CN210437407U - Aerial camera with wide-angle imaging - Google Patents

Abstract

A wide-angle imaging aerial camera relates to the technical field of aerial cameras, solves the problems of small image field angle and poor structural stability, and comprises a first mounting seat, a second mounting seat, a third mounting seat, a fourth mounting seat, a fifth mounting seat, an upper plate, a lower plate, a support frame, a first camera, a second camera, a third camera, a fourth camera and a fifth camera, wherein the first mounting seat is connected with the rest four mounting seats; the mounting seats II to V are sequentially arranged around the mounting seat I and are connected with the supporting frame through the upper plate and the lower plate in sequence; the support frame comprises four connecting plates which are sequentially and circularly connected to form a quadrangle and two cross connections exist; the first camera lens is upward, the second camera lens and the third camera lens are inclined oppositely, the fourth camera lens and the fifth camera lens are inclined oppositely, the second camera lens and the fourth camera lens are inclined 31.185-31.815 degrees, and the third camera lens and the fifth camera lens are inclined 10.395-10.605 degrees. The utility model discloses a stable in structure, quality are light and realized wide angle formation of image.

Description

Aerial camera with wide-angle imaging

Technical Field

The utility model relates to an appearance technical field, concretely relates to wide angle formation of image's appearance of taking photo by plane.

Background

The aerial camera is an apparatus for photographing the ground on an airplane, an unmanned aerial vehicle or the like, and with the development of the unmanned aerial vehicle and the aerospace, the aerial camera is widely applied in recent years, and the aerial camera for oblique photographing is also developed by the aerial camera, and the price and the weight of the aerial camera are reduced, but the problems of small field angle and poor structural stability of the aerial camera still exist.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the angle of field of current aerial photography appearance is little and structural stability is poor, the utility model provides a wide angle formation of image's aerial photography appearance.

The utility model discloses a solve the technical scheme that technical problem adopted as follows:

the wide-angle imaging aerial camera is characterized by comprising a mechanical frame, a first camera, a second camera, a third camera, a fourth camera and a fifth camera;

the mechanical frame is of an integrally formed structure and comprises a first mounting seat, a second mounting seat, a third mounting seat, a fourth mounting seat, a fifth mounting seat, an upper plate, a lower plate and a support frame, wherein the support frame is connected with the upper plate and the lower plate;

the support frame comprises a first connecting plate, a second connecting plate, a third connecting plate and a fourth connecting plate, wherein the first connecting plate, the second connecting plate, the third connecting plate and the fourth connecting plate are upper side connecting upper plates and lower side connecting lower plates, the first connecting plate, the second connecting plate, the third connecting plate and the fourth connecting plate are sequentially and circularly connected to form a quadrangle, the first connecting plate is in cross connection with the fourth connecting plate, and the third connecting plate is in cross connection with the second connecting plate;

the first camera, the second camera, the third camera, the fourth camera and the fifth camera are positioned on the same side of the mechanical frame, and the first camera, the second camera, the third camera, the fourth camera and the fifth camera are correspondingly arranged on the first mounting seat, the second mounting seat, the third mounting seat, the fourth mounting seat and the fifth mounting seat one by one; the first camera lens is upward in direction, the second camera lens, the third camera lens, the fourth camera lens and the fifth camera lens are all upward in inclination direction, the second camera lens and the third camera lens are inclined oppositely, the fourth camera lens and the fifth camera lens are inclined oppositely, the inclination angle of the second camera lens relative to the first camera lens is 31.185-31.815 degrees, the inclination angle of the third camera lens relative to the first camera lens is 10.395-10.605 degrees, the inclination angle of the fourth camera lens relative to the first camera lens is 31.185-31.815 degrees, and the inclination angle of the fifth camera lens relative to the first camera lens is 10.395-10.605 degrees; the plane of the second camera lens is intersected with the plane of the first lens of the lens camera to form a first intersection line, the plane of the third camera lens is intersected with the plane of the first lens of the lens camera to form a second intersection line, the plane of the fourth camera lens is intersected with the plane of the first lens of the lens camera to form a third intersection line, the plane of the fifth camera lens is intersected with the plane of the first lens of the lens camera to form a fourth intersection line, and the first intersection line, the second intersection line, the third intersection line and the fourth intersection line are parallel to each other.

Further, the focal lengths of the lenses of the second camera, the third camera, the fourth camera and the fifth camera are all 50mm, and the focal length of the lens of the first camera is 22 mm.

Furthermore, the two mounting seats are obliquely arranged relative to the first mounting seat, the inclination angle is 31.185-31.815 degrees, the three mounting seats are obliquely arranged relative to the first mounting seat, the inclination angle is 10.395-10.605 degrees, the four mounting seats are obliquely arranged relative to the first mounting seat, the inclination angle is 31.185-31.815 degrees, the five mounting seats are obliquely arranged relative to the first mounting seat, and the inclination angle is 10.395-10.605 degrees.

Furthermore, the aerial photography instrument further comprises a side plate, and the side plate is connected with the upper plate, the lower plate and the support frame.

Furthermore, the mounting seat II is connected with the mounting seat III through a side plate, the mounting seat III is connected with the mounting seat IV through a side plate, the mounting seat IV is connected with the mounting seat V through a side plate, and the mounting seat V is connected with the mounting seat II through a side plate.

Furthermore, the first connecting plate is connected with the second connecting plate in a cross mode, and the third connecting plate is connected with the fourth connecting plate in a cross mode.

Further, the aerial photography instrument further comprises a hollow column, the hollow column penetrates through the upper plate and the lower plate, the first connecting plate, the second connecting plate, the third connecting plate and the fourth connecting plate are arranged on the aerial surveying instrument mounting frame through the hollow column and screws.

Furthermore, camera memory card slots are formed in the first mounting seat, the second mounting seat, the third mounting seat, the fourth mounting seat and the fifth mounting seat.

Furthermore, camera parameter regulation and control boards are arranged in the first mounting seat, the second mounting seat, the third mounting seat, the fourth mounting seat and the fifth mounting seat, key holes are formed in the first mounting seat, the second mounting seat, the third mounting seat, the fourth mounting seat and the fifth mounting seat, and the key holes correspond to the key settings of the camera parameter regulation and control boards.

Furthermore, a camera master control board which is connected with and controls the first camera, the second camera, the third camera, the fourth camera and the fifth camera to shoot is arranged in the first mounting seat, and a GPS antenna interface and a data interface are arranged on the first mounting seat.

The utility model has the advantages that:

1. through the arrangement of the inclination angles of the second camera, the third camera, the fourth camera, the fifth camera and the first camera, a larger image field angle can be realized, a larger effective imaging area array can be obtained, and the problem of small image field angle is solved.

2. The mounting seats are connected through the supporting frame, the upper plate and the lower plate, so that the stability of the mechanical frame is guaranteed, and the stability of aerial photography of the camera is also guaranteed. Because each connecting plate is adopted instead of a solid connecting block, the light weight of the mechanical frame is realized, and meanwhile, the cross connection of the connecting plates realizes the enhancement of the connection stability between the mounting seats, namely, the stability of the whole structure of the mechanical frame is improved. The mechanical frame is of an integrated structure, is stable in structure, and ensures the shooting stability of five cameras.

3. The utility model discloses a wide angle formation of image's aerial photography appearance's stable in structure, quality are light and realize wide angle formation of image.

Drawings

Fig. 1 is a first structural schematic diagram of the aerial camera for wide-angle imaging according to the present invention.

Fig. 2 is a second schematic structural diagram of the aerial camera for wide-angle imaging according to the present invention.

Fig. 3 is a schematic view of a partial structure of the wide-angle imaging aerial camera of the present invention.

In the figure: 1. mount pad one, 2, mount pad two, 3, mount pad three, 4, mount pad four, 5, mount pad five, 6, the upper plate, 7, the hypoplastron, 8.1, first connecting plate, 8.2, the second connecting plate, 8.3, the third connecting plate, 8.4, the fourth connecting plate, 8.5, the fifth connecting plate, 9, the curb plate, 10, hollow post, 11, camera RAM card slot, 12, the button hole, 13, total power control key hole, 14, camera total control key hole, 15, the pilot lamp.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A wide-angle imaging aerial camera comprises a mechanical frame, a first camera, a second camera, a third camera, a fourth camera and a fifth camera. As shown in fig. 1 to 3, no camera is installed in any of fig. 1 to 3, fig. 1 is a schematic structural view of a side (upper side) where the camera is installed, and fig. 2 is a schematic structural view of a certain viewing angle of a lower side of the aerial camera.

The mechanical frame is of an integrated structure and comprises a first mounting seat 1, a second mounting seat 2, a third mounting seat 3, a fourth mounting seat 4, a fifth mounting seat 5 and a connecting mechanism. The number of the connecting mechanisms is four, each connecting mechanism comprises an upper plate 6, a lower plate 7 and a supporting frame, and the supporting frame is connected with the upper plate 6 and the lower plate 7. The mounting seat I1 is connected with the mounting seat II 2, the mounting seat III 3, the mounting seat IV 4 and the mounting seat V5, and the mounting seat II 2, the mounting seat III 3, the mounting seat IV 4 and the mounting seat V5 are sequentially arranged around the mounting seat I1. The second mounting seat 2 is connected with a third mounting seat 3 through an upper plate 6, a lower plate 7 and a support frame, the third mounting seat 3 is connected with a fourth mounting seat 4 through the upper plate 6, the lower plate 7 and the support frame, the fourth mounting seat 4 is connected with a fifth mounting seat 5 through the upper plate 6, the lower plate 7 and the support frame, and the fifth mounting seat 5 is connected with the second mounting seat 2 through the upper plate 6, the lower plate 7 and the support frame.

The first camera, the second camera, the third camera, the fourth camera and the fifth camera are located on the same side of the mechanical frame and located on the upper side of the mechanical frame, the first camera is installed on the first installation seat 1, the second camera is installed on the second installation seat 2, the third camera is installed on the third installation seat 3, the fourth camera is installed on the fourth installation seat 4, and the fifth camera is installed on the fifth installation seat 5. Camera two, camera three, camera four and camera five surround camera one. The first camera lens is upward, the second camera lens, the third camera lens, the fourth camera lens and the fifth camera lens are all obliquely upward, the second camera lens and the third camera lens are oppositely inclined, and the fourth camera lens and the fifth camera lens are oppositely inclined. The plane of the second camera lens is intersected with the plane of the first lens of the lens camera to form a first intersection line, the plane of the third camera lens is intersected with the plane of the first lens of the lens camera to form a second intersection line, the plane of the fourth camera lens is intersected with the plane of the first lens of the lens camera to form a third intersection line, the plane of the fifth camera lens is intersected with the plane of the first lens of the lens camera to form a fourth intersection line, and the four straight lines of the first intersection line, the second intersection line, the third intersection line and the fourth intersection line are parallel to each other. The second camera lens is obliquely arranged relative to the first camera lens, the inclination angle is 31.185-31.815 degrees, the third camera lens is obliquely arranged relative to the first camera lens, the inclination angle is 10.395-10.605 degrees, the fourth camera lens is obliquely arranged relative to the first camera lens, the inclination angle is 31.185-31.815 degrees, the fifth camera lens is obliquely arranged relative to the first camera lens, and the inclination angle is 10.395-10.605 degrees. The focal lengths of the lenses of the camera II, the camera III, the camera IV and the camera V are all 50mm, and the focal length of the lens of the camera I is 22 mm. The cameras of the present embodiment are all the SONY-A7R cameras, and can realize an image field angle of 86 ° × 45 °. The inclination angle of the camera lens is set through the angle of the mounting seat, namely the mounting seat II 2 is obliquely arranged relative to the mounting seat I1, the inclination angle is 31.185-31.815 degrees, the mounting seat III 3 is obliquely arranged relative to the mounting seat I1, the inclination angle is 10.395-10.605 degrees, the mounting seat IV 4 is obliquely arranged relative to the mounting seat I1, the inclination angle is 31.185-31.815 degrees, the mounting seat V5 is obliquely arranged relative to the mounting seat I1, and the inclination angle is 10.395-10.605 degrees.

The connecting mechanism comprises a side plate 9, the side plate 9 is connected with an upper plate 6, a lower plate 7 and a supporting frame, the side plate 9 can also be connected with the supporting frame, the side plate 9 is also connected with a second mounting seat 2 and a third mounting seat 3, the side plate 9 is also connected with the third mounting seat 3 and a fourth mounting seat 4, the side plate 9 is also connected with the fifth mounting seat 4 and a fifth mounting seat 5, and the side plate 9 is also connected with the fifth mounting seat 5 and the second mounting seat 2. While the side panels 9 also serve as part of the outer side frame of the aerial camera.

The support frame includes first connecting plate 8.1, second connecting plate 8.2, third connecting plate 8.3 and fourth connecting plate 8.4, and first connecting plate 8.1, second connecting plate 8.2, third connecting plate 8.3 and fourth connecting plate 8.4 all are upside and connect upper plate 6, downside and connect hypoplastron 7. Fig. 3 is a schematic view showing a structure in which the lower plate 7 is absent from the connecting mechanism, the mechanical frame is an integral structure, and fig. 3 is a schematic view showing a structure of the support frame and the hollow column 10 described below in which the lower plate 7 is absent from the connecting mechanism.

The first connecting plate 8.1 is connected with the second connecting plate 8.2 and the fourth connecting plate 8.4, and the third connecting plate 8.3 is connected with the second connecting plate 8.2 and the fourth connecting plate 8.4. There are at least two cross-connections of the first 8.1, second 8.2, third 8.3 and fourth 8.4 connection plates, where the first 8.1 cross-connects the fourth 8.4 connection plates and the third 8.3 cross-connects the second 8.2 connection plates. Preferably the first connecting plate 8.1 is cross-connected to the second connecting plate 8.2 and the third connecting plate 8.3 is cross-connected to the fourth connecting plate 8.4. The first connecting plate 8.1, the second connecting plate 8.2, the third connecting plate 8.3 and the fourth connecting plate 8.4 are sequentially and circularly connected to form a quadrangle.

The connecting mechanism further comprises a hollow column 10 for externally connecting and fixing the aerial measuring instrument by externally connecting a long screw. The hollow column 10 is located in the quadrilateral formed by the first connecting plate 8.1, the second connecting plate 8.2, the third connecting plate 8.3 and the fourth connecting plate 8.4. Hollow post 10 direct connection first connecting plate 8.1, second connecting plate 8.2, third connecting plate 8.3 and fourth connecting plate 8.4, or the support frame still includes fifth connecting plate 8.5, and hollow post 10 is through fifth connecting plate 8.5 connection first connecting plate 8.1, second connecting plate 8.2, third connecting plate 8.3 and fourth connecting plate 8.4. Each connecting mechanism is provided with a hollow column 10 which is used for external connection to fix the aerial photography instrument, and the hollow columns 10 are connected with a support frame, so that the stability of the external connection of the aerial photography instrument is ensured.

Hollow post 10 connects upper plate 6 and hypoplastron 7, corresponds hollow post 10 on the hypoplastron 7 and is equipped with the through-hole, and upper plate 6 also is equipped with the through-hole corresponding to hollow post 10, and the external long screw of hollow post 10 of through-hole cooperation. The hollow post 10 in this embodiment penetrates the upper plate 6 through hole and the lower plate 7 through hole. The aerial photography instrument is arranged on the mounting rack of the aerial surveying instrument through the hollow column 10, the through hole and the screw.

And camera memory card slots 11 for inserting camera memory cards are formed in the first mounting seat 1, the second mounting seat 2, the third mounting seat 3, the fourth mounting seat 4 and the fifth mounting seat 5. The camera memory card slot 11 is located on the underside of the mount.

All be equipped with camera parameter regulation and control board in mount pad one 1, mount pad two 2, mount pad three 3, mount pad four 4 and the mount pad five 5, all be equipped with key hole 12 on mount pad one 1, mount pad two 2, mount pad three 3, mount pad four 4 and the mount pad five 5, key hole 12 corresponds the button setting of camera parameter regulation and control board, is used for the button through camera parameter regulation and control board. The camera parameter control board controls the camera installed on the installation seat where the camera is located, namely, the camera is connected with the corresponding camera, and the parameters of the camera are controlled. The key hole 12 is located on the underside of the mounting base.

The first mounting base 1 is provided with a GPS antenna interface, a data interface, a main power control key hole 13, a camera main control key hole 14 and an indicator light 15. The main body of the main power supply can be arranged on an installation frame of the aerial surveying instrument, and a switch control key of the main power supply is arranged on the installation seat I1 and corresponds to the main power supply control key hole 13. The camera master control board is arranged corresponding to the camera master control key hole 14 and located in the first mounting seat 1, and the camera master control board controls shooting of all cameras.

The main power supply is connected with the indicator lamp 15, the first camera, the second camera, the third camera, the fourth camera, the fifth camera and the camera main control board, and the camera parameter control board can be connected with the main power supply. The indicator light 15 is used for indicating all the camera states, the total power supply state and/or whether the camera shoots or not.

The camera master control board is connected with the GPS antenna interface, the data connecting line, the first camera, the second camera, the third camera, the fourth camera and the fifth camera. The GPS antenna interface is connected with the positioning device. The positioning device measures the geodetic coordinates of the camera at the moment of exposure and provides position information required by exposure for the camera master control board. The data interface is connected with the data connecting line. The camera master control board adopts the existing imaging controller. The GPS antenna interface receives the position information and transmits the position information to the camera master control board, and the camera master control board controls shooting of the first camera, the second camera, the third camera, the fourth camera and the fifth camera according to the shooting information transmitted by the data interface and the position information transmitted by the GPS antenna interface. The exposure time of the camera, etc. is derived via the data interface.

The aerial photography instrument further comprises a posture determining device which is connected with the camera master control board and used for determining the space posture angle of the camera at the moment of exposure and providing posture information required by exposure for the camera master control board.

Has the advantages that: the utility model discloses a wide angle formation of image's aerial photography appearance passes through the geometric structure of the mount pad of machinery frame, and the camera on the cooperation mount pad realizes that camera two, camera three, camera four and five respective central projections of camera deflect to the same one direction of camera. By setting the inclination angle of the camera, a larger image field angle can be realized, a larger effective imaging area array can be obtained, and the problem of small image field angle is solved. The installation bases are connected through the connecting mechanism, the installation bases around are sequentially and circularly connected, particularly the stability of the installation bases around and the camera is improved, and the aerial photographing stability of the camera is guaranteed. The connecting mechanism specifically adopts the support frame, and because each connecting plate is adopted instead of a solid connecting block, the light weight of the mechanical frame is realized, and meanwhile, the cross connection of the connecting plates realizes the enhancement of the connection stability between the mounting seats, namely, the stability of the whole structure of the mechanical frame is improved. The mechanical frame is of an integrally formed structure, is stable in structure, ensures the stability of shooting by five cameras, and simultaneously takes account of the light weight of the mechanical frame. The utility model discloses a wide angle formation of image's aerial photography appearance's stable in structure, quality light and can realize wide angle formation of image.

Claims (10)

1. The wide-angle imaging aerial camera is characterized by comprising a mechanical frame, a first camera, a second camera, a third camera, a fourth camera and a fifth camera;

the mechanical frame is an integrated structure, and the mechanical frame comprises a first mounting seat (1), a second mounting seat (2), a third mounting seat (3), a fourth mounting seat (4), a fifth mounting seat (5), an upper plate (6), a lower plate (7) and a support frame, wherein the support frame is connected with the upper plate (6) and the lower plate (7), the first mounting seat (1) is connected with the second mounting seat (2), the third mounting seat (3), the fourth mounting seat (4) and the fifth mounting seat (5), the second mounting seat (2), the third mounting seat (3), the fourth mounting seat (4) and the fifth mounting seat (5) are sequentially arranged around the first mounting seat (1), the second mounting seat (2) is connected with the third mounting seat (3) through the upper plate (6), the lower plate (7) and the support frame, the third mounting seat (3) is connected with the fourth mounting seat (4) through the upper plate (6), the lower plate (7) and the support frame, and the fourth mounting seat (4) is connected with the upper plate, The lower plate (7) and the support frame are connected with a fifth mounting seat (5), and the fifth mounting seat (5) is connected with a second mounting seat (2) through the upper plate (6), the lower plate (7) and the support frame;

the support frame comprises a first connecting plate (8.1), a second connecting plate (8.2), a third connecting plate (8.3) and a fourth connecting plate (8.4), wherein the first connecting plate (8.1), the second connecting plate (8.2), the third connecting plate (8.3) and the fourth connecting plate (8.4) are respectively an upper side connecting plate (6) and a lower side connecting plate (7), the first connecting plate (8.1), the second connecting plate (8.2), the third connecting plate (8.3) and the fourth connecting plate (8.4) are sequentially and circularly connected to form a quadrangle, the first connecting plate (8.1) is in cross connection with the fourth connecting plate (8.4), and the third connecting plate (8.3) is in cross connection with the second connecting plate (8.2);

the first camera, the second camera, the third camera, the fourth camera and the fifth camera are positioned on the same side of the mechanical frame, and the first camera, the second camera, the third camera, the fourth camera and the fifth camera are correspondingly arranged on the first mounting seat (1), the second mounting seat (2), the third mounting seat (3), the fourth mounting seat (4) and the fifth mounting seat (5) one by one; the first camera lens is upward in direction, the second camera lens, the third camera lens, the fourth camera lens and the fifth camera lens are all upward in inclination direction, the second camera lens and the third camera lens are inclined oppositely, the fourth camera lens and the fifth camera lens are inclined oppositely, the inclination angle of the second camera lens relative to the first camera lens is 31.185-31.815 degrees, the inclination angle of the third camera lens relative to the first camera lens is 10.395-10.605 degrees, the inclination angle of the fourth camera lens relative to the first camera lens is 31.185-31.815 degrees, and the inclination angle of the fifth camera lens relative to the first camera lens is 10.395-10.605 degrees; the plane of the second camera lens is intersected with the plane of the first lens of the lens camera to form a first intersection line, the plane of the third camera lens is intersected with the plane of the first lens of the lens camera to form a second intersection line, the plane of the fourth camera lens is intersected with the plane of the first lens of the lens camera to form a third intersection line, the plane of the fifth camera lens is intersected with the plane of the first lens of the lens camera to form a fourth intersection line, and the first intersection line, the second intersection line, the third intersection line and the fourth intersection line are parallel to each other.

2. The wide-angle imaging aerial camera of claim 1, wherein the focal lengths of the lenses of the second camera, the third camera, the fourth camera and the fifth camera are all 50mm, and the focal length of the lens of the first camera is 22 mm.

3. The wide-angle imaging aerial camera of claim 1, wherein the second mount (2) is disposed at an angle of 31.185 ° to 31.815 ° with respect to the first mount (1), the third mount (3) is disposed at an angle of 10.395 ° to 10.605 ° with respect to the first mount (1), the fourth mount (4) is disposed at an angle of 31.185 ° to 31.815 ° with respect to the first mount (1), and the fifth mount (5) is disposed at an angle of 10.395 ° to 10.605 ° with respect to the first mount (1).

4. The wide-angle imaging aerial camera of claim 1, further comprising a side plate (9), wherein the side plate (9) connects the upper plate (6), the lower plate (7) and the support frame.

5. The wide-angle imaging aerial camera according to claim 4, wherein the second mounting seat (2) is connected with the third mounting seat (3) through a side plate (9), the third mounting seat (3) is connected with the fourth mounting seat (4) through the side plate (9), the fourth mounting seat (4) is connected with the fifth mounting seat (5) through the side plate (9), and the fifth mounting seat (5) is connected with the second mounting seat (2) through the side plate (9).

6. A wide-angle imaging aerial camera according to claim 1, characterized in that the first connecting plate (8.1) is cross-connected to the second connecting plate (8.2) and the third connecting plate (8.3) is cross-connected to the fourth connecting plate (8.4).

7. The wide-angle imaging scope of claim 1, further comprising a hollow column (10), wherein the hollow column (10) penetrates through the upper plate (6) and the lower plate (7), and wherein the first connecting plate (8.1), the second connecting plate (8.2), the third connecting plate (8.3) and the fourth connecting plate (8.4) are mounted on the scope mounting frame through the hollow column (10) and screws.

8. The wide-angle imaging aerial camera according to claim 1, wherein the first mounting seat (1), the second mounting seat (2), the third mounting seat (3), the fourth mounting seat (4) and the fifth mounting seat (5) are all provided with a memory card slot (11) of a camera.

9. The wide-angle imaging aerial camera according to claim 1, wherein camera parameter adjusting plates are arranged in the first mounting seat (1), the second mounting seat (2), the third mounting seat (3), the fourth mounting seat (4) and the fifth mounting seat (5), key holes (12) are formed in the first mounting seat (1), the second mounting seat (2), the third mounting seat (3), the fourth mounting seat (4) and the fifth mounting seat (5), and the key holes (12) correspond to key settings of the camera parameter adjusting plates.

10. The wide-angle imaging aerial camera according to claim 1, wherein a camera master control board which is connected with and controls shooting of the first camera, the second camera, the third camera, the fourth camera and the fifth camera is arranged in the first mounting seat (1), and a GPS antenna interface and a data interface are arranged on the first mounting seat (1).

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