CN218914264U - All-round rotation regulation frame of camera - Google Patents

Abstract

The utility model discloses a camera all-round rotation adjusting frame, which comprises: the device comprises a base, a bracket assembly and a rotating shaft assembly, wherein a hinge seat is arranged on one surface of the base; the bracket component comprises a middle bracket and an upper bracket, one end of the middle bracket is connected with the hinging seat, and the other end of the middle bracket is hinged with one end of the upper bracket; the pivot subassembly includes first pivot and second pivot, and first pivot wears to locate with the one end of well support and articulated seat on to make well support and articulated seat rotate to be connected, the second pivot wears to locate on the other end of well support and the one end of upper bracket, so that well support and upper bracket rotate to be connected. The upper bracket comprises a bearing surface extending from one end to the other end, and the bearing surface is used for bearing the camera. The utility model can solve the problem that the camera support can not realize omnibearing multi-angle adjustment, and simultaneously the bearing surface on the upper support can increase the contact area between the upper support and the camera, thereby realizing the function of stably bearing the camera.

Description

All-round rotation regulation frame of camera

Technical Field

The utility model relates to the technical field of electronic equipment supports, in particular to an omnibearing rotary adjusting frame for a camera.

Background

Home cameras have become an important ring in smart home devices, which can be used in various home scenario references. The existing cameras are integrated with the fixing support, most of the cameras can only be horizontally placed on a desktop or hung on a liquid crystal display, and the applicable scenes are not enough; in addition, the camera support hung on part has poor regulation performance and poor stability in the regulation process, and the existing camera support adopts one-section regulation, so that when the camera base is installed in different scenes, the support matched with the base cannot realize omnibearing multi-angle regulation; moreover, the existing camera is connected with the camera through a small part of the area at the end part of the bracket when the camera is installed with the bracket, so that the bracket cannot be used for stably supporting the camera, and the camera is suitable for different installation environments.

Aiming at the above requirements, a rotary adjusting frame which can be suitable for various installation occasions of cameras, can stably support the cameras and has an omnibearing adjusting effect is required to be provided.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide the omnibearing rotary adjusting frame for the camera, the angle between the omnibearing rotary adjusting frame and a base is adjusted through the middle bracket, and the angle of the camera relative to the middle bracket is adjusted through the upper bracket, so that the rotary adjusting frame jointly adjusts the angle of the camera and the position of the camera in an installation environment through the middle bracket and the upper bracket, the problem that the omnibearing multi-angle adjustment of the camera bracket cannot be realized is solved, and meanwhile, the contact area between the upper bracket and the camera can be increased through the bearing surface on the upper bracket, so that the effect of stably bearing the camera is realized.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

all-round rotation regulation frame of camera, rotation regulation frame includes:

a hinge seat is arranged on one surface of the base;

the bracket assembly comprises a middle bracket and an upper bracket, one end of the middle bracket is connected with the hinging seat, and the other end of the middle bracket is hinged with one end of the upper bracket;

the rotating shaft assembly comprises a first rotating shaft and a second rotating shaft, the first rotating shaft penetrates through one end of the middle support and the hinging seat so as to enable the middle support to be rotationally connected with the hinging seat, and the second rotating shaft penetrates through the other end of the middle support and one end of the upper support so as to enable the middle support to be rotationally connected with the upper support;

the upper bracket comprises a bearing surface extending from one end to the other end, and the bearing surface is used for bearing the camera so that the camera is fixed on the bearing surface.

Preferably, the bearing surface is provided with a first connecting hole, one side of the camera facing the bearing surface is provided with a second connecting hole, and the connecting piece is arranged in the first connecting hole and the second connecting hole in a penetrating way, so that the camera is fixed on the bearing surface.

More preferably, the connecting piece is the screw, and first connecting hole and second connecting hole are the screw hole, and the connecting piece can set up one or more, and corresponding first connecting hole and second connecting hole can set up one or more, set up a plurality of connecting pieces and can make camera and upper bracket assembly's more firm.

Preferably, the bearing surface of the upper bracket is also provided with a clamping groove, and the clamping groove is used for being clamped with a clamping strip at the bottom of the camera.

The camera and the upper bracket are fixedly assembled, and the clamping strip can also play a role in preventing the transverse movement of the camera. Therefore, the clamping strip and the clamping groove structure can be matched with the connecting piece to realize the positioning and fixed assembly of the camera and the upper bracket.

Preferably, the bearing surface is an inward concave arc surface extending from one end of the upper bracket to the other end, and the arc surface is matched with the bottom shape of the camera.

The bearing face that sets up like this, can be convenient for go up the support can the furthest laminating camera bottom to better bearing camera.

Preferably, the bearing surface is provided with a bearing groove, and the first connecting hole is arranged in the middle of the bearing groove.

The setting like this can make the camera install in the bearing groove in order to prevent that the camera from taking place to rock in the use.

Preferably, one face of the camera towards the upper bracket is provided with a boss part matched with the bearing groove, so that the boss part on the camera can be integrally clamped in the bearing groove, and positioning of the camera before installation is facilitated.

Preferably, the holding groove is a rectangular groove, which is arranged such that the camera is confined in the holding groove in a plurality of directions.

Preferably, the middle support is provided with first connecting portion with the one end that articulated seat is connected, and articulated seat includes the articulated elements that two intervals set up, is used for joint first connecting portion between two articulated elements, is provided with the articulated cavity on the articulated element, and at least one end and the adjacent articulated cavity of first connecting portion are connected through first pivot.

More preferably, both ends of the first connecting portion are connected with the hinge cavities on the adjacent hinge parts through the first rotating shaft, so that damping rotation adjustment can be achieved at both ends of the first connecting portion, the middle support can be opened and fixed at any angle during adjustment, and when the middle support is adjusted to a certain angle, the first connecting shafts connected at both ends of the first connecting portion can lock the middle support through friction force on the rotating shaft, so that the middle support is suspended to any opened position of the middle support, and relative sliding between the middle support and the base is prevented.

More preferably, one end of the first connection part is connected with the hinge cavity on the adjacent hinge member through the first rotating shaft, and the other end of the first connection part is connected with the hinge cavity on the adjacent hinge member through the cylindrical rotating shaft. By this arrangement, the number of first shafts can be reduced, thereby reducing the overall cost of the apparatus.

Preferably, one end of the upper bracket connected with the middle bracket is provided with two oppositely arranged hinge parts, one end of the middle bracket connected with the upper bracket is provided with a second connecting part, the second connecting part is clamped between the two hinge parts, and at least one end of the second connecting part is connected with the adjacent hinge parts through a second rotating shaft.

Preferably, one end of the second connecting portion is connected with the adjacent hinge portion through a second rotating shaft, and the other end of the second connecting portion is connected with the adjacent hinge portion through a cylindrical rotating shaft.

By the arrangement, the number of the second rotating shafts can be reduced, so that the overall cost of the equipment is reduced.

More preferably, both ends of the second connecting portion are connected with adjacent hinging portions through the second rotating shaft, so that damping rotation adjustment can be achieved at both ends of the second connecting portion, the upper support can be opened and fixed at any angle during adjustment, and when the upper support is adjusted to a certain angle, the second connecting shafts connected with both ends of the connecting portion can lock the upper support through friction force on the rotating shaft, so that the upper support hovers to any opened position of the upper support, and relative sliding between the middle support and the upper support is prevented.

Preferably, the hinge further comprises an upper rotating shaft plug and a lower rotating shaft plug, wherein the upper rotating shaft plug is arranged at two sides of one end of the upper bracket connected with the middle bracket, and the lower rotating shaft plug is arranged at two sides of the hinge seat.

By the arrangement, the lower rotating shaft plugs can be used for sealing the hinge cavities on the hinge seats respectively, so that the first rotating shafts in the hinge cavities are protected, and external dust and water are prevented from entering the hinge cavities to corrode the first rotating shafts; the upper rotating shaft plugs are used for sealing the hinge parts on two sides of the upper support respectively, so that the second rotating shaft in the hinge parts is protected, and external dust and water are prevented from entering the hinge parts to corrode the second rotating shaft.

Preferably, the first rotating shaft and the second rotating shaft are damping rotating shafts, the fixed part of the first rotating shaft is arranged in the hinging seat, the rotating part of the first rotating shaft is arranged in one end of the middle bracket hinged with the hinging seat, the fixed part of the second rotating shaft is arranged in one end of the middle bracket connected with the upper bracket, and the rotating part of the second rotating shaft is arranged in one end of the upper bracket connected with the middle bracket.

Compared with the prior art, the utility model has the beneficial technical effects that:

according to the omnibearing rotary adjusting frame, the angle of the omnibearing rotary adjusting frame relative to the base is adjusted by rotating the middle support, and meanwhile, the angle between the camera and the middle support can be adjusted by rotating the upper support, so that the angle of the camera and the position of the camera in an installation environment can be adjusted in an omnibearing manner, the problem that the camera support cannot be adjusted in an omnibearing manner is solved, meanwhile, the contact area between the upper support and the camera can be increased by a bearing surface on the upper support, the bearing surface of the upper support can be attached to the bottom of the camera to the greatest extent, and the camera can be better supported.

The upper bracket and the middle bracket of the omnibearing rotary adjusting bracket are connected through the damping rotating shaft, and the middle bracket and the base are also connected through the damping rotating shaft, so that the upper bracket and the middle bracket can rotate to any angle, and the position locking can be realized under the angle, thereby completing the position adjustment of the camera under various occasions, and the whole adjusting mode is simple and stable.

Drawings

FIG. 1 is a block diagram of an omnidirectional rotating adjusting bracket of a camera;

FIG. 2 is a schematic diagram of the structure of the camera omnibearing rotary adjusting bracket and the camera after being installed;

FIG. 3 is an exploded view of the structure of the omni-directional rotating adjustment frame of the camera of the present utility model;

FIG. 4 is a partial block diagram of the omni-directional rotating adjustment frame of the camera of the present utility model;

FIG. 5 is a diagram of the middle bracket of the omni-directional rotating adjusting bracket of the camera;

FIG. 6 is a schematic view of the omni-directional rotating adjustment frame of the camera mounted on a tabletop;

FIG. 7 is a schematic view of the omni-directional rotating adjustment frame of the camera of the present utility model mounted on a ceiling;

fig. 8 is a schematic structural view of an upper bracket in the omni-directional rotation adjustment stand of the camera according to embodiment 2.

Wherein, the technical characteristics that each reference sign indicates are as follows:

1. a base; 11. a hinge base; 111. a hinge; 1111. a hinge cavity; 2. a middle bracket; 21. a first connection portion; 22. a second connecting portion; 221. a cavity; 3. an upper bracket; 31. a hinge part; 32. a bearing surface; 321. a support groove; 33. a first connection hole; 34. a clamping groove; 4. a camera; 5. a first rotating shaft; 6. a second rotating shaft; 61. a clamping plate; 7. a lower shaft plug; 8. a rotating shaft plug is arranged; 9. a cylindrical rotating shaft; 10. and a connecting piece.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, but the scope of the present utility model is not limited to the following specific examples.

Example 1

Referring to fig. 1-3, this embodiment discloses a camera omnidirectional rotation adjusting frame, the rotation adjusting frame includes: the device comprises a base 1, a bracket assembly and a rotating shaft assembly, wherein a hinge seat 11 is arranged on one surface of the base 1; the bracket assembly comprises a middle bracket 2 and an upper bracket 3, one end of the middle bracket 2 is connected with a hinging seat 11, and the other end of the middle bracket 2 is hinged with one end of the upper bracket 3; the pivot subassembly includes first pivot 5 and second pivot 6, and first pivot 5 wears to locate on the one end of well support 2 and the articulated seat 11 to make well support 2 and articulated seat 11 rotate and be connected, and second pivot 6 wears to locate on the other end of well support 2 and the one end of upper bracket 3, so that well support 2 and upper bracket 3 rotate and be connected.

Referring to fig. 1, the upper bracket 3 includes a bearing surface 32 extending from one end to the other end thereof, and the bearing surface 32 is used for bearing the camera 4, so that the camera 4 is fixed on the bearing surface 32. The first connecting hole 33 is formed in the bearing surface 32, the second connecting hole is formed in one side, facing the bearing surface 32, of the camera 4, and the connecting piece 10 is arranged in the first connecting hole 33 and the second connecting hole in a penetrating mode, so that the camera 4 is fixed on the bearing surface 32. So arranged, the upper bracket 3 can be firmly connected with the camera 4 through the bearing surface 32.

The connecting piece 10 is the screw, and first connecting hole 33 and second connecting hole are the screw hole, and connecting piece 10 can set up one or more, and corresponding first connecting hole 33 and second connecting hole can set up one or more, set up a plurality of connecting pieces 10 and can make camera 4 and the more firm of upper bracket 3 assembly.

In this embodiment, the supporting surface 32 is preferably an inward concave arc surface extending from one end to the other end of the upper bracket 3, and the arc surface is matched with the bottom shape of the camera 4. By the arrangement, the bearing surface 32 of the upper bracket 3 can be attached to the bottom of the camera 4 to the greatest extent, so that the camera 4 can be better supported.

The first rotating shaft 5 and the second rotating shaft 6 are damping rotating shafts, the first rotating shaft 5 and the second rotating shaft 6 respectively comprise a fixing portion and a rotating portion, the rotating portions can rotate relative to the fixing portions, the rotating portions are driven to rotate, so that friction force is generated by extrusion between gaskets arranged in the fixing portions, the rotating portions hover after rotating to any position, the rotating portions and the fixing portions cannot move under the condition that no external force exists, the fixing portions of the first rotating shaft 5 are arranged in the hinging seat 11, the rotating portions of the first rotating shaft 5 are arranged in one ends of the middle support 2 and the hinging seat 11, the fixing portions of the second rotating shaft 6 are arranged in one ends of the middle support 2 and the upper support 3, and the rotating portions of the second rotating shaft 6 are arranged in one ends of the upper support 3 and the middle support 2.

The bearing surface 32 of the upper bracket 3 is also provided with a clamping groove 34, and the clamping groove 34 is used for being clamped with a clamping strip at the bottom of the camera 4. The setting like this, at the in-process of camera 4 and upper bracket 3 installation, card strip and draw-in groove 34 can play the effect of locating assembly, and after camera 4 and upper bracket 3 fixed assembly, the card strip can also play the effect of preventing camera 4 from taking place the horizontal play. Therefore, the clamping strip and the clamping groove 34 can be matched with the connecting piece 10 to realize the positioning and the fixed assembly of the camera 4 and the upper bracket 3.

Referring to fig. 5, a first connection portion 21 is provided at one end of the middle bracket 2 connected with the hinge seat 11, the hinge seat 11 includes two hinge members 111 disposed at intervals, the first connection portion 21 is engaged between the two hinge members 111, a hinge cavity 1111 is provided on the hinge member 111, and at least one end of the first connection portion 21 is connected with an adjacent hinge cavity 1111 through the first rotation shaft 5. In this embodiment, preferably, both ends of the first connecting portion 21 are connected with the hinge cavities 1111 on the adjacent hinge pieces 111 through the first rotating shaft 5, so that the two ends of the first connecting portion 21 can be adjusted by damping rotation, so that the middle support 2 can be opened and fixed at any angle during adjustment, and when the middle support 2 is adjusted to a certain angle, the first connecting shafts connected to both ends of the first connecting portion 21 can lock the middle support 2 through friction force on the rotating shaft, so that the middle support 2 hovers to any opened position, and relative sliding between the middle support 2 and the base 1 is prevented. Specifically, the fixing portions of the first rotating shafts 5 are fixed in the hinge cavities 1111 of the hinge 111 to be kept stationary, the rotating portions of the two first rotating shafts 5 are respectively disposed in the cavities at both ends of the first connecting portion 21, and the rotating portions of the first rotating shafts 5 rotate together with the first connecting portion 21, so that the rotating portions of the first rotating shafts 5 rotate along with the middle bracket 2 around the fixing portions of the first rotating shafts 5.

Referring to fig. 1 and 4, one end of the upper bracket 3 connected with the middle bracket 2 is provided with two oppositely arranged hinge parts 31, the hinge parts 31 are provided with cavities, one end of the middle bracket 2 connected with the upper bracket 3 is provided with a second connecting part 22, the second connecting part 22 is clamped between the two hinge parts 31, two ends of the second connecting part 22 are provided with cavities 221 corresponding to the cavities of the hinge parts 31, and at least one end of the second connecting part 22 is connected with the adjacent hinge parts 31 through a second rotating shaft 6. In this embodiment, preferably, one end of the second connecting portion 22 is connected with the adjacent hinge portion 31 through the second rotating shaft 6, the fixed portion of the second rotating shaft 6 is disposed in the cavity 221 of the connecting portion, the rotating portion of the second rotating shaft 6 is disposed in the cavity of one of the hinge portions 31, the fixed portion of the second rotating shaft 6 is a linear fixed portion, the cavity 221 matched with the fixed portion of the second rotating shaft 6 is a linear cavity, the outer wall of the rotating portion of the second rotating shaft 6 is provided with a clamping plate 61 for being clamped in the cavity of the hinge portion 31, and the rotating portion of the second rotating shaft 6 can be ensured to be clamped in the hinge portion 31 through the clamping plate 61, so that the rotating portion of the second rotating shaft 6 rotates together with the upper bracket 3; the other end of the second connecting portion 22 is connected to an adjacent hinge portion 31 through a cylindrical rotation shaft 9. By this arrangement, the number of second shafts 6 can be reduced, thereby reducing the overall cost of the apparatus.

The omnibearing rotary adjusting frame of the camera 4 further comprises an upper rotary shaft plug 8 and a lower rotary shaft plug 7. The upper rotating shaft plugs 8 are arranged on two sides of one end, connected with the middle support 2, of the upper support 3, and specifically, the upper rotating shaft plugs 8 are arranged on the outermost side of the cavity of the hinge portion 31, the upper rotating shaft plugs 8 are used for sealing the cavity of the hinge portion 31 so that the second rotating shaft 6 and the cylindrical rotating shaft 9 are located in the sealed cavity, and therefore the second rotating shaft 6 in the hinge portion 31 can be protected, and external dust and water are prevented from entering the hinge portion 31 to corrode the second rotating shaft 6. The lower rotating shaft plugs 7 are arranged on two sides of the hinge seat 11 on the base 1, specifically, the lower rotating shaft plugs 7 are arranged on the outermost sides of the hinge cavity 1111 of the hinge seat 11, the lower rotating shaft plugs 7 are used for sealing the hinge cavity 1111, and the lower rotating shaft plugs 7 can seal the hinge cavity 1111 on the hinge seat 11 respectively, so that the first rotating shaft 5 in the hinge cavity 1111 is protected, and external dust and water are prevented from entering the hinge cavity 1111 to corrode the first rotating shaft 5.

Referring to fig. 6 and 7, the omni-directional rotating adjusting bracket of the present embodiment adjusts the angle of the center bracket 2 with respect to the base 1 by rotating the center bracket 2, and simultaneously adjusts the angle between the camera 4 and the center bracket 2 through the upper bracket 3, so that the rotating adjusting bracket can adjust the rotating angles of the center bracket 2 and the upper bracket 3 according to the installation position of the base 1, thereby omni-directionally adjusting the angle of the camera 4 and the position of the camera 4 in the installation environment.

Example two

Based on the first embodiment, this embodiment is different from the first embodiment in that:

referring to fig. 8, in this embodiment, the supporting surface 32 is provided with a supporting groove 321, and the first connecting hole 33 is disposed in the middle of the supporting groove 321. The supporting groove 321 can enable the camera 4 to be installed in the supporting groove 321 so as to prevent the camera 4 from shaking in the using process. One face of the camera 4, which faces the upper bracket 3, is provided with a boss part matched with the bearing groove 321, so that the boss part on the camera 4 can be integrally clamped in the bearing groove 321, and positioning of the camera 4 before installation is facilitated. In this embodiment, the support groove 321 is preferably a rectangular groove, so that the camera 4 is defined in the support groove 321 in a plurality of directions.

Example III

Based on the first embodiment, this embodiment is different from the first embodiment in that:

in this embodiment, one end of the first connection part 21 is connected to the hinge chamber 1111 of the adjacent hinge 111 through the first rotation shaft 5, and the other end of the first connection part 21 is connected to the hinge chamber 1111 of the adjacent hinge 111 through the cylindrical rotation shaft 9. By this arrangement, the number of first shafts 5 can be reduced, thereby reducing the overall cost of the apparatus.

Example IV

Based on the first embodiment, this embodiment is different from the first embodiment in that:

in this embodiment, both ends of the second connecting portion 22 are all connected with the adjacent hinge portion 31 through the second rotating shaft 6, so that the two ends of the second connecting portion 22 can both realize damping rotation adjustment, so that the upper bracket 3 can be opened and fixed at any angle during adjustment, and when the upper bracket 3 is adjusted to a certain angle, the second connecting shafts connected with both ends of the connecting portion can both lock the upper bracket 3 through friction force on the rotating shaft, so that the upper bracket 3 hovers to any opened position of the upper bracket 3, and relative sliding between the middle bracket 2 and the upper bracket 3 is prevented.

Variations and modifications to the above would be obvious to persons skilled in the art to which the utility model pertains from the foregoing description and teachings. Therefore, the utility model is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the utility model should be also included in the scope of the claims of the utility model. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not constitute any limitation on the utility model.

Claims (10)

1. The utility model provides a camera all-round rotation regulation frame, its characterized in that, rotation regulation frame includes:

the device comprises a base (1), wherein a hinging seat (11) is arranged on one surface of the base (1);

the bracket assembly comprises a middle bracket (2) and an upper bracket (3), one end of the middle bracket (2) is connected with the hinging seat (11), and the other end of the middle bracket (2) is hinged with one end of the upper bracket (3);

the rotating shaft assembly comprises a first rotating shaft (5) and a second rotating shaft (6), the first rotating shaft (5) is arranged on one end of the middle support (2) in a penetrating mode and the hinging seat (11) in a penetrating mode, so that the middle support (2) is connected with the hinging seat (11) in a rotating mode, and the second rotating shaft (6) is arranged on the other end of the middle support (2) and one end of the upper support (3) in a penetrating mode, so that the middle support (2) is connected with the upper support (3) in a rotating mode;

the upper bracket (3) comprises a bearing surface (32) extending from one end to the other end, and the bearing surface (32) is used for bearing the camera (4) so that the camera (4) is fixed on the bearing surface (32).

2. The omnibearing rotary adjusting bracket for the camera according to claim 1, wherein a first connecting hole (33) is formed in the bearing surface (32), a second connecting hole is formed in one side of the camera (4) facing the bearing surface (32), and the camera (4) is fixed on the bearing surface (32) by penetrating through the first connecting hole (33) and the second connecting hole through a connecting piece (10).

3. The omnibearing rotary adjusting bracket for the camera according to claim 1, wherein a clamping groove (34) is further formed in a bearing surface (32) of the upper bracket (3), and the clamping groove (34) is used for being clamped with a clamping strip at the bottom of the camera (4).

4. The omnibearing rotary adjusting bracket for the camera according to claim 1, wherein the bearing surface (32) is an inward concave arc surface extending from one end of the upper bracket (3) to the other end, and the arc surface is matched with the bottom shape of the camera (4).

5. The omnibearing rotary adjusting bracket for camera according to claim 2, wherein a bearing groove (321) is arranged on the bearing surface (32), and the first connecting hole (33) is arranged in the middle of the bearing groove (321).

6. The omnibearing rotary adjusting bracket for cameras according to any one of claims 1-5, wherein a first connecting part (21) is arranged at one end of the middle bracket (2) connected with the hinge seat (11), the hinge seat (11) comprises two hinge pieces (111) arranged at intervals, the first connecting part (21) is clamped between the two hinge pieces (111), a hinge cavity (1111) is arranged on the hinge pieces (111), and at least one end of the first connecting part (21) is connected with the adjacent hinge cavity (1111) through the first rotating shaft (5).

7. The omnibearing rotary adjusting bracket for camera according to any one of claims 1-5, wherein one end of the upper bracket (3) connected with the middle bracket (2) is provided with two oppositely arranged hinge parts (31), one end of the middle bracket (2) connected with the upper bracket (3) is provided with a second connecting part (22), the second connecting part (22) is clamped between the two hinge parts (31), and at least one end of the second connecting part (22) is connected with the adjacent hinge parts (31) through the second rotating shaft (6).

8. The omnibearing rotary adjusting bracket for camera according to claim 7, wherein one end of the second connecting part (22) is connected with an adjacent hinging part (31) through a second rotating shaft (6), and the other end of the second connecting part (22) is connected with the adjacent hinging part (31) through a cylindrical rotating shaft (9).

9. The omnibearing rotary adjusting bracket for the camera according to claim 1, further comprising an upper rotary shaft plug (8) and a lower rotary shaft plug (7), wherein the upper rotary shaft plug (8) is arranged at two sides of one end of the upper bracket (3) connected with the middle bracket (2), and the lower rotary shaft plug (7) is arranged at two sides of the hinging seat (11).

10. The omnibearing rotary adjusting bracket for the camera according to claim 1, wherein the first rotary shaft (5) and the second rotary shaft (6) are damping rotary shafts, a fixed part of the first rotary shaft (5) is arranged in the hinging seat (11), a rotary part of the first rotary shaft (5) is arranged in one end of the middle bracket (2) hinged with the hinging seat (11), a fixed part of the second rotary shaft (6) is arranged in one end of the middle bracket (2) connected with the upper bracket (3), and a rotary part of the second rotary shaft (6) is arranged in one end of the upper bracket (3) connected with the middle bracket (2).

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