CN213008790U - Unmanned aerial vehicle is camera mounting structure for survey and drawing - Google Patents

Abstract

The utility model relates to an unmanned aerial vehicle accessory technical field specifically discloses a camera mounting structure for unmanned aerial vehicle survey and drawing, including unmanned aerial vehicle body and bearing structure, equal fixedly connected with supporting legs in the position department of unmanned aerial vehicle body bottom and near the left and right sides, the inside fixedly connected with connecting rod of supporting legs, bearing structure includes base, mounting panel and two backup pads, the central fixedly connected with plastics ring of backup pad bottom, the central authorities of plastics ring bottom are seted up jaggedly, the activity of plastics ring is pegged graft in the surface of connecting rod, the equal fixedly connected with dead lever in the left and right sides of base, one side that the dead lever kept away from the base is fixedly connected with the backup pad, the central fixedly connected with installing frame at mounting panel top, the inside activity of installing frame is pegged; the utility model discloses need not use other instruments to install the camera, reduced the installation degree of difficulty, make things convenient for the staff to dismantle and install camera and mounting structure.

Description

Unmanned aerial vehicle is camera mounting structure for survey and drawing

Technical Field

The utility model relates to an unmanned aerial vehicle accessory technical field, concretely relates to camera mounting structure is used in unmanned aerial vehicle survey and drawing.

Background

At present unmanned aerial vehicle survey and drawing has become the mainstream, and unmanned aerial vehicle can reach the place that the human can't go to, possesses the security height, the efficient advantage of survey and drawing.

The camera of present unmanned aerial vehicle survey and drawing usefulness is mostly installed in unmanned aerial vehicle's bottom, its mounting structure is whole too complicated, need use connecting pieces such as bolt, in the in-process inconvenience very of dismantlement and installation, and the camera is installed in the unmanned aerial vehicle bottom, receive the influence of the vibrations power that the screw produced when rotating easily, thereby the picture that leads to shooing is not clear, and also receive the influence of wind-force easily and produce and rock, consequently, need design a camera mounting structure for unmanned aerial vehicle survey and drawing in order to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an unmanned aerial vehicle is camera mounting structure for survey and drawing possesses advantages such as simple to operate, reduction vibrations, has solved traditional camera installation inconvenience, the problem of rocking easily.

The utility model discloses a camera mounting structure for unmanned aerial vehicle surveying and mapping, including unmanned aerial vehicle body and bearing structure, the equal fixedly connected with supporting legs in the position department that unmanned aerial vehicle body bottom and be close to the left and right sides, the left side of looking and the right side of supporting legs are n type structure, the position department fixedly connected with connecting rod between the front and the back of supporting legs inner wall and be close to the bottom, bearing structure includes base, mounting panel and two backup pads, the central fixedly connected with plastics ring of backup pad bottom, the central authorities of plastics ring bottom are seted up jaggedly, plastics ring activity is pegged graft in the surface of connecting rod, the equal fixedly connected with dead lever in the left and right sides of base, the dead lever keeps away from one side of base and is fixedly connected with the backup pad, the central authorities of dead lever install the bumper shock absorber, the top of base is the even fixedly connected, the top fixedly connected with shock attenuation board between a plurality of bracing pieces, the top fixedly connected with mounting panel of shock attenuation board, the central fixedly connected with installing frame at mounting panel top, the installing frame back and the central position department that is close to the bottom have seted up the wiring hole, the face of looking down of installing frame is n type structure, the inside activity of installing frame is pegged graft and is had the camera, the top activity of installing frame is pegged graft and is had the apron.

The utility model discloses an unmanned aerial vehicle is camera mounting structure for survey and drawing, wherein the inner wall fixedly connected with antiskid cover of plastics ring, the inner wall of antiskid cover is laminated mutually with the surface of connecting rod, and this structure setting has increased the frictional force between plastics ring and the connecting rod.

The utility model discloses an unmanned aerial vehicle is camera mounting structure for survey and drawing, wherein the position department that the installing frame top just is close to central authorities has seted up the draw-in groove, the apron bottom and the position department fixedly connected with rubber inserted block that corresponds with the draw-in groove, the face of looking prostrate of draw-in groove is n type structure, the shape structure of rubber inserted block agrees with the shape structure of draw-in groove mutually, the activity of rubber inserted block is pegged graft in the inside of draw-in groove, and this structure setting has increased the stability of being connected between apron and the installing frame.

The utility model discloses an unmanned aerial vehicle is camera mounting structure for survey and drawing, wherein the inner wall fixedly connected with shock pad of installing frame, the outer wall of camera is laminated with the inner wall of shock pad mutually, and this structure sets up, has reduced the vibrations influence that the camera received.

The utility model discloses a camera mounting structure is used in unmanned aerial vehicle survey and drawing, wherein the central authorities fixedly connected with rubber clamp plate of apron bottom, rubber clamp plate's bottom is laminated mutually with the top of camera, and this structure sets up, has played the effect that the extrusion is fixed to the camera.

The utility model discloses a camera mounting structure is used in unmanned aerial vehicle survey and drawing, wherein the equal fixedly connected with deep bead in front of the installing frame inner wall left and right sides.

The overlooking surface of the wind shield is of a right-angle trapezoidal structure.

And a gap is reserved between the two wind deflectors.

The back of deep bead is laminated with the front of camera mutually, and this structural arrangement can play the water conservancy diversion effect to the wind-force in the flight process, reduces the influence that wind-force caused to the camera.

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

1. the utility model discloses a plastics ring that sets up bottom the backup pad, and the breach of seting up bottom the plastics ring, the antiskid cover that sets up in the cooperation plastics ring, make mounting structure fix in can the disect insertion connecting rod, need not use other instruments, it is very convenient to install, through the installing frame that sets up at the mounting panel top, the shock pad, apron and the rubber pressing plate that cooperation installing frame top set up, make the inside of inserting the installing frame that the camera can be stable, also need not use extra instrument to install the camera, the installation degree of difficulty has been reduced, make things convenient for staff to dismantle and install camera and mounting structure.

2. The utility model discloses a bumper shock absorber that sets up on the dead lever, can reduce the influence that the vibrations power that the flight in-process produced caused the base, through the shock attenuation board that sets up bottom the mounting panel, further reduce the vibrations power that transmits on the mounting panel, through the shock pad that sets up at the installing frame inner wall, the rubber pressing plate that the cooperation apron bottom set up, can play spacing fixed effect to the camera, can play the effect that slows down to external vibrations power simultaneously, through two deep beads at the installing frame inner wall setting, can reduce the influence that wind-force caused to the camera, the picture that makes the camera shoot is more clear.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

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

FIG. 2 is a schematic view of the overall front view structure of the installation structure of the present invention;

FIG. 3 is a schematic top view of the installation structure of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the supporting leg of the present invention;

fig. 5 is a schematic front sectional view of the cover plate of the present invention.

In the figure: 1. an unmanned aerial vehicle body; 2. supporting legs; 3. a connecting rod; 4. a plastic ring; 41. an anti-slip sleeve; 5. a support plate; 6. fixing the rod; 7. a shock absorber; 8. a base; 9. a support bar; 10. a damper plate; 11. mounting a plate; 12. installing a frame; 121. a card slot; 122. a shock pad; 13. a wind deflector; 14. a camera; 15. a cover plate; 151. a rubber press plate; 152. and (5) inserting rubber blocks.

Detailed Description

Example 1: referring to fig. 1-5, the camera mounting structure for surveying and mapping unmanned aerial vehicle of the present invention comprises an unmanned aerial vehicle body 1 and a supporting structure, wherein the bottom of the unmanned aerial vehicle body 1 and the positions near the left and right sides are both fixedly connected with supporting legs 2, the left and right viewing surfaces of the supporting legs 2 are both n-type structures, the position between the front and back surfaces of the inner wall of the supporting legs 2 and near the bottom is fixedly connected with a connecting rod 3, the supporting structure comprises a base 8, a mounting plate 11 and two supporting plates 5, the center of the bottom of the supporting plate 5 is fixedly connected with a plastic ring 4, the center of the bottom of the plastic ring 4 is provided with a notch, the plastic ring 4 is movably inserted on the surface of the connecting rod 3, the left and right sides of the base 8 are both fixedly connected with fixing rods 6, one side of the fixing rod 6 far from the base, the top of base 8 is the even fixedly connected with bracing piece 9 of rectangular array, top fixedly connected with between a plurality of bracing pieces 9 subtracts vibrating plate 10, subtract vibrating plate 10's top fixedly connected with mounting panel 11, the central fixedly connected with installing frame 12 at mounting panel 11 top, the central point department of just being close to the bottom at the 12 backs of installing frame has seted up the wiring hole, this structure sets up, make things convenient for the staff to work a telephone switchboard to camera 14, the face of looking prostrate of installing frame 12 is n type structure, the inside activity of installing frame 12 is pegged graft and is had camera 14, the top activity of installing frame 12 frame is pegged graft and is had apron 15.

The difference between example 2 and example 1 is: the inner wall fixedly connected with antiskid cover 41 of plastics ring 4, the inner wall of antiskid cover 41 and the surperficial laminating mutually of connecting rod 3, this structural arrangement has increased the frictional force between plastics ring 4 and the connecting rod 3.

The difference between example 3 and example 2 is: the draw-in groove 121 has been seted up at the position department at installing frame 12 top and near central authorities, apron 15 bottom and the position department fixedly connected with rubber inserted block 152 that corresponds with draw-in groove 121, and the face of looking down of draw-in groove 121 is n type structure, and the shape structure of rubber inserted block 152 agrees with the shape structure of draw-in groove 121 mutually, and rubber inserted block 152 activity is pegged graft in the inside of draw-in groove 121, and this structure setting has increased the stability of being connected between apron 15 and the installing frame 12.

The difference between example 4 and example 3 is: the inner wall fixedly connected with shock pad 122 of installing frame 12, the outer wall of camera 14 and the laminating of the inner wall of shock pad 122 mutually, this structural arrangement has reduced the vibrations influence that camera 14 received.

The difference between example 5 and example 4 is: the center of the bottom of the cover plate 15 is fixedly connected with a rubber pressing plate 151, the bottom of the rubber pressing plate 151 is attached to the top of the camera 14, and the structure is arranged to extrude and fix the camera 14.

The difference between example 6 and example 5 is: wind shields 13 are fixedly connected to the front faces of the left side and the right side of the inner wall of the mounting frame 12.

The difference between example 7 and example 6 is: the wind deflector 13 has a right-angled trapezoidal structure in a plan view.

The difference between example 8 and example 7 is: a gap is left between the two wind deflectors 13.

The difference between example 9 and example 8 is: the back of the wind shield 13 is attached to the front of the camera 14, and due to the structural arrangement, the wind shield can guide wind in the flying process, and the influence of the wind on the camera 14 is reduced.

The working principle is as follows: during the staff at first inserts connecting rod 3 with the plastics ring 4 of two backup pad 5 bottoms, accomplish being connected between mounting structure and the unmanned aerial vehicle body 1, later the staff inserts the top of installing frame 12 with camera 14, make the surface of camera 14 laminate mutually with the surface of shock pad 122, later the staff inserts the top of installing frame 12 with apron 15 again, make the bottom of rubber pressing plate 151 laminate mutually with the top of camera 14, can accomplish the installation to camera 14.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (9)

1. The utility model provides an unmanned aerial vehicle is camera mounting structure for survey and drawing, includes unmanned aerial vehicle body (1) and bearing structure, its characterized in that: the unmanned aerial vehicle comprises an unmanned aerial vehicle body (1), wherein supporting legs (2) are fixedly connected to positions close to the left side and the right side of the bottom of the unmanned aerial vehicle body (1), the left view surface and the right view surface of each supporting leg (2) are of n-shaped structures, a connecting rod (3) is fixedly connected to a position between the front surface and the back surface of the inner wall of each supporting leg (2) and close to the bottom of the inner wall of each supporting leg, each supporting structure comprises a base (8), a mounting plate (11) and two supporting plates (5), a plastic ring (4) is fixedly connected to the center of the bottom of each supporting plate (5), a notch is formed in the center of the bottom of each plastic ring (4), each plastic ring (4) is movably inserted into the surface of each connecting rod (3), fixing rods (6) are fixedly connected to the left side and the right side of each base (8), one side, far away from each fixing rod (, the top of base (8) is the even fixedly connected with bracing piece (9) of rectangular array, top fixedly connected with shock attenuation board (10) between a plurality of bracing pieces (9), the top fixedly connected with mounting panel (11) of shock attenuation board (10), central fixedly connected with installing frame (12) at mounting panel (11) top, the wiring hole has been seted up at the central position department that the installing frame (12) back just is close to the bottom, the overlooking face of installing frame (12) is n type structure, the inside activity of installing frame (12) is pegged graft and is had camera (14), the top activity of installing frame (12) frame is pegged graft and is had apron (15).

2. The camera mounting structure for unmanned aerial vehicle surveying and mapping of claim 1, wherein: the inner wall of the plastic circular ring (4) is fixedly connected with an anti-slip sleeve (41), and the inner wall of the anti-slip sleeve (41) is attached to the surface of the connecting rod (3).

3. The camera mounting structure for unmanned aerial vehicle surveying and mapping of claim 1, wherein: the mounting structure is characterized in that a clamping groove (121) is formed in the top of the mounting frame (12) and in a position close to the center, a rubber inserting block (152) is fixedly connected to the bottom of the cover plate (15) and in a position corresponding to the clamping groove (121), the depression surface of the clamping groove (121) is of an n-shaped structure, the shape structure of the rubber inserting block (152) is matched with the shape structure of the clamping groove (121), and the rubber inserting block (152) is movably inserted into the clamping groove (121).

4. The camera mounting structure for unmanned aerial vehicle surveying and mapping of claim 1, wherein: the inner wall fixedly connected with shock pad (122) of installing frame (12), the outer wall of camera (14) is laminated with the inner wall of shock pad (122) mutually.

5. The camera mounting structure for unmanned aerial vehicle surveying and mapping of claim 4, wherein: the center of the bottom of the cover plate (15) is fixedly connected with a rubber pressing plate (151), and the bottom of the rubber pressing plate (151) is attached to the top of the camera (14).

6. The camera mounting structure for unmanned aerial vehicle surveying and mapping of claim 5, wherein: the front surfaces of the left side and the right side of the inner wall of the mounting frame (12) are fixedly connected with wind shields (13).

7. The camera mounting structure for unmanned aerial vehicle surveying and mapping of claim 6, wherein: the top view of the wind shield (13) is of a right-angled trapezoid structure.

8. The camera mounting structure for unmanned aerial vehicle surveying and mapping of claim 7, wherein: a gap is left between the two wind deflectors (13).

9. The camera mounting structure for unmanned aerial vehicle surveying and mapping of claim 8, wherein: the back surface of the wind shield (13) is attached to the front surface of the camera (14).

Images