CN217805308U - Panorama shooting teaching equipment based on unmanned aerial vehicle technique - Google Patents

Abstract

The utility model discloses a panoramic shooting teaching device based on unmanned aerial vehicle technology; the utility model comprises a simulation cabin, a simulation flight mechanism arranged at the bottom end of the surface of the simulation cabin, a simulation angle adjusting mechanism arranged at the top end of the surface of the simulation cabin and a simulation sunlight mechanism arranged on the inner wall of the simulation cabin; the flight simulation mechanism comprises a power assembly and a crawler arranged on the surface of the power assembly, the power assembly drives the crawler to rotate, and the process that the ground moves relative to the unmanned aerial vehicle during the flight of the unmanned aerial vehicle can be simulated; simulation angle guiding mechanism is including erecting electronic guide rail, setting up and follows in erecting electronic guide rail surface energy erect electronic guide rail direction and carry out reciprocating motion's horizontal electronic guide rail and set up in the telescopic link on horizontal electronic guide rail surface, wholly mutually support through a plurality of structures, as far as possible simulation unmanned aerial vehicle is at the shooting effect under actual conditions to increase teaching effect.

Description

Panorama shooting teaching equipment based on unmanned aerial vehicle technique

Technical Field

The utility model relates to an unmanned aerial vehicle shoots teaching technical field, specifically is a panorama shooting teaching equipment based on unmanned aerial vehicle technique.

Background

The unmanned aerial vehicle is an unmanned aerial vehicle which is self-powered, remotely controlled by radio or autonomously flies, can perform various tasks and can be used for multiple times. Unmanned aerial vehicle aerial photography regards unmanned aerial vehicle as aerial platform with the remote sensing equipment of airborne to obtain information such as high resolution CCD digital camera, light-duty optical camera, infrared scanner, laser scanner, magnetism survey appearance, handle image information with the computer, and make into the image according to certain required precision, when teaching, many teaching equipment limitations are great, and the environment and the scene of simulation are less, and teaching effect is lower.

The patent number CN210707870U discloses panoramic shooting teaching equipment based on an unmanned aerial vehicle technology, the utility model discloses a panoramic shooting teaching equipment based on the unmanned aerial vehicle technology, which comprises an unmanned aerial vehicle body, unmanned aerial vehicle wings arranged around the unmanned aerial vehicle body and propellers arranged at the top of the tail ends of the unmanned aerial vehicle wings, and shooting equipment is arranged at the bottom of the unmanned aerial vehicle body; the both sides of unmanned aerial vehicle wing and the periphery that is located the screw respectively install a set of device of making an uproar that falls, fall the device of making an uproar by setting up the bowl in the outside and attached the sound absorbing cover of bowl inner wall and constitute. The utility model has the advantages that the noise reduction device is arranged, and the noise reduction effect is achieved by utilizing the principle that the sound absorption cover absorbs sound waves and the reflection sound waves of the reflection cover and the original sound waves are mutually offset; the elastic element is arranged in the mounting groove, and the porous buffer rubber mat is filled in the rack, so that the vibration is buffered, and the stability of the shooting equipment is kept; utilize unmanned aerial vehicle and shooting equipment to constitute one set of system, impart knowledge to students, make the student learn unmanned aerial vehicle and panorama shooting skill.

However, the existing panoramic shooting teaching equipment based on the unmanned aerial vehicle technology has some problems in the using process, and 1, the whole flying scene cannot be well simulated, and the panoramic shooting teaching of different scenes can be realized only by means of the external environment; 2. the whole safety is poor, and when the unmanned aerial vehicle is put into practice for students, the unmanned aerial vehicle is easy to explode because of improper operation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a panorama shooting teaching equipment based on unmanned aerial vehicle technique to solve the problem of proposing in the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme:

preferably, the simulation cabin comprises a simulation cabin, a simulation flight mechanism arranged at the bottom end of the surface of the simulation cabin, a simulation angle adjusting mechanism arranged at the top end of the surface of the simulation cabin and a simulation sunlight mechanism arranged on the inner wall of the simulation cabin;

the flight simulation mechanism comprises a power assembly and a crawler arranged on the surface of the power assembly, the power assembly drives the crawler to rotate, and the process that the ground moves relative to the unmanned aerial vehicle during the flight of the unmanned aerial vehicle can be simulated;

the simulation angle adjusting mechanism comprises a vertical electric guide rail, a transverse electric guide rail and a telescopic rod, wherein the transverse electric guide rail is arranged on the surface of the vertical electric guide rail and can reciprocate along the direction of the vertical electric guide rail, the telescopic rod is arranged on the surface of the transverse electric guide rail, and the vertical electric guide rail and the transverse electric guide rail can drive the telescopic rod to move along the X axis or the Y axis of a plane axis;

the sunlight simulating mechanism can simulate the irradiation angle of sunlight in different time periods.

Preferably, a plurality of fixed slots are evenly seted up on the track surface, the fixed slot inner wall is provided with the water pocket, water pocket surface mounting has the inflation piece.

Preferably, the simulation sunlight mechanism includes arc guide rail, fluorescent lamp and drives the piece, arc guide rail has all been seted up at both ends about the simulation cabin inner wall, arc guide rail surface cooperation sliding connection has the fluorescent lamp, fluorescent lamp surface one side is provided with and drives the piece.

Preferably, the top end of the surface of the simulation cabin is welded with a bearing block, and the vertical electric guide rail is matched and slidably connected to the surface of the bearing block.

Preferably, the inner wall of the power output end of the telescopic rod is matched and rotatably connected with a thread groove, and protruding blocks are circumferentially distributed on the surface of the thread groove.

Preferably, the inner wall of the power output end of the telescopic rod is symmetrically provided with two spring clamping blocks, and the spring clamping blocks and the protruding blocks are matched and clamped with each other.

Preferably, the simulation cabin surface is provided with a controller.

Preferably, the inner wall of the water sac is filled with liquid.

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

1. the utility model discloses, when using, in the fixed slot on corresponding stage property insertion track surface is selected according to the teaching demand, at the in-process of pegging graft, the stage property surface can produce the extrusion to the water pocket, force it to take place deformation, thereby let in the liquid extrusion inflation piece in the water pocket, thereby force the inflation piece outwards to laminate in stage property surface formation fixed, whole operation is convenient relatively and relatively firm, after arranging the track, thereby carry out the adjustment of angle and luminance to the fluorescent lamp through driving the piece according to the scene that sets up in advance and better simulation illumination, let the teaching more laminate actual, thereby it removes the motion state of simulation unmanned aerial vehicle ground for unmanned aerial vehicle in flight process to drive the track under power component's effect, and simulate the effect that unmanned aerial vehicle shot under different angles through controller 5 control horizontal electric guide rail position on erecting electric guide rail and telescopic link position of horizontal electric guide rail, simulate the condition of shooting under the different height through the flexible length of adjustment telescopic link, wholly mutually support through a plurality of structures, as many simulation effect under the actual conditions as far as possible, thereby increase teaching effect.

2. Because the method diverse that the unmanned aerial vehicle of different models shot, in order to more laminate actually, wholly when changing the camera, upwards stimulate two spring block joints, the camera that will have the threaded rod inserts the thread groove, thereby the threaded rod can drive the thread groove and rotate both intercombinations under the effect of screw thread, loosen spring block joint after inserting completely, spring block joint inserts outstanding piece surface and carries out now to it under the effect of spring, thereby the locking thread groove, can accomplish the change, overall operation is comparatively convenient, laminating that can be better is actually taught.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic view of the inner wall structure of the power output end of the telescopic rod in the embodiment of the present invention;

fig. 3 is a schematic view of the inner wall structure of the fixing groove according to the embodiment of the present invention.

In the figure: 1. a simulation cabin; 2. simulating a flight mechanism; 201. a power assembly; 202. a crawler belt; 203. fixing grooves; 204. a water bag; 205. an expansion block; 3. a sunlight simulating mechanism; 301. an arc-shaped guide rail; 302. a fluorescent lamp; 303. driving the block; 4. simulating an angle adjusting mechanism; 401. a bearing block; 402. a vertical electric guide rail; 403. a transverse electric guide rail; 404. a telescopic rod; 405. a thread groove; 406. a protruding block; 407. a spring engaging block; 5. and a controller.

Detailed Description

In order to facilitate the problem of solution, the embodiment of the utility model provides a panorama shooting teaching equipment based on unmanned aerial vehicle technique. The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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.

As shown in fig. 1-3, the panoramic shooting teaching equipment based on the unmanned aerial vehicle technology provided by the embodiment includes a simulation cabin 1, a simulated flight mechanism 2 disposed at the bottom end of the surface of the simulation cabin 1, a simulated angle adjusting mechanism 4 disposed at the top end of the surface of the simulation cabin 1, and a simulated sunlight mechanism 3 disposed on the inner wall of the simulation cabin 1;

the simulated flight mechanism 2 comprises a power assembly 201 and a crawler 202 arranged on the surface of the power assembly 201, and the power assembly 201 drives the crawler 202 to rotate, so that the process that the ground moves relative to the unmanned aerial vehicle during the flight of the unmanned aerial vehicle can be simulated;

the simulation angle adjusting mechanism 4 comprises a vertical electric guide rail 402, a horizontal electric guide rail 403 which is arranged on the surface of the vertical electric guide rail 402 and can reciprocate along the direction of the vertical electric guide rail 402, and an expansion link 404 which is arranged on the surface of the horizontal electric guide rail 403, wherein the vertical electric guide rail 402 and the horizontal electric guide rail 403 can drive the expansion link 404 to move along the X axis or the Y axis of a plane;

the sunlight simulating mechanism 3 can simulate the irradiation angle of sunlight in different time periods.

In this embodiment: a plurality of fixing grooves 203 are uniformly formed in the surface of the crawler 202, water bags 204 are arranged on the inner walls of the fixing grooves 203, and expansion blocks 205 are arranged on the surfaces of the water bags 204; the expansion block 205 is pressed by the deformation of the water bag 204 to force the fixation of the foreign object.

In this embodiment: the simulation sunlight mechanism 3 comprises an arc-shaped guide rail 301, a fluorescent lamp 302 and a driving block 303, the arc-shaped guide rail 301 is arranged at the left end and the right end of the inner wall of the simulation cabin 1, the surface of the arc-shaped guide rail 301 is connected with the fluorescent lamp 302 in a matched and sliding mode, and the driving block 303 is arranged on one side of the surface of the fluorescent lamp 302; thereby carry out the better simulated illumination of angle and luminance through driving piece 303 to fluorescent lamp 302, make the teaching more laminate reality.

In this embodiment: the top end of the surface of the simulation cabin 1 is welded with a bearing block 401, and a vertical electric guide rail 402 is matched and slidably connected to the surface of the bearing block 401; vertical motorized rail 402 is supported by bearing blocks 401.

In this embodiment: the inner wall of the power output end of the telescopic rod 404 is matched and rotatably connected with a thread groove 405, and protruding blocks 406 are circumferentially distributed on the surface of the thread groove 405; the externally-connected threaded rod is fixed by the threaded groove 405.

In this embodiment: two spring clamping blocks 407 are symmetrically arranged on the inner wall of the power output end of the telescopic rod 404, and the spring clamping blocks 407 and the protruding block 406 are matched and clamped with each other; the rotation of the screw groove 405 is restricted by engaging the protrusion block 406 with the spring engagement block 407.

In this embodiment: the surface of the simulation cabin 1 is provided with a controller 5; the entire apparatus is controlled by the controller 5.

In this embodiment: the inner wall of the water bag 204 is filled with liquid; due to the fluidity of the liquid, when one side of the water bag 204 is squeezed, the liquid fills the expansion block 205 to increase the overall fixing capacity.

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 (8)

1. The utility model provides a panorama shooting teaching equipment based on unmanned aerial vehicle technique, includes simulation cabin (1), its characterized in that: the simulation device is characterized by also comprising a simulation flight mechanism (2) arranged at the bottom end of the surface of the simulation cabin (1), a simulation angle adjusting mechanism (4) arranged at the top end of the surface of the simulation cabin (1) and a simulation sunlight mechanism (3) arranged on the inner wall of the simulation cabin (1);

the simulated flight mechanism (2) comprises a power assembly (201) and a crawler belt (202) arranged on the surface of the power assembly (201), wherein the power assembly (201) drives the crawler belt (202) to rotate, and the process that the ground moves relative to the unmanned aerial vehicle during the flight of the unmanned aerial vehicle can be simulated;

the simulation angle adjusting mechanism (4) comprises a vertical electric guide rail (402), a transverse electric guide rail (403) which is arranged on the surface of the vertical electric guide rail (402) and can reciprocate along the direction of the vertical electric guide rail (402), and a telescopic rod (404) which is arranged on the surface of the transverse electric guide rail (403), wherein the vertical electric guide rail (402) and the transverse electric guide rail (403) can drive the telescopic rod (404) to move along the X axis or the Y axis of a plane;

the sunlight simulating mechanism (3) can simulate the irradiation angles of sunlight at different time periods.

2. The panoramic shooting teaching device based on the unmanned aerial vehicle technology of claim 1, characterized in that: a plurality of fixing grooves (203) are uniformly formed in the surface of the crawler (202), water bags (204) are arranged on the inner walls of the fixing grooves (203), and expansion blocks (205) are arranged on the surfaces of the water bags (204).

3. The panoramic shooting teaching device based on the unmanned aerial vehicle technology of claim 1, characterized in that: simulation sun mechanism (3) include arc guide rail (301), fluorescent lamp (302) and drive piece (303), arc guide rail (301) have all been seted up at both ends about simulation cabin (1) inner wall, arc guide rail (301) surface cooperation sliding connection has fluorescent lamp (302), fluorescent lamp (302) surface one side is provided with drives piece (303).

4. The panoramic shooting teaching equipment based on unmanned aerial vehicle technique of claim 1, characterized in that: the simulation cabin (1) surface top welding has carrier block (401), vertical electronic guide rail (402) cooperation sliding connection is in carrier block (401) surface.

5. The panoramic shooting teaching device based on the unmanned aerial vehicle technology of claim 1, characterized in that: the inner wall of the power output end of the telescopic rod (404) is matched and rotatably connected with a thread groove (405), and protruding blocks (406) are distributed on the surface of the thread groove (405) in a circumferential mode.

6. The panoramic shooting teaching device based on the unmanned aerial vehicle technology of claim 5, characterized in that: two spring clamping blocks (407) are arranged on the inner wall of the power output end of the telescopic rod (404) in symmetrical positions, and the spring clamping blocks (407) are matched and clamped with the protruding blocks (406).

7. The panoramic shooting teaching device based on the unmanned aerial vehicle technology of claim 1, characterized in that: the surface of the simulation cabin (1) is provided with a controller (5).

8. The panoramic shooting teaching device based on the unmanned aerial vehicle technology of claim 2, characterized in that: the inner wall of the water sac (204) is filled with liquid.

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