CN214296500U - Novel unmanned aerial vehicle with multi-angle image capture function - Google Patents

Abstract

The utility model provides a novel unmanned aerial vehicle for multi-angle image capture, which comprises an unmanned aerial vehicle; an installation mechanism is installed to unmanned aerial vehicle's lower extreme, install one in the installation mechanism and get for instance the mechanism, install a stop gear in the installation mechanism, stop gear keeps away from the one end of getting for instance the mechanism and installs one and remove the mechanism, installation mechanism includes the connecting block, connecting block fixed connection is in unmanned aerial vehicle's lower extreme, the beneficial effects of the utility model are that: this unmanned aerial vehicle can install the camera under the state that does not use specific instrument and spare part to can be convenient for dismantle the camera from unmanned aerial vehicle in subsequent use, the effectual unmanned aerial vehicle who has adopted multi-angle camera of having solved is when installing the camera, need use specific instrument and spare part of obtaining and just can accomplish the installation, like this, be not convenient for maintain the operation scheduling problem with camera and unmanned aerial vehicle separation at any time in subsequent use.

Description

Novel unmanned aerial vehicle with multi-angle image capture function

Technical Field

The utility model relates to an unmanned air vehicle technique field especially relates to a novel unmanned aerial vehicle that multi-angle got for instance.

Background

Unmanned aerial vehicle is the unmanned aerial vehicle who utilizes radio remote control equipment and self-contained program control device to control, and the novel unmanned aerial vehicle that multi-angle was got for instance just combines camera and unmanned aerial vehicle that uses with multi-angle camera, is used for aspects such as aerial photography, observation wild animal and film and TV are shot more.

At present, the unmanned aerial vehicle that generally adopts the multi-angle camera still adopts traditional mounting means to install when installing the camera, because traditional mounting means need use spare part and specific instrument just can accomplish the installation to the camera, is not convenient for like this demolish the camera from unmanned aerial vehicle and get off and maintain the operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the not enough of prior art, adapt to the actual needs, provide a novel unmanned aerial vehicle that multi-angle got for the image of structural design is novel.

In order to realize the utility model discloses a purpose, the utility model discloses the technical scheme who adopts does:

designing a novel unmanned aerial vehicle for multi-angle image capture, which comprises an unmanned aerial vehicle; an installation mechanism is installed to unmanned aerial vehicle's lower extreme, install one in the installation mechanism and get for instance the mechanism, install a stop gear in the installation mechanism, stop gear keeps away from the one end of getting for instance the mechanism and installs a release mechanism.

Installation mechanism includes the connecting block, connecting block fixed connection is in unmanned aerial vehicle's lower extreme, a mounting groove has been seted up to the lower surface of connecting block, be the symmetry on the cell wall of mounting groove both sides and all seted up two protruding type spouts.

Get for instance the mechanism and include the connecting plate, connecting plate sliding connection is in the mounting groove, the both sides of connecting plate upper surface are the symmetry and describe and all are equipped with a first inclined plane, camera base of lower fixed surface of connecting plate, just camera base and mounting groove sliding connection, camera link of lower fixed surface of camera base, camera of lower extreme fixedly connected with of camera link, just the one end of the nearly mounting groove of camera head passes the mounting groove and extends outward to the connecting block.

Stop gear includes four springs, four the spring is fixed connection respectively in the tank bottom of four protruding type spouts, four the other end of spring is the equal fixedly connected with slider of symmetry form, and four the slider all with protruding type spout sliding connection, four be the equal fixedly connected with stopper of symmetry form on the lateral wall that the slider is close to protruding type spout notch, four the stopper is close to protruding type spout notch's one end and all passes protruding type spout and extend to the mounting groove interior, the one end that the stopper is located the mounting groove all is equipped with a second inclined plane, and four the second inclined plane parallels with four first inclined planes respectively.

The release mechanism comprises four pull rods, the pull rods are respectively and fixedly connected to the side walls of the four sliding blocks on the side close to the spring, one ends, far away from the sliding blocks, of the pull rods all penetrate through the groove bottoms of the convex sliding grooves and extend outwards of the connecting blocks, and two ends, located on the same side, of the pull rods located outside the connecting blocks are respectively and fixedly connected with a pull handle.

The outer walls of the connecting plate and the camera base are attached to the groove wall of the mounting groove, and the lower surface of the camera base is abutted to the upper surfaces of the four limiting blocks.

The beneficial effects of the utility model reside in that:

installation mechanism through setting up, can be through getting for instance the connecting plate in the mechanism, camera base and camera link insert the mounting groove in, thereby can make the camera obtain the installation, stop gear through setting up, can get for instance the camera in the mechanism and carry on spacingly to camera base after the installation, thereby can prevent that camera base from dropping from the mounting groove because of gravitational potential energy through carrying on spacingly to camera base, thereby can make the installation of camera obtain firm, effectual unmanned aerial vehicle who has solved and generally adopted multi-angle camera when installing the camera, need use specific instrument and spare part of obtaining just can accomplish the installation, thus, in subsequent use and be inconvenient for at any time with camera and unmanned aerial vehicle separation maintenance operation scheduling problem.

Drawings

FIG. 1 is a schematic view of a sectional structure of a novel unmanned aerial vehicle for multi-angle image capture;

FIG. 2 is an enlarged schematic view of the novel unmanned aerial vehicle for multi-angle image capture shown in FIG. 1 at A;

FIG. 3 is a schematic view of a top-down cutting structure of a connecting block in a drawing of the novel multi-angle image capturing unmanned aerial vehicle;

FIG. 4 is a schematic view of the overall structure of a limiting block in the novel multi-angle image capturing unmanned aerial vehicle;

fig. 5 is an overall structure schematic diagram of a release mechanism in the novel unmanned aerial vehicle for multi-angle image capture.

Detailed Description

The invention will be further described with reference to the following figures and examples:

example 1: a novel unmanned aerial vehicle for multi-angle image capture is shown in figures 1 to 5.

The novel unmanned aerial vehicle capable of taking images in multiple angles comprises an unmanned aerial vehicle 1; an installation mechanism 2 is installed to unmanned aerial vehicle 1's lower extreme, installs one in installation mechanism 2 and gets for instance mechanism 3, installs a stop gear 4 in installation mechanism 2, and stop gear 4 is kept away from the one end of getting for instance mechanism 3 and is installed a release mechanism 5.

Further, installation mechanism 2 includes connecting block 21, and connecting block 21 fixed connection has seted up a mounting groove 22 in unmanned aerial vehicle 1's lower extreme, connecting block 21's lower surface, is the symmetry on the cell wall at mounting groove 22 both sides and has all seted up two protruding type spouts 23, is convenient for get for instance the installation of mechanism 3.

Further, it includes connecting plate 31 to look for instance mechanism 3, connecting plate 31 sliding connection is in mounting groove 22, the both sides of connecting plate 31 upper surface are the symmetry form and all are equipped with a first inclined plane 32, lower fixed surface of connecting plate 31 is connected with a camera base 33, and camera base 33 and mounting groove 22 sliding connection, lower fixed surface of camera base 33 is connected with a camera link 34, camera 35 of lower extreme fixedly connected with of camera link 34, and the one end that camera 35 is close to mounting groove 22 passes mounting groove 22 and extends outside connecting block 21, be convenient for be connected with installation mechanism 2.

Further, stop gear 4 includes four springs 41, four springs 41 are fixed connection in the tank bottoms of four protruding type spout 23 respectively, four springs 41's the other end is slider 42 of the equal fixedly connected with of symmetry form, and four sliders 42 all with protruding type spout 23 sliding connection, four sliders 42 are stopper 43 of the equal fixedly connected with of symmetry form on being close to the lateral wall of protruding type spout 23 notch, four stopper 43 are close to protruding type spout 23 notch's one end and all pass protruding type spout 23 and extend to mounting groove 22, the one end that stopper 43 is located mounting groove 22 all is equipped with a second inclined plane 44, and four second inclined planes 44 parallel with four first inclined planes 32 respectively, be convenient for make the installation of getting for instance mechanism 3 obtain fixedly.

Further, the release mechanism 5 includes four pull rods 51, the pull rods 51 are respectively and fixedly connected to the side walls of the four sliders 42 close to the side of the spring 41, one ends of the four pull rods 51 far away from the sliders 42 all penetrate through the groove bottom of the convex sliding groove 23 and extend outward to the connecting block 21, and one ends of the two pull rods 51 located outside the connecting block 21 and arranged on the same side are both fixedly connected with a pull handle 52 together, so that the release of the fixing of the image capturing mechanism 3 is facilitated.

Further, the outer walls of the connecting plate 31 and the camera base 33 are attached to the groove wall of the mounting groove 22, the lower surface of the camera base 33 is abutted to the upper surfaces of the four limiting blocks 43, and the tightness is increased to improve the stability.

Specifically, when the camera 35 needs to be installed, the camera 35 is taken up, the connecting plate 31 is aligned with the installation groove 22 and then moves into the installation groove 22, when the connecting plate 31 moves into the installation groove 22, the first inclined surface 32 on the connecting plate 31 extrudes the second inclined surface 44 on the limiting block 43, the limiting block 43 which is extruded pushes the sliding block 42 to extrude the spring 41 to slide, the sliding of the sliding block 42 can drive the limiting block 43 to enter the convex sliding groove 23, the limiting block 43 can be prevented from interfering the insertion of the connecting plate 31 by driving the limiting block 43 to enter the convex sliding groove 23, after the connecting plate 31 drives the camera base 33 to be completely inserted into the installation groove 22, the extruded spring 41 can rebound and reset through the elasticity of the spring 41, and the rebound and reset of the spring 41 can push the sliding block 42 to slide, the sliding of the sliding block 42 can push the limiting block 43 to abut against the lower surface of the camera base 33, and the limiting block 43 abuts against the lower surface of the camera base 33, so that the camera base 33 can be limited, when the camera base 33 is limited, the camera base 33 will not fall from the mounting groove 22 due to gravitational potential energy, at this time, the mounting of the camera 35 will be fixed, when the camera 35 needs to be disassembled, two pull handles 52 are pulled, so that the pull handles 52 drive the sliding block 42 to press the spring 41 to slide through the pull rod 51, the limiting block 43 can enter the convex sliding groove 23 through the sliding of the sliding block 42, the limiting block 43 enters the convex sliding groove 23, so that the limitation on the camera base 33 can be removed, when the limitation on the camera base 33 is removed, the camera base 33 can fall downwards due to gravitational potential energy, the camera 35 can be detached by dropping the camera mount 33 off the mounting groove 22.

The embodiment of the present invention discloses a preferred embodiment, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention according to the above embodiment, and make different extensions and changes, but do not depart from the spirit of the present invention, all of which are within the protection scope of the present invention.

Claims (6)

1. A novel unmanned aerial vehicle for multi-angle image capture comprises an unmanned aerial vehicle; the method is characterized in that: an installation mechanism is installed to unmanned aerial vehicle's lower extreme, install one in the installation mechanism and get for instance the mechanism, install a stop gear in the installation mechanism, stop gear keeps away from the one end of getting for instance the mechanism and installs a release mechanism.

2. The novel unmanned aerial vehicle for multi-angle image capture as claimed in claim 1, wherein: installation mechanism includes the connecting block, connecting block fixed connection is in unmanned aerial vehicle's lower extreme, a mounting groove has been seted up to the lower surface of connecting block, be the symmetry on the cell wall of mounting groove both sides and all seted up two protruding type spouts.

3. The novel unmanned aerial vehicle for multi-angle image capture as claimed in claim 1, wherein: get for instance the mechanism and include the connecting plate, connecting plate sliding connection is in the mounting groove, the both sides of connecting plate upper surface are the symmetry and describe and all are equipped with a first inclined plane, camera base of lower fixed surface of connecting plate, just camera base and mounting groove sliding connection, camera link of lower fixed surface of camera base, camera of lower extreme fixedly connected with of camera link, just the one end of the nearly mounting groove of camera head passes the mounting groove and extends outward to the connecting block.

4. The novel unmanned aerial vehicle for multi-angle image capture as claimed in claim 1, wherein: stop gear includes four springs, four the spring is fixed connection respectively in the tank bottom of four protruding type spouts, four the other end of spring is the equal fixedly connected with slider of symmetry form, and four the slider all with protruding type spout sliding connection, four be the equal fixedly connected with stopper of symmetry form on the lateral wall that the slider is close to protruding type spout notch, four the stopper is close to protruding type spout notch's one end and all passes protruding type spout and extend to the mounting groove interior, the one end that the stopper is located the mounting groove all is equipped with a second inclined plane, and four the second inclined plane parallels with four first inclined planes respectively.

5. The novel unmanned aerial vehicle for multi-angle image capture as claimed in claim 1, wherein: the release mechanism comprises four pull rods, the pull rods are respectively and fixedly connected to the side walls of the four sliding blocks on the side close to the spring, one ends, far away from the sliding blocks, of the pull rods penetrate through the groove bottoms of the convex sliding grooves and extend outwards of the connecting blocks, and two ends, located on the same side, of the pull rods located outside the connecting blocks are respectively and fixedly connected with a pull handle.

6. The novel unmanned aerial vehicle for multi-angle image capture as claimed in claim 3, wherein: the outer walls of the connecting plate and the camera base are attached to the groove wall of the mounting groove, and the lower surface of the camera base is abutted to the upper surfaces of the four limiting blocks.

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