controlling the lifting column 2 to lift; and a rotary ring groove 7 for installing the clamping assembly 5 is formed in the upper side of the bearing top plate 1.

Further, the clamping assembly 5 comprises a control plate 8, a sliding connecting rod 9 which is fixed on the lower side of the control plate 8, clamped in the rotating ring groove 7 and connected with the rotating ring groove 7 in a sliding manner, and a clamping plate 10 which is arranged on the control plate 8 and used for clamping the machine body; sliding connection pole 9 removes at rotating ring groove 7 and can make clamping component 7 remove along rotating ring groove 7 on bearing roof 1, can adjust the position of clamping component 5 with the balanced locking of unmanned aerial vehicle fuselage on bearing roof 1 according to the shape of unmanned aerial vehicle fuselage and size.

Further, the lifting assembly 6 comprises a control rotating rod 13 penetrating one side of the control barrel 3 and rotatably connected with the control barrel 3, a threaded rod 11 with the upper end in threaded connection with the lifting column 2 and the lower end in rotatable connection with the support bottom plate 4, a rotating gear 12 fixed at one end of the threaded rod 11 close to the support bottom plate 4 and used for rotating the threaded rod 11, a driving gear 14 fixed at one end of the control rotating rod 13 close to the threaded rod 11 and meshed with the rotating gear 12, and a rotating disc 15 fixed at one end of the control rotating rod 13 far away from the driving gear 14; the rotating disc 5 controls the driving gear 14 to rotate to drive the rotating gear 12 to rotate so as to control the rotating rod 13 to rotate, so that the lifting column 2 is controlled to move up and down to enable the bearing top plate 1 to move up and down to adjust the height of the unmanned aerial vehicle body.

Further, a threaded through groove 16 in threaded connection with the threaded rod 11 is formed in the middle of the bottom end of the lifting column 2; when the threaded rod rotates, the lifting columns 2 can be controlled to move up and down to control the height of the machine body from the lifting of the bearing top plate 1.

Further, a movable sliding chute 17 connected with the clamping plate 10 in a sliding manner is arranged on the upper side of the control plate 8; limiting sliding grooves 18 for limiting the clamping plate 10 are formed in two sides of the moving sliding groove 17; a sliding bulge 19 clamped in the movable sliding chute 17 is fixed on one side of the clamping plate 10 close to the control plate 8; limiting bulges 20 clamped in the limiting sliding grooves 18 are fixed on two sides of the sliding bulge 19; an extrusion spring 21 for enabling the clamping plates 10 to be close to each other is fixed on the limiting bulge 20; the clamping plate 10 is limited in the moving sliding chute 17 through the sliding protrusion 19 and the limiting protrusion 20, and the clamping function is realized by controlling the horizontal moving of the clamping plate 10 in the moving sliding chute 17 through the extrusion spring 21.

Further, toggle rings 22 for opening the clamping plate 10 are fixed on two sides of the clamping plate 10; the opening of the clamping plate 10 can be controlled by means of the toggle ring 22.

Further, a limiting plate 23 for limiting the sliding connecting rod 9 in the rotating ring groove 7 is fixed at the lower end of the sliding connecting rod 9; the limiting plate 23 is clamped in the limiting chute 18, so that the clamping assembly 5 can be prevented from being separated from the bearing top plate 1.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (7)

1. The utility model provides a real standard room unmanned aerial vehicle assembly platform which characterized in that: the unmanned aerial vehicle body lifting device comprises a bearing top plate (1) for placing an unmanned aerial vehicle body, a lifting column (2) fixed on the lower side of the bearing top plate (1) and used for controlling the bearing top plate (1) to move up and down, a control barrel (3) sleeved on the lifting column (2) and connected with the lifting column (2) in a sliding manner, a supporting bottom plate (4) fixed on the lower side of the control barrel (3), a plurality of clamping assemblies (5) installed on the bearing top plate (1) and used for clamping and locking the body on the bearing top plate (1), and a lifting assembly (6) arranged in the control barrel (3) and used for controlling the lifting column (2) to lift; and a rotating ring groove (7) for installing the clamping component (5) is formed in the upper side of the bearing top plate (1).

2. The assembly platform of the training room unmanned aerial vehicle of claim 1, wherein: the clamping assembly (5) comprises a control plate (8), a sliding connecting rod (9) which is fixed on the lower side of the control plate (8) and is clamped in the rotating ring groove (7) and is connected with the rotating ring groove (7) in a sliding manner, and a clamping plate (10) which is arranged on the control plate (8) and is used for clamping the machine body.

3. The assembly platform of the training room unmanned aerial vehicle of claim 1, wherein: lifting unit (6) including passing control section of thick bamboo (3) one side and with control section of thick bamboo (3) rotate control bull stick (13) of being connected, upper end and lift post (2) threaded connection, threaded rod (11) that lower extreme and supporting baseplate (4) rotate to be connected, fix rotating gear (12) that threaded rod (11) are close to supporting baseplate (4) one end and are used for rotating threaded rod (11), fix control bull stick (13) and be close to threaded rod (11) one end and with rotating gear (12) meshed drive gear (14) and fix rolling disc (15) of keeping away from drive gear (14) one end in control bull stick (13).

4. The assembly platform of the training room unmanned aerial vehicle of claim 3, wherein: the middle part of the bottom end of the lifting column (2) is provided with a thread through groove (16) in threaded connection with the threaded rod (11).

5. The assembly platform of the training room unmanned aerial vehicle of claim 2, wherein: a moving chute (17) which is connected with the clamping plate (10) in a sliding way is arranged on the upper side of the control plate (8); limiting sliding grooves (18) for limiting the clamping plate (10) are formed in the two sides of the moving sliding groove (17); a sliding bulge (19) clamped in the movable sliding groove (17) is fixed on one side of the clamping plate (10) close to the control plate (8); limiting bulges (20) clamped in the limiting sliding grooves (18) are fixed on the two sides of the sliding bulge (19); and an extrusion spring (21) which enables the clamping plates (10) to be close to each other is fixed on the limiting bulge (20).

6. The assembly platform of the training room unmanned aerial vehicle of claim 2, wherein: and poking rings (22) for opening the clamping plate (10) are fixed on two sides of the clamping plate (10).

7. The assembly platform of the training room unmanned aerial vehicle of claim 2, wherein: and a limiting plate (23) which limits the sliding connecting rod (9) in the rotating ring groove (7) is fixed at the lower end of the sliding connecting rod (9).

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