CN218956894U - Reflecting mirror pitching rotation device - Google Patents

Abstract

The technical scheme is that the reflector pitching rotation device comprises a rotation shell, a rotation plate, a support plate, a top shell, an adjusting component, a lifting plate and a placing plate, wherein the rotation plate is rotationally arranged on the bottom of the rotation shell; the utility model belongs to the technical field of airplane surveying, and particularly relates to a reflector pitching rotation device which is convenient for driving a driving rod and a sliding block to move through an adjusting component, conveniently driving a connecting plate and a placing plate to rotate on a supporting plate, conveniently adjusting angles, avoiding the occurrence of an excessively narrow visual field range, conveniently driving a rotating plate to rotate through a rotating motor, conveniently driving the rotating plate to rotate, further adjusting angles, and conveniently connecting through a fixing plate and a connecting bolt.

Description

Reflecting mirror pitching rotation device

Technical Field

The utility model belongs to the technical field of aircraft surveying, and particularly relates to a reflector pitching rotation device.

Background

Aeronautical surveying is a means of surveying and mapping on the ground by taking an aircraft in the atmosphere as a measuring carrier, wherein a surveying and mapping object is a position relation of a ground object, the aim is to map geodetic coordinates by data obtained through aeronautical shooting, and a commonly adopted method is aeronautical photogrammetry. Aerial photogrammetry is a process of continuously shooting the ground by using aerial photography instruments on an airplane and drawing a topographic map. It is known that a mirror is also installed on an existing aero-survey aircraft, and the ground is observed through the mirror, so that the ground condition is mastered. However, the existing reflector has the problems that the angle is not adjustable and the visual field is too narrow in the use process.

Disclosure of Invention

To above-mentioned circumstances, in order to overcome prior art's defect, this scheme provides one kind and conveniently drives driver's pole and sliding block through adjusting the subassembly and remove, conveniently drives the connecting plate and place the board and rotate in the backup pad, and the angle is adjusted to the convenience, avoids appearing that the visual field scope is too narrow, conveniently drives the rotor plate through the rotating electrical machines and rotates, conveniently drives the rotor plate and rotates, and further angle regulation is convenient to connect the reflector every single move rotating device through fixed plate and connecting bolt.

The technical scheme adopted by the utility model is as follows: this scheme a speculum every single move rotary device, including rotatory shell, rotor plate, backup pad, top shell, adjustment subassembly, lifter plate and placement plate, the rotor plate is rotatory to be located on the rotatory shell bottom, on the rotor plate was located to the backup pad symmetry, on the rotor plate was located to the top shell, in the top shell was located to adjustment subassembly, on the backup pad was located to the lifter plate slip, in the backup pad was located in the placement plate rotation, adjustment subassembly includes elevator motor, lift driving gear, lift driven gear, lift worm, lift backup pad, lift worm wheel, lifter, drive groove, drive post, drive wheel and lifter plate, drive post symmetry locates on the lifter plate, lift driving gear rotation is located on the top shell bottom, lift driven gear rotation is located on the top shell bottom, lift driving gear meshing lift driven gear, on the top shell was located to the rotation of lift worm, lift worm connection lift driven gear, on the top shell was located to the lift backup pad symmetry, lift meshing lift worm, on the lifter plate one end rotation was located lift worm wheel, the lift worm wheel fixed knot was located the lifter wheel, the lift driving gear was located in the lift driving groove, the lift driving gear was located in the other side was located in the top shell.

Preferably, the placing plate is provided with a connecting plate.

Preferably, the lifting plate is symmetrically provided with driving rods.

Preferably, sliding blocks are symmetrically arranged on the connecting plates, and the sliding blocks are hinged on the driving rods.

Preferably, the placing plate is symmetrically provided with fixing blocks, and the fixing blocks are provided with fixing balls.

Preferably, the reflecting mirror is arranged between the fixed blocks and is close to the fixed ball.

Preferably, a coupler is rotatably arranged at the inner bottom of the rotary shell, and the coupler is connected with the rotary plate.

Preferably, a rotating motor is arranged on the top in the rotating shell, and the output end of the rotating motor is connected with a coupler.

Preferably, the top of the rotary shell is symmetrically provided with a fixing plate.

Preferably, the fixing plate is provided with a connecting bolt, and the connecting bolt is in threaded connection with the fixing plate.

The beneficial effects obtained by the utility model by adopting the structure are as follows: the rotating plate is conveniently driven to rotate through the rotating motor, the rotating plate is conveniently driven to rotate, the angle is conveniently adjusted, the rotating plate is conveniently driven to rotate through the rotating motor, the angle is further adjusted, and the connecting plate is conveniently connected through the fixing plate and the connecting bolt.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present solution.

Wherein, 1, a rotary shell, 2, a rotary plate, 3, a supporting plate, 4, a top shell, 5, an adjusting component, 6, a lifting plate, 7, a placing plate, 8, a lifting motor, 9, a lifting driving gear, 10, a lifting driven gear,

11. a lifting worm, 12, a lifting supporting plate, 13, a lifting worm wheel, 14, a lifting rod, 15 and a driving groove,

16. the driving post, 17, driving wheel, 18, connecting plate, 19, driving rod, 20, sliding block, 21, reflector, 22, fixed block, 23, fixed ball, 24, coupling, 25, rotating electrical machine, 26, fixed plate, 27, connecting bolt.

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model; all other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1, this scheme a reflector every single move rotary device, including rotatory shell 1, rotatory plate 2, backup pad 3, top shell 4, adjustment subassembly 5, lifter plate 6 and placement plate 7, rotatory plate 2 is rotatory to be located on rotatory shell 1 bottom, backup pad 3 symmetry is located on rotatory plate 2, top shell 4 is located on rotatory plate 2, adjustment subassembly 5 is located in top shell 4, lifter plate 6 slides and locates on backup pad 3, placement plate 7 rotation is located on backup pad 3, adjustment subassembly 5 includes lift motor 8, lift driving gear 9, lift driven gear 10, lift worm 11, lift backup pad 12, lift worm wheel 13, lifter lever 14, drive groove 15, drive post 16, drive wheel 17 and lifter plate 6, drive post 16 symmetry is located on lifter plate 6, lift driving gear 9 rotation is located on top shell 4 inner bottom, lift driven gear 10 rotation is located on top shell 4 inner bottom, lift driving gear 9 meshes lift driven gear 10, lift worm 11 rotation is located on top shell 4, lift worm wheel 11 connection worm wheel 12, lift driving gear 14 is located on the other side is located on top shell 12, lift driving gear 13, lift driving gear 14 is located to rotate on the top shell 16, lift driving gear 15, lift driving gear 16 is located on the other side is located to rotate, lift driving gear 13 is located on top of the top shell 12, lift driving gear 13 is located on the rotation is located to rotate, lift driving gear 13.

Wherein, the placing plate 7 is provided with a connecting plate 18.

The lifting plate 6 is symmetrically provided with driving rods 19.

The connecting plate 18 is symmetrically provided with sliding blocks 20, and the sliding blocks 20 are hinged on the driving rod 19.

The placing plate 7 is symmetrically provided with fixing blocks 22, and the fixing blocks 22 are provided with fixing balls 23.

The reflecting mirror 21 is arranged between the fixed blocks 22 and is close to the fixed balls 23.

A coupler 24 is rotatably arranged on the inner bottom of the rotary shell 1, and the coupler 24 is connected with the rotary plate 2.

A rotating motor 25 is arranged on the inner top of the rotating shell 1, and the output end of the rotating motor 25 is connected with a coupler 24.

The top of the rotary shell 1 is symmetrically provided with a fixed plate 26.

The fixing plate 26 is provided with a connecting bolt 27, and the connecting bolt 27 is in threaded connection with the fixing plate 26.

Firstly, the device is placed at a proper position, in the first embodiment, the lifting motor 8 is started, then the lifting motor 8 drives the lifting driving gear 9 to rotate, then the lifting driving gear 9 drives the lifting driven gear 10 to rotate, then the lifting driven gear 10 drives the lifting worm 11 to rotate, then the lifting worm 11 drives the lifting worm wheel 13 to rotate on the lifting supporting plate 12, then the lifting worm wheel 13 drives the lifting rod 14 to swing, then the lifting rod 14 drives the driving groove 15 to swing, then the driving groove 15 drives the driving wheel 17 to slide in the driving groove 15, then the driving wheel 17 drives the driving column 16 to move, then the driving column 16 drives the lifting plate 6 to move, then the lifting plate 6 drives the driving rod 19 to move, then the driving rod 19 drives the sliding block 20 to move on the connecting plate 18, then the connecting plate 18 drives the placing plate 7 to rotate on the supporting plate 3, and simultaneously the sliding block 20 rotates on the driving rod 19, so that the connecting plate 18 and the placing plate 7 are conveniently rotated on the supporting plate 3, and the angle is conveniently adjusted, and the phenomenon that the visual field is too narrow is avoided.

In the second embodiment, the angle is further adjusted based on the previous embodiment.

Specifically, the rotating motor 25 is started, then the rotating motor 25 drives the coupler 24 to rotate, then the coupler 24 drives the rotating plate 2 to rotate, then the rotating plate 2 drives the supporting plate 3 and the adjusting component 5 to move, and then the reflecting mirror 21 is driven to rotate, so that the effect of further adjusting the angle is achieved.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (10)

1. A reflector every single move rotary device, its characterized in that: including rotatory shell, rotor plate, backup pad, top shell, adjustment subassembly, lifter plate and place the board, the rotor plate is rotatory to be located on the rotatory shell bottom, on the rotor plate was located to the backup pad symmetry, on the rotor plate was located to the top shell, in the top shell was located to the adjustment subassembly, on the backup pad was located to the lifter plate slip, place the board rotation and locate in the backup pad, adjustment subassembly includes elevator motor, lift driving gear, lift driven gear, lift worm, lift backup pad, lift worm wheel, lifter bar, drive groove, drive post, drive wheel and lifter plate, drive post symmetry locates on the lifter plate, lift driving gear rotation locates on the top shell inner bottom, lift driven gear rotation locates on the top shell inner bottom, lift driving gear meshing lift driven gear, lift worm is connected to lift driven gear, on the top shell was located to the lifter plate symmetry, in the lift rotatory backup pad, lift worm meshing lift worm, lifter bar one end rotation is located on the lifter plate, the lifter bar fixed is located on the worm wheel, the lifter bar drives the inner side of the worm wheel and drives the inner side of the top shell, the drive wheel drives the inner side of the output pulley and locates in the top shell.

2. A mirror pitch rotation device according to claim 1, wherein: the placing plate is provided with a connecting plate.

3. A mirror pitch rotation device according to claim 2, wherein: and driving rods are symmetrically arranged on the lifting plate.

4. A mirror pitch rotation device according to claim 3, wherein: the connecting plate is symmetrically provided with sliding blocks, and the sliding blocks are hinged on the driving rod.

5. A mirror pitch rotation device as defined in claim 4, wherein: the placing plate is symmetrically provided with fixing blocks, and the fixing blocks are provided with fixing balls.

6. A mirror pitch rotation device as defined in claim 5, wherein: the reflector is arranged between the fixed blocks and is close to the fixed ball.

7. A mirror pitch rotation device as defined in claim 6, wherein: the rotary shell is characterized in that a coupler is rotatably arranged at the inner bottom of the rotary shell and is connected with the rotary plate.

8. A mirror pitch rotation device as defined in claim 7, wherein: the rotary shell is internally provided with a rotary motor at the top, and the output end of the rotary motor is connected with a coupler.

9. A mirror pitch rotation device as claimed in claim 8, wherein: and fixing plates are symmetrically arranged on the top of the rotary shell.

10. A mirror pitch rotation device as claimed in claim 9, wherein: the fixing plate is provided with a connecting bolt, and the connecting bolt is in threaded connection with the fixing plate.

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