CN116668865A

CN116668865A - Assembled three-camera linkage camera

Info

Publication number: CN116668865A
Application number: CN202310961696.3A
Authority: CN
Inventors: 王士彬; 张森强; 张辉; 董满意
Original assignee: Hefei Lingyan Technology Co ltd
Current assignee: Hefei Lingyan Technology Co ltd
Priority date: 2023-08-02
Filing date: 2023-08-02
Publication date: 2023-08-29
Anticipated expiration: 2043-08-02
Also published as: CN116668865B

Abstract

The application relates to the technical field of cameras, and particularly discloses an assembled three-camera linkage camera which comprises a base, a mounting seat and a camera unit, wherein the base comprises a bottom plate and a shell, one side surface of the bottom plate is provided with a groove, one end surface of the shell is connected with a top plate, and one end of the shell, which is far away from the top plate, is inserted into the groove; the three mounting seats are arranged in the shell and uniformly distributed around the periphery of the shell; the three camera units are detachably arranged in the three mounting seats respectively and face the respective monitoring areas respectively; the bottom plate is fixedly connected to the wall top. The three camera units are assembled into the base, the positions of the three camera units are adjusted in advance, the base is installed on the wall after the three camera units are covered by 360 degrees, the three cameras are not required to be installed in sequence, the camera installation holes are not required to be designed and taken in advance, the installation difficulty of workers is reduced, and the convenience of installing the cameras by the workers is improved.

Description

Assembled three-camera linkage camera

Technical Field

The application relates to the technical field of cameras, in particular to an assembled three-camera linkage camera.

Background

Cameras are increasingly used in everyday life and are commonly used for various monitoring purposes, such as museums, airport halls, hotel lobbies, shops, etc.

At present, most cameras are single cameras, and the monitoring vision of the cameras is limited; when placing the camera in the ceiling, when needing the camera to carry out 360 monitoring of scope to surrounding space, need a plurality of cameras of combination install in same position this moment, beat the mounting hole of a plurality of cameras on the ceiling, the mounting hole needs to set up according to the number of camera and the monitoring field of vision scope of camera, install the camera with camera support one by one in the mounting hole again, the staff manually adjusts the position of camera orientation control respectively, report in monitor department through another staff, two people cooperate and adjust, square can monitor 360 of surrounding space.

By adopting the technical scheme, a plurality of independent cameras are required to be installed in the mode, the position of the installation hole is required, the difficulty of installation of workers is increased, the surrounding environment can be covered comprehensively by matching of the cameras, the workers are required to cooperate to adjust, and the operation is troublesome.

Disclosure of Invention

In order to improve convenience in camera installation, the application provides an assembled three-camera linkage camera.

The application provides an assembled three-camera linkage camera which adopts the following technical scheme:

the assembled triple-camera linkage camera comprises a base, a mounting seat and a camera unit, wherein the base comprises a bottom plate and a shell, a groove is formed in one side surface of the bottom plate, a top plate is connected to one end surface of the shell, and one end, far away from the top plate, of the shell is inserted into the groove; the three mounting seats are arranged in the shell and uniformly distributed around the periphery of the shell; the three camera units are detachably arranged in the three mounting seats respectively and face the respective monitoring areas respectively; the bottom plate is fixedly connected to the wall top.

Optionally, the camera unit comprises a disassembly and assembly seat, a camera body, a plugboard, a rotating shaft and a driving component; the shell of the camera body is spherical, and a camera module is arranged in the shell of the camera body; the two rotating shafts are rotatably connected to the shell of the camera body, the two rotating shafts are symmetrically arranged relative to the camera body, and the axis of the rotating shaft is perpendicular to the shooting direction of the camera module; the two plugboards are arranged, one ends of the two plugboards are respectively and fixedly connected with one ends of the two rotating shafts far away from the camera body, and the plugboards are detachably connected in the dismounting seat; the connecting line of the two rotating shafts in the camera unit and the connecting line of the two rotating shafts in the other two camera units form an equilateral triangle; the driving assembly is used for driving the camera body to rotate around the rotating shaft.

Optionally, the dismounting seat comprises a seat body, a connecting ring and a compression ring, wherein the seat body is an outer cylindrical inner hollow shell, one end of the seat body is communicated with the outside, the seat body is detachably arranged in the mounting seat, and one end of the seat body, which is communicated with the outside, faces the top plate; the outer peripheral surface of one end of the base body, which faces the top plate, is provided with an annular groove, the connecting ring is in threaded connection with the inner peripheral surface of the annular groove at the end part of the base body, the outer peripheral surface of the clamping ring is connected with the inner peripheral surface of the end part of the connecting ring, and the clamping ring is tightly pressed on the end surface of the base body, which is close to the top plate; the inner peripheral surface of the base is provided with two inserting grooves, the two inserting grooves are symmetrically arranged relative to the base, one end of each inserting groove is communicated with the end face of the base, which is close to the compression ring, the two inserting plates are respectively inserted into the two inserting grooves, and the compression ring is compressed on the end face of the inserting plate, which is close to the top plate.

Optionally, the drive assembly includes motor, gear and convex rack, the motor install in the inside bottom surface of pedestal, the output shaft axis of motor with the pivot axis is parallel, the coaxial fixed connection of gear in the output shaft of motor, the shell of camera body is provided with the arc wall, the arc wall with the pivot axis is mutually perpendicular, convex rack tooth is located convex surface of convex rack, convex rack connect in the arc wall.

Optionally, the mounting seat comprises a mounting sleeve, supporting legs, a connecting plate and a positioning tube, wherein the mounting sleeve is connected to the side surface of the top plate, which is close to the bottom plate, and the supporting legs are fixedly connected to one end surface of the mounting sleeve, which is far away from the top plate; the connecting plate is fixedly connected to the inner side surface of the supporting leg, and the outer circumferential surface of the positioning tube is fixedly connected to the end part, far away from the supporting leg, of the connecting plate; the end face of the base body is provided with a conductive column which is used for conducting a circuit of the camera body, the conductive column is inserted into the positioning tube, and the peripheral surface of the conductive column is connected with a positioning plate; the locating pipe is close to the tip of pedestal is provided with the edge the first spout of locating pipe axis direction, the locating plate slide in the first spout, be provided with on the locating pipe and be used for the gliding second spout of locating plate, the second spout with first spout is perpendicular, the second spout is located first spout is kept away from the one end of pedestal, the one end of second spout with the one end intercommunication of first spout.

Optionally, a side wall of the second chute, which is close to the base, is provided with a clamping groove matched with the positioning plate, and the clamping groove is located at an end part of the second chute, which is far away from the first chute.

Optionally, the circuit board is further included, a board groove is formed in the bottom of the groove, the circuit board is installed in the board groove, and the conductive column is electrically connected to the circuit board.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the circuit board is arranged in the board groove, the shell is arranged in the groove, the three camera units are arranged in the three mounting seats, the orientation of each camera unit is adjusted in advance, the three camera units can cover a 360-degree area by taking the base as the center of a circle, the mounting plate is fixed on the wall top through screws, the three camera units are electrified, the surrounding space can be monitored for 360 degrees, the three cameras are not required to be independently and sequentially arranged, and the camera mounting holes are not required to be designed and taken in advance, so that the mounting difficulty of workers is reduced, and the convenience of the workers in mounting the cameras can be improved;

2. when the camera body needs to be taken down, the connecting ring is rotated, the compression ring is released to compress the plug board, the connecting ring is rotated down from the base body, the camera is pulled out from the base body, the plug board is pulled out of the plug slot, the camera body can be taken down, and the camera body can be maintained or replaced; when the camera body is required to be installed, the plug board is aligned with the plug groove, the plug board is inserted into the plug groove, and then the connecting ring is screwed on the end part of the base body, so that the compression ring is compressed on the end part of the plug board, and the connecting ring is screwed, so that the camera body can be installed;

3. when the camera unit needs to be disassembled, firstly, the camera body is pushed to the bottom plate, the camera body is pushed to the base body, the base body is pushed to the conductive column, the conductive column drives the positioning plate to enable the positioning plate to be separated from the clamping groove, then the camera body is rotated to drive the base body to rotate, the base body rotates to drive the conductive column to rotate, the conductive column drives the positioning plate to slide from the second sliding groove to the first sliding groove, the positioning plate slides to the first sliding groove, the camera unit is pulled out outwards, the positioning plate slides out from the first sliding groove, and at the moment, the camera unit can be taken down, and maintenance or replacement of the camera unit can be carried out; when only two camera units are needed in the partial area, one camera unit can be taken down; meanwhile, the camera body is convenient to take down;

4. when the camera unit is required to be installed, the positioning plate is aligned with the first sliding groove, the camera unit is pushed into the installation sleeve, the base body drives the conductive column, the conductive column drives the positioning plate to slide in the first sliding groove towards the second sliding groove, the camera unit is rotated again, the positioning plate slides towards the clamping groove from the second sliding groove, and when the positioning plate reaches the position of the clamping groove, the camera unit is hung on the wall top under the self gravity, the positioning plate enters the clamping groove, and the camera unit is installed and fixed.

Drawings

Fig. 1 is a schematic structural diagram of a triple-shot linkage camera according to an embodiment of the present application.

Fig. 2 is an exploded view of a triple camera of the present application.

Fig. 3 is a schematic diagram of an explosion structure of another view angle of the triple-camera linkage camera according to the embodiment of the application.

Fig. 4 is a schematic structural view of a mounting base according to an embodiment of the present application.

Fig. 5 is an enlarged schematic view of the portion a in fig. 4.

Fig. 6 is a schematic diagram of an exploded structure of a camera unit according to an embodiment of the present application.

Fig. 7 is a schematic view of an exploded view of a camera unit according to another embodiment of the present application.

Fig. 8 is a schematic structural view of a driving assembly according to an embodiment of the present application.

Reference numerals illustrate:

1. a base; 11. a bottom plate; 111. a groove; 112. a plate groove; 113. a mounting plate; 12. a housing; 121. a top plate; 2. a circuit board; 3. a mounting base; 31. installing a sleeve; 32. support legs; 33. a connecting plate; 34. a positioning tube; 341. a first chute; 342. a second chute; 343. a clamping groove; 4. a camera unit; 41. disassembling and assembling the seat; 411. a base; 4111. an annular groove; 4112. a plug-in groove; 412. a connecting ring; 413. a clamp ring; 42. a camera body; 421. a camera module; 422. an arc-shaped groove; 43. a plug board; 44. a rotating shaft; 45. a drive assembly; 451. a motor; 452. a gear; 453. circular arc racks; 5. a conductive post; 51. a positioning plate; 61. a first elastic sheet; 62. a second elastic sheet; 63. and a third elastic sheet.

Detailed Description

The application is described in further detail below with reference to fig. 1-8.

The embodiment of the application discloses an assembled three-camera linkage camera. Referring to fig. 1 to 8, the assembled triple-camera linkage camera comprises a base 1, a circuit board 2, a mounting seat 3 and a camera unit 4, wherein the base 1 comprises a bottom plate 11 and a shell 12, a circular groove 111 is formed in one side surface of the bottom plate 11, the shell 12 is a cylindrical inner hollow shell, a top plate 121 is integrally formed on one end surface of the shell 12, one end, far away from the top plate 121, of the shell 12 is inserted into the groove 111, the outer peripheral surface of the shell 12 is attached to the inner peripheral surface of the groove 111, and the end surface of the shell 12 is attached to the bottom of the groove 111; the bottom of the groove 111 is provided with a circular plate groove 112, the circuit board 2 is designed to be circular plate-shaped, and the circuit board 2 is arranged in the plate groove 112; three mounting seats 3 are arranged, the three mounting seats 3 are all arranged in the shell 12, and the three mounting seats 3 are uniformly distributed around the shell 12 in a circle; the three camera units 4 are arranged, the three camera units 4 are respectively detachably arranged in the three mounting seats 3, and the three camera units 4 face to respective monitoring areas; the outer peripheral surface of the bottom plate 11 is fixedly connected with three mounting plates 113, and the mounting plates 113 are fixed on the wall top through screws, so that the assembly type three-camera linkage camera is mounted.

Install circuit board 2 in board groove 112, shell 12 installs in recess 111, three camera unit 4 installs in three mount pad 3, adjust the orientation of every camera unit 4 in advance, make three camera unit 4 use base 1 as the centre of a circle can cover 360 region, fix mounting panel 113 on the wall top through the screw again, three camera unit 4 circular telegram, alright carry out 360 control to the space around, need not to install three camera in proper order alone, also need not to design in advance and get the camera mounting hole, the installation degree of difficulty of staff has been reduced, thereby the convenience of staff's installation camera can be improved.

The camera unit 4 comprises a disassembly and assembly seat 41, a camera body 42, a plugboard 43, a rotating shaft 44 and a driving component 45; the dismounting seat 41 comprises a seat 411, a connecting ring 412 and a compression ring 413, wherein the seat 411 is an outer cylindrical inner hollow shell, one end of the seat 411 is communicated with the outside, the seat 411 is detachably arranged in the mounting seat 3, and one end of the seat 411 communicated with the outside faces to the top plate 121; an annular groove 4111 is formed in the outer peripheral surface of one end, facing the top plate 121, of the base 411, the connecting ring 412 is connected to the inner peripheral surface of the annular groove 4111 at the end of the base 411 in a threaded manner, the outer peripheral surface of the clamping ring 413 is connected to the inner peripheral surface of the end of the connecting ring 412, and the clamping ring 413 is pressed against the end surface, close to the top plate 121, of the base 411.

The shell 12 of the camera body 42 is spherical, and a camera module 421 is arranged in the shell 12 in the camera body 42; the two rotating shafts 44 are arranged, the two rotating shafts 44 are rotatably connected to the shell 12 of the camera body 42, the two rotating shafts 44 are symmetrically arranged relative to the camera body 42, and the axis of the rotating shaft 44 is perpendicular to the shooting direction of the camera module 421; the two plugboards 43 are arranged, one ends of the two plugboards 43 are respectively and fixedly connected to one ends of the two rotating shafts 44, which are far away from the camera body 42, two pluging grooves 4112 are formed in the inner peripheral surface of the base 411, the two pluging grooves 4112 are symmetrically arranged relative to the base 411, the pluging grooves 4112 are arranged along the axial direction of the base 411, one ends of the two pluging grooves 4112 are communicated with the end surface of the base 411, which is close to the compression ring 413, the two plugboards 43 are respectively and fixedly connected to the two pluging grooves 4112, most of the camera body 42 is positioned in the base 411, and the compression ring 413 is compressed on the end surface of the plugboard 43, which is close to the top plate 121; the connection line of the two rotating shafts 44 in the camera unit 4 and the connection line of the two rotating shafts 44 in the other two camera units 4 enclose an equilateral triangle.

When the camera body 42 needs to be removed, the connecting ring 412 is rotated to release the compression of the compression ring 413 on the plug board 43, the connecting ring 412 is rotated down from the base 411 to pull the camera out of the base 411, the plug board 43 is pulled out of the plug slot 4112, so that the camera body 42 can be removed, and the camera body 42 can be maintained or replaced; when the camera body 42 is required to be mounted, the plug board 43 is aligned with the plug slot 4112, the plug board 43 is inserted into the plug slot 4112, and then the connecting ring 412 is screwed on the end of the seat 411, so that the compression ring 413 is compressed on the end of the plug board 43, and the connecting ring 412 is screwed, so that the camera body 42 can be mounted.

The driving assembly 45 comprises a motor 451, a gear 452 and a circular arc-shaped rack 453, the motor 451 is mounted on the bottom surface inside the base 411, the axis of an output shaft of the motor 451 is parallel to the axis of the rotating shaft 44, the gear 452 is coaxially and fixedly connected to the output shaft of the motor 451, the shell 12 of the camera body 42 is provided with a circular arc-shaped groove 422, the circular arc-shaped groove 422 is perpendicular to the axis of the rotating shaft 44, the tooth of the circular arc-shaped rack 453 is located on the convex surface of the circular arc-shaped rack 453, the circular arc-shaped rack 453 is connected in the circular arc-shaped groove 422, and the circular arc-shaped rack 453 is located in the circular arc-shaped groove 422.

When the direction of the camera needs to be adjusted, the motor 451 drives the gear 452 to rotate, the gear 452 drives the circular arc-shaped rack 453 to rotate around the axis of the rotation shaft 44, the circular arc-shaped rack 453 drives the camera body 42 to rotate around the rotation shaft 44, and the direction of the visual field of the camera body 42 can be adjusted up and down.

The mounting seat 3 comprises mounting sleeves 31, supporting legs 32, connecting plates 33 and positioning pipes 34, wherein the mounting sleeves 31 are connected to the side surface of the top plate 121, which is close to the bottom plate 11, the supporting legs 32 are three, the three supporting legs 32 are fixedly connected to one end surface of the mounting sleeves 31, which is far away from the top plate 121, the three supporting legs 32 are uniformly distributed along the circumference of the mounting sleeves 31, the connecting plates 33 are three, the three connecting plates 33 are respectively fixedly connected to the inner side surfaces of the three supporting legs 32, the outer circumferential surface of the positioning pipes 34 are fixedly connected to the end parts of the three connecting plates 33, which are close to each other, and the positioning pipes 34 are coaxial with the mounting sleeves 31; the end face of the base 411 is attached to the side face of the connecting plate 33, which is close to the mounting sleeve 31, a conductive column 5 is mounted in the middle of the end face of the base 411, the conductive column 5 is inserted into the positioning tube 34, and one end of the conductive column 5, which is far away from the base 411, is hemispherical and the end of the conductive column is pressed on the circuit board 2.

The peripheral surface of the conductive column 5 is connected with a positioning plate 51; the end of the positioning tube 34, which is close to the base 411, is provided with a first chute 341 along the axial direction of the positioning tube 34, the positioning tube 34 is provided with a second chute 342, the second chute 342 is perpendicular to the first chute 341, the second chute 342 is positioned at one end of the first chute 341, which is far away from the base 411, one end of the second chute 342 is communicated with one end of the first chute 341, one side wall of the second chute 342, which is close to the base 411, is provided with a clamping groove 343 which is mutually matched with the positioning plate 51, and the clamping groove 343 is positioned at the end of the second chute 342, which is far away from the first chute 341; the first sliding groove 341, the second sliding groove 342 and the clamping groove 343 are all communicated with the inside and the outside of the positioning tube 34, when the conductive column 5 is inserted into the positioning tube 34, the positioning plate 51 slides in the first sliding groove 341 first, and when the positioning plate 51 slides to the second sliding groove 342, the seat 411 is rotated, so that the positioning plate 51 slides in the second sliding groove 342 towards the clamping groove 343, and the positioning plate 51 is clamped into the clamping groove 343 under the gravity action of the camera unit 4.

When the camera unit 4 needs to be disassembled, firstly, the camera body 42 is pushed to the bottom plate 11, the camera body 42 pushes the base 411, the base 411 pushes the conductive column 5, the conductive column 5 drives the positioning plate 51 to separate from the clamping groove 343, then the base 411 is driven to rotate by rotating the camera body 42, the conductive column 5 is driven to rotate by rotating the base 411, the positioning plate 51 is driven to slide from the second sliding groove 342 to the first sliding groove 341, the positioning plate 51 slides to the first sliding groove 341, then the camera unit 4 is pulled out outwards, the positioning plate 51 slides out from the first sliding groove 341, and at the moment, the camera unit 4 can be taken down, and the camera unit 4 can be maintained or replaced; when only two camera units 4 are needed in the partial area, one camera unit 4 can be taken down; while also facilitating removal of the camera body 42.

When the camera unit 4 needs to be installed, the positioning plate 51 is aligned with the first sliding groove 341, the camera unit 4 is pushed into the installation sleeve 31, the base 411 drives the conductive column 5, the conductive column 5 drives the positioning plate 51 to slide in the first sliding groove 341 towards the second sliding groove 342, the camera unit 4 is rotated again, the positioning plate 51 slides from the second sliding groove 342 towards the clamping groove 343, and when the positioning plate 51 reaches the clamping groove 343, the camera is hung on the wall top, the camera unit 4 is under the self gravity, the positioning plate 51 enters the clamping groove 343, and the camera unit 4 is installed and fixed.

The end of the plug board 43 far away from the compression ring 413 is connected with a first elastic sheet 61, the side wall of the end of the plug slot 4112 far away from the compression ring 413 is connected with a second elastic sheet 62, when the plug board 43 is plugged into the plug slot 4112, the first elastic sheet 61 presses the second elastic sheet 62, and the compression ring 413 presses the plug board 43, so that the first elastic sheet 61 is pressed on the second elastic sheet 62; the wires of the camera module 421 penetrate through the rotating shaft 44 and enter the plug board 43, the wires entering the plug board 43 are connected to the first elastic sheet 61, the wires connected to the conductive posts 5 penetrate into the base 411, and the wires penetrating into the base 411 are connected to the second elastic sheet 62.

Three third elastic sheets 63 are connected to one side surface of the circuit board 2 far away from the bottom plate 11, the three third elastic sheets 63 correspond to the three conductive columns 5 respectively, the end parts of the conductive columns 5 are pressed on the third elastic sheets 63, and the third elastic sheets 63 act on the conductive columns 5 in a counteraction manner to press the positioning plate 51 in the clamping grooves 343; the circuit board 2 is provided with a through hole for the supporting leg 32 to pass through, and the supporting leg 32 is pressed against the bottom surface of the board groove 112.

The circuit of the camera body 42 is connected by the contact between the first elastic sheet 61 and the second elastic sheet 62, so as to realize the circuit conduction between the conductive column 5 and the camera module 421; the conductive column 5 compresses the third elastic sheet 63 to realize the circuit communication between the circuit board 2 and the conductive column 5, and the current on the circuit board 2 comes from the circuit externally connected to a power grid; the conductive post 5 is pressed against the third elastic piece 63, and the third elastic piece 63 reacts to the conductive post 5, so that the conductive post 5 further presses the positioning plate 51 into the re-clamping groove 343, and the fixing state of the camera unit 4 is further stabilized.

The implementation principle of the assembled three-camera linkage camera provided by the embodiment of the application is as follows: install circuit board 2 in board groove 112, shell 12 installs in recess 111, three camera unit 4 installs in three mount pad 3, adjust the orientation of every camera unit 4 in advance, make three camera unit 4 use base 1 as the centre of a circle can cover 360 region, fix mounting panel 113 on the wall top through the screw again, three camera unit 4 circular telegram, alright carry out 360 control to the space around, need not to install three camera in proper order alone, also need not to design in advance and get the camera mounting hole, the installation degree of difficulty of staff has been reduced, thereby the convenience of staff's installation camera can be improved.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. An assembled three linkage cameras that take photograph, its characterized in that: the camera comprises a base (1), a mounting seat (3) and a camera unit (4), wherein the base (1) comprises a bottom plate (11) and a shell (12), a groove (111) is formed in one side surface of the bottom plate (11), a top plate (121) is connected to one end surface of the shell (12), and one end, far away from the top plate (121), of the shell (12) is inserted into the groove (111); the three mounting seats (3) are arranged, the three mounting seats (3) are all arranged in the shell (12), and the three mounting seats (3) are uniformly distributed around the shell (12) in a circle; the three camera units (4) are arranged, the three camera units (4) are respectively detachably arranged in the three mounting seats (3), and the three camera units (4) face towards respective monitoring areas; the bottom plate (11) is fixedly connected to the wall top.

2. The assembled triple camera linkage camera according to claim 1, wherein: the camera unit (4) comprises a disassembly and assembly seat (41), a camera body (42), a plugboard (43), a rotating shaft (44) and a driving assembly (45); the shell (12) of the camera body (42) is spherical, and a camera module (421) is arranged in the shell (12) in the camera body (42); the two rotating shafts (44) are arranged, the two rotating shafts (44) are rotatably connected to the shell (12) of the camera body (42), the two rotating shafts (44) are symmetrically arranged relative to the camera body (42), and the axis of the rotating shafts (44) is perpendicular to the shooting direction of the camera module (421); the two plug boards (43) are arranged, one ends of the two plug boards (43) are respectively and fixedly connected to one ends of the two rotating shafts (44) which are far away from the camera body (42), and the plug boards (43) are detachably connected in the dismounting seat (41); the connecting line of the two rotating shafts (44) in the camera unit (4) and the connecting line of the two rotating shafts (44) in the other two camera units (4) enclose an equilateral triangle; the driving assembly (45) is used for driving the camera body (42) to rotate around the rotating shaft (44).

3. The assembled triple camera linkage camera according to claim 2, wherein: the dismounting seat (41) comprises a seat body (411), a connecting ring (412) and a compression ring (413), wherein the seat body (411) is an outer cylindrical inner hollow shell, one end of the seat body (411) is communicated with the outside, the seat body (411) is detachably arranged in the mounting seat (3), and one end of the seat body (411) communicated with the outside faces the top plate (121); an annular groove (4111) is formed in the outer peripheral surface of one end, facing the top plate (121), of the base body (411), the connecting ring (412) is connected to the inner peripheral surface of the annular groove (4111) at the end part of the base body (411) in a threaded mode, the outer peripheral surface of the clamping ring (413) is connected to the inner peripheral surface of the end part of the connecting ring (412), and the clamping ring (413) is pressed on the end face, close to the top plate (121), of the base body (411); the novel clamping device is characterized in that two inserting grooves (4112) are formed in the inner peripheral surface of the base body (411), the two inserting grooves (4112) are symmetrically arranged relative to the base body (411), one end of each inserting groove (4112) is communicated with the end face, close to the clamping ring (413), of the base body (411), the two inserting plates (43) are inserted into the two inserting grooves (4112) respectively, and the clamping ring (413) is tightly pressed on the end face, close to the top plate (121), of the inserting plates (43).

4. The assembled triple camera linkage camera according to claim 3, wherein: the driving assembly (45) comprises a motor (451), a gear (452) and a circular arc-shaped rack (453), the motor (451) is mounted on the bottom surface inside the base body (411), the axis of an output shaft of the motor (451) is parallel to the axis of the rotating shaft (44), the gear (452) is fixedly connected to the output shaft of the motor (451) coaxially, an arc-shaped groove (422) is formed in a shell (12) of the camera body (42), the arc-shaped groove (422) is perpendicular to the axis of the rotating shaft (44), teeth of the circular arc-shaped rack (453) are located on the convex surface of the circular arc-shaped rack (453), and the circular arc-shaped rack (453) is connected to the arc-shaped groove (422).

5. The assembled triple camera linkage camera according to claim 3, wherein: the mounting seat (3) comprises a mounting sleeve (31), supporting legs (32), a connecting plate (33) and a positioning tube (34), wherein the mounting sleeve (31) is connected to the side surface of the top plate (121) close to the bottom plate (11), and the supporting legs (32) are fixedly connected to one end surface of the mounting sleeve (31) far away from the top plate (121); the connecting plate (33) is fixedly connected to the inner side surface of the supporting leg (32), and the outer circumferential surface of the positioning tube (34) is fixedly connected to the end part, far away from the supporting leg (32), of the connecting plate (33); the end face of the base body (411) is provided with a conductive column (5), the conductive column (5) is used for conducting a circuit of the camera body (42), the conductive column (5) is inserted into the positioning tube (34), and the peripheral surface of the conductive column (5) is connected with a positioning plate (51); the locating pipe (34) is close to the end of the base (411) and is provided with a first chute (341) along the axis direction of the locating pipe (34), the locating plate (51) slides in the first chute (341), a second chute (342) used for sliding the locating plate (51) is arranged on the locating pipe (34), the second chute (342) is perpendicular to the first chute (341), the second chute (342) is located at one end, far away from the base (411), of the first chute (341), and one end of the second chute (342) is communicated with one end of the first chute (341).

6. The assembled triple camera linkage camera according to claim 5, wherein: a clamping groove (343) matched with the positioning plate (51) is formed in the side wall, close to the base body (411), of the second sliding groove (342), and the clamping groove (343) is located at the end, far away from the first sliding groove (341), of the second sliding groove (342).

7. The assembled triple camera linkage camera according to claim 5, wherein: the circuit board is characterized by further comprising a circuit board (2), a board groove (112) is formed in the bottom of the groove (111), the circuit board (2) is installed in the board groove (112), and the conductive column (5) is electrically connected to the circuit board (2).