CN215475796U - Many camera lenses photography systems suitable for fixed wing, many rotor unmanned aerial vehicle - Google Patents

Abstract

The utility model discloses a multi-lens photographic system suitable for a fixed-wing and multi-rotor unmanned aerial vehicle, which comprises a supporting base, a protective cover, a multi-rotor control box and a multi-rotor connection port, wherein the supporting base is provided with a plurality of connecting holes; a plurality of lens holes are formed in the supporting base, and photographic lenses are arranged in the lens holes; the protective cover covers the supporting base, and a first control module electrically connected with the photographic lens is arranged in the protective cover; the protective cover is also provided with a multi-rotor control box connecting port; a second control module electrically connected with the photographic lens is arranged in the multi-rotor control box, and the multi-rotor control box can be fixedly connected with the protective cover through a multi-rotor control box connecting port; many rotors mouth of receiving is located many rotors control box for reserve interface connection with many rotor unmanned aerial vehicle. The utility model greatly reduces the weight of the camera, improves the shooting efficiency, realizes the compatible mounting of the fixed wing and the multi-rotor unmanned aerial vehicle by arranging the multi-rotor control box connecting port, and enlarges the application range of the multi-rotor unmanned aerial vehicle.

Description

Many camera lenses photography systems suitable for fixed wing, many rotor unmanned aerial vehicle

Technical Field

The utility model belongs to the technical field of aerial photography of unmanned aerial vehicles, and particularly relates to a multi-lens photographic system suitable for a fixed-wing and multi-rotor unmanned aerial vehicle.

Background

Traditional polyphaser oblique photography system (like five cameras and diphase camera) is formed by the simple equipment of a plurality of cameras, and its is bulky, weight is heavy, causes unmanned aerial vehicle duration short, and the operating efficiency is low, and fixed wing and many rotor unmanned aerial vehicle carry oblique camera can not compatible carry among the prior art moreover, have restricted its application.

SUMMERY OF THE UTILITY MODEL

The utility model provides a multi-lens shooting system suitable for a fixed-wing multi-rotor unmanned aerial vehicle, aiming at the problems.

The purpose of the utility model is realized by the following technical scheme:

a multi-lens photographic system suitable for a fixed-wing and multi-rotor unmanned aerial vehicle comprises a supporting base, a protective cover, a multi-rotor control box and a multi-rotor connection port;

a plurality of lens holes are formed in the supporting base, and photographic lenses are arranged in the lens holes;

the protective cover covers the supporting base and is used for protecting the photographic lens, and a first control module electrically connected with the photographic lens is further arranged in the protective cover; the protective cover is also provided with a multi-rotor control box connecting port;

a second control module electrically connected with the photographic lens is arranged in the multi-rotor control box, and the multi-rotor control box can be fixedly connected with the protective cover through the multi-rotor control box connecting port;

many rotors mouth of receiving is located on the many rotors control box for reserve interface connection with many rotor unmanned aerial vehicle.

Preferably, the lens holes include a vertical lens hole in the middle and four inclined lens holes uniformly distributed around the vertical lens hole, and the number of the corresponding photographing lenses is five.

Preferably, the protective cover is provided with heat dissipation holes.

Preferably, the protective cover is further provided with a work indicator light and a power switch.

Preferably, the protective cover is further provided with a memory card interface.

Preferably, the multi-rotor control box connecting port is a threaded connecting port or a clamping connecting port.

Preferably, the top of the multi-rotor control box is provided with a protective cover plate.

Preferably, the multi-rotor connection Port is an X-Port interface.

The utility model abandons the simple assembly mode of the traditional multi-camera, designs the supporting base with a plurality of lens holes, only carries necessary components such as a lens, an optical module and the like on the lens holes, removes unnecessary mechanical structures and functional modules, then controls the multi-lens to synchronously act and shoot through the first control module, greatly lightens the weight of the camera, improves the shooting efficiency, realizes the compatible hanging of the fixed wing and the multi-rotor unmanned aerial vehicle by arranging the multi-rotor control box connecting port, and enlarges the application range of the multi-rotor unmanned aerial vehicle. Taking the traditional five cameras as an example, the total weight can be reduced from 1.8kg to 700g, the volume is reduced by nearly one third, and the operation efficiency is improved by two times.

Drawings

Fig. 1 is a schematic diagram of the general structure of a multi-lens photography system suitable for a fixed-wing multi-rotor unmanned aerial vehicle provided by the utility model;

FIG. 2 is a schematic view of the support base structure of FIG. 1;

FIG. 3 is a schematic view of the protective cover of FIG. 1;

fig. 4 is a schematic view of the multi-rotor control box and multi-rotor interface of fig. 1.

Wherein, 1-supporting base, 11-vertical lens hole, 12-inclined lens hole; 2-protective cover, 21-working indicator light, 22-power switch, 23-memory card interface, 24-heat dissipation hole, 25-multi-rotor control box connection threaded hole; 3-multi-rotor control box, 31-multi-rotor control box fixing hole, 32-cover plate, 33-cover plate fixing hole; 4-multiple rotor wing connection port.

Detailed Description

The utility model provides a multi-lens photographic system suitable for a fixed-wing and multi-rotor unmanned aerial vehicle, which comprises a supporting base 1, a protective cover 2, a multi-rotor control box 3 and a multi-rotor connecting port 4, wherein the supporting base is provided with a plurality of connecting holes;

the supporting base 1 is provided with a plurality of lens holes, and the lens holes are internally provided with photographic lenses which only comprise optical modules necessary for photography in order to reduce the weight of the camera and do not comprise mechanical structures and functional modules of the traditional camera; the number and shape of the lenses can be adjusted according to actual requirements, and preferably two, five or nine lenses are used.

The protective cover 2 covers the supporting base and is used for protecting the photographic lens, and a first control module electrically connected with the photographic lens is also arranged in the protective cover and is used for controlling the multiple lenses to synchronously act for photography; the protective cover is also provided with a multi-rotor control box connecting port 25;

a second control module electrically connected with the photographic lens is arranged in the multi-rotor control box 3, and the multi-rotor control box can be fixedly connected with the protective cover 2 through a multi-rotor control box connecting port 25;

the multi-rotor-wing connection port 4 is positioned on the multi-rotor-wing control box 3 and is used for being connected with a reserved interface of the multi-rotor-wing unmanned aerial vehicle; many rotors mouth of refuting can reserve interface shape, structure according to many rotor unmanned aerial vehicle of prior art and carry out the customization production.

The supporting base and the size of the protective cover are customized according to the size of the fixed-wing unmanned aerial vehicle, and the fixed-wing unmanned aerial vehicle can be directly placed in the body of the fixed-wing unmanned aerial vehicle during use. In the prior art, a camera interface is reserved generally for a multi-rotor unmanned aerial vehicle, and compared with a fixed-wing unmanned aerial vehicle, the multi-rotor unmanned aerial vehicle generally requires more functions for a carried multi-lens photographic system, such as measurement and POS position information recording, therefore, the multi-rotor unmanned aerial vehicle has the advantages that the multi-rotor control box and the multi-rotor connection port are fixedly connected with the protective cover through the connector according to the requirements of the multi-rotor unmanned aerial vehicle, and then the multi-rotor unmanned aerial vehicle is connected with the multi-rotor unmanned aerial vehicle through the multi-rotor connection port, so that the multi-rotor unmanned aerial vehicle is compatible to carry from the fixed-wing unmanned aerial vehicle to the multi-rotor unmanned aerial vehicle, and the requirement for function diversification of the multi-rotor unmanned aerial vehicle can be met through the multi-rotor control box.

Therefore, the utility model abandons the simple assembly mode of the traditional multi-camera, designs the supporting base with a plurality of lens holes, only carries necessary components such as a lens, an optical module and the like on the lens holes, removes unnecessary mechanical structures and functional modules, then controls the multi-lens to synchronously act and shoot through the first control module, greatly lightens the weight of the camera, improves the shooting efficiency, realizes the compatible mounting of the fixed wing and the multi-rotor unmanned aerial vehicle by arranging the multi-rotor control box connecting port, and enlarges the application range of the multi-rotor unmanned aerial vehicle. Taking the traditional five cameras as an example, the total weight can be reduced from 1.8kg to 700g, the volume is reduced by nearly one third, and the operation efficiency is improved by two times.

As shown in fig. 2, for the supporting base structure suitable for the current oblique photography with five cameras, the lens holes include a vertical lens hole 11 located in the middle and four oblique lens holes 12 uniformly distributed around the vertical lens hole 11, and the corresponding number of the photographing lenses is five.

As shown in fig. 3, the protective cover is provided with heat dissipation holes 24 to accelerate heat dissipation and prevent the temperature of the lens and the first control module from being too high.

Preferably, the protective cover is further provided with a work indicator lamp 21 and a power switch 22, and the work indicator lamp 21 can indicate the working state of the camera, so that monitoring is facilitated.

Preferably, the protective cover is further provided with a memory card interface 23, so that the memory card can be conveniently connected and detached.

Preferably, the multi-rotor control box connection port is a threaded connection port or a clamping connection port, as shown in fig. 3 and 4, a multi-rotor control box connection threaded hole 25 is formed in the protection cover, and a corresponding connection hole 31 is also formed in the multi-rotor control box, and the multi-rotor control box connection threaded hole and the corresponding connection hole can be fixedly connected through threads.

Preferably, as shown in fig. 4, a protective cover plate 32 is disposed on the top of the multi-rotor control box, and is fixed to the multi-rotor control box through a cover plate fixing hole 33, so as to further protect and fix the multi-rotor control box.

Preferably, the multi-rotor connection Port is an X-Port interface.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the utility model. It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. A multi-lens photographic system suitable for a fixed-wing and multi-rotor unmanned aerial vehicle is characterized by comprising a supporting base, a protective cover, a multi-rotor control box and a multi-rotor connection port;

a plurality of lens holes are formed in the supporting base, and photographic lenses are arranged in the lens holes;

the protective cover covers the supporting base and is used for protecting the photographic lens, and a first control module electrically connected with the photographic lens is further arranged in the protective cover; the protective cover is also provided with a multi-rotor control box connecting port;

a second control module electrically connected with the photographic lens is arranged in the multi-rotor control box, and the multi-rotor control box can be fixedly connected with the protective cover through the multi-rotor control box connecting port;

many rotors mouth of receiving is located on the many rotors control box for reserve interface connection with many rotor unmanned aerial vehicle.

2. The multi-lens photography system of a fixed-wing, multi-rotor drone of claim 1,

the lens holes comprise a vertical lens hole in the middle and four inclined lens holes uniformly distributed on the periphery of the vertical lens hole, and the number of the corresponding photographic lenses is five.

3. The multi-lens photography system of a fixed-wing, multi-rotor drone of claim 1,

the protective cover is provided with heat dissipation holes.

4. The multi-lens photography system of a fixed-wing, multi-rotor drone of claim 1,

and the protective cover is also provided with a work indicator light and a power switch.

5. The multi-lens photography system of a fixed-wing, multi-rotor drone of claim 1,

the protective cover is also provided with a memory card interface.

6. The multi-lens photography system of a fixed-wing, multi-rotor drone of claim 1,

the multi-rotor wing control box connecting port is a threaded connecting port or a clamping connecting port.

7. The multi-lens photography system of a fixed-wing, multi-rotor drone of claim 1,

and a protective cover plate is arranged at the top of the multi-rotor control box.

8. The multi-lens photography system of a fixed-wing, multi-rotor drone of claim 1,

the multi-rotor-wing connection Port is an X-Port interface.

Images