CN215154362U - Fixing support - Google Patents

Abstract

The utility model provides a fixed bolster is used for assembling a camera device. The fixing bracket comprises a shell component, a spherical shaft body, a rotating shaft body and a pressing component. The shell assembly comprises a first shell and a second shell. The first housing and the second housing are assembled correspondingly to form a spherical bearing and a rotary bearing. The spherical shaft body is arranged on a spherical bearing of the shell component. The spherical shaft body is suitable for being connected with a camera device. The rotary shaft body is arranged on a rotary bearing of the shell component. The pressing assembly comprises a first pressing piece and a second pressing piece assembled to the first pressing piece. The pressing assembly forces the first housing to move towards the second housing to limit rotation of the spherical shaft and the rotating shaft relative to the housing assembly. Therefore, the fixed bracket has better rotation flexibility.

Description

Fixing support

Technical Field

The present invention relates to a fixing bracket, and more particularly to a fixing bracket for assembling a camera device.

Background

Vehicle cameras are commonly used to assist driving and to monitor activities in a particular area. This type of camera device generally has a fixed bracket to be mounted at a specific position (e.g., a vehicle body). In addition, the camera device can adjust the direction of the camera device relative to the fixed bracket of the camera device so as to adjust the camera shooting range.

SUMMERY OF THE UTILITY MODEL

The utility model provides a fixed bolster for assemble camera device, and have the rotational flexibility ratio of preferred.

The utility model discloses a fixed bolster is used for assembling a camera device. The fixing bracket comprises a shell component, a spherical shaft body, a rotating shaft body and a pressing component. The shell assembly comprises a first shell and a second shell. The first housing and the second housing are assembled correspondingly to form a spherical bearing and a rotary bearing. The spherical shaft body is arranged on a spherical bearing of the shell component. The spherical shaft body is suitable for being connected with a camera device. The rotary shaft body is arranged on a rotary bearing of the shell component. The pressing assembly comprises a first pressing piece and a second pressing piece assembled to the first pressing piece. The pressing assembly forces the first housing to move towards the second housing to limit rotation of the spherical shaft and the rotating shaft relative to the housing assembly.

In one possible implementation, the housing assembly has a spherical opening connected to the spherical bearing, the spherical shaft is partially exposed outside the housing assembly through the spherical opening, and the spherical opening and the spherical bearing define a moving range of the spherical shaft.

In one possible implementation, the rotational shaft has a bearing serration, the rotational shaft has a shaft serration, and the bearing serration engages the shaft serration to restrict rotation of the rotational shaft relative to the rotational bearing along a first axis.

In one possible implementation manner, the spherical shaft includes a rod and a spherical body, the rotating shaft rotates relative to the housing assembly along a first axis, and the rod is connected to the spherical body along the first axis.

In one possible implementation, the rod and the spherical body are integrally formed.

In one possible implementation, the fixing bracket further includes: the camera device fixing frame is provided with a main body part and a pair of bearing parts extending from the main body part, wherein each bearing part is provided with an opening, and the opening of each bearing part is suitable for the corresponding bulge of the camera device to pass through so that the camera device can rotate relative to the camera device fixing frame.

In a possible implementation manner, each of the bearing portions further includes a locking member and an arc-shaped groove corresponding to the locking member, the locking member is adapted to pass through the arc-shaped groove and be locked to the sidewall of the image pickup device, and when the image pickup device rotates relative to the image pickup device fixing frame, the locking member of each of the bearing portions moves along the arc-shaped groove of the corresponding bearing portion.

In one possible implementation, the fixing bracket further includes: a fixing component, including a knob fixed part, a buffer part and a knob, wherein the main body part is located between the knob fixed part and the knob, the buffer part is located between the main body part and the knob, the spherical shaft body has a screw thread part, the knob fixed part and the knob are matched with the screw thread part, the knob fixed part moves towards the camera device fixed mount along the screw thread part, and the knob moves relative to the spherical bearing along the screw thread part, so that the spherical shaft body is fixed on the camera device fixed mount.

In a possible implementation manner, the spherical shaft further includes a fixing member, the spherical body has a through hole, and the rod passes through the through hole and is fixed to the spherical body through the fixing member.

In a possible implementation manner, the rod has a sliding block portion, and the sliding block portion is matched with a sliding groove of the image pickup device, so that the spherical shaft body slides relative to the image pickup device.

In one possible implementation, the fixing bracket further includes: the abutting assembly comprises a buffer piece, a gasket and a knob, wherein the buffer piece is suitable for being positioned between the chute and the gasket of the camera device, the gasket is positioned between the buffer piece and the knob, the rod piece is provided with a threaded part, the knob is matched with the threaded part, and the knob moves relative to the spherical body along the threaded part so as to force the buffer piece and the gasket to abut against the camera device.

In one possible implementation, the fixing bracket further includes: the base is locked on the rotating shaft body, wherein the base rotates relative to the shell component along a first axis.

In one possible implementation, the fixing bracket further includes: at least one magnetic member is disposed on the base relative to the rotating shaft.

In one possible implementation, the fixing bracket further includes: and the at least one adhesive piece is arranged on the base relative to the rotating shaft body, wherein the at least one magnetic piece is positioned between the base and the at least one adhesive piece.

In one possible implementation, the first pressing member is a bolt and the second pressing member is a nut with a twist grip.

Based on the foregoing, the utility model discloses an in the fixed bolster, spherical axis body and rotatory axis body set up in casing subassembly, and spherical axis body and rotatory axis body can rotate for casing subassembly respectively. Furthermore, the pressing assembly can limit the rotation of the spherical shaft body and the rotating shaft body relative to the shell assembly. Therefore, when camera device and rotatory axis body are connected to spherical axis body and the base is connected, the fixed bolster can provide the flexibility ratio in the rotatory position of adjustment of camera device preferred, and the fixed bolster accessible is pressed the subassembly tightly and is fixed a position spherical axis body and rotatory axis body in required position simultaneously to simple to operate's advantage has.

In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1A is a front perspective view of a fixing bracket and a camera device according to an embodiment of the present invention.

Fig. 1B is a rear perspective view of the stationary bracket and camera device of fig. 1A.

Fig. 2A is an exploded view of the stationary bracket and the image capture device of fig. 1A.

Fig. 2B is an exploded view of the mounting bracket and camera device of fig. 1B.

Fig. 3 is a central sectional view of the fixing bracket and the image pickup device of fig. 1A.

Fig. 4A is a side view of the fixed bracket and the image pickup apparatus of fig. 1A.

FIG. 4B is a side view of the spherical shaft body of the stationary bracket of FIG. 4A rotated relative to the housing assembly.

Fig. 4C is a side view of the camera device of fig. 4A rotated relative to the stationary bracket and the spherical shaft body in the stationary bracket rotated relative to the housing assembly.

Fig. 4D is a side view of the spherical shaft body and the rotational shaft body of the fixing bracket of fig. 4A, respectively, rotated with respect to the housing assembly.

Fig. 4E is a side view of the spherical shaft body of the mount bracket of fig. 4A moving relative to the camera mount.

Fig. 5A is a front perspective view of a fixing bracket and a camera device according to another embodiment of the present invention.

Fig. 5B is a rear perspective view of the stationary bracket and camera device of fig. 5A.

Fig. 6A is an exploded view of the mounting bracket and camera device of fig. 5A.

Fig. 6B is an exploded view of the mounting bracket and camera device of fig. 5B.

Fig. 7 is a central sectional view of the fixing bracket and the image pickup device of fig. 5B.

Fig. 8A is a side view of the fixing bracket and the image pickup device of fig. 5B.

Fig. 8B to 8D are side views of the spherical shaft body of the fixing bracket of fig. 8A rotated with respect to the housing assembly.

Wherein the symbols in the drawings are briefly described as follows:

50. 50A: a camera device; 51: a protrusion; 52: a chute; 100: fixing a bracket; 110: a housing assembly; 110 a: a spherical bearing; 110 b: a spherical opening; 110 c: a rotating bearing; 110 e: a stop surface; 112: a first housing; 114: a second housing; 120. 120A: a spherical shaft body; 122. 122A: a rod member; 122 b: a threaded portion; 122 c: a slider portion; 124. 124A: a spherical body; 124 b: a through hole; 126: a fixing member; 130: a rotating shaft body; 132: a shaft body insection; 140: a pressing assembly; 142: a first urging member; 144: a second urging member; 150: a camera device mount; 152: a main body portion; 154: a bearing part; 155: opening a hole; 156: a locking member; 157: an arc-shaped groove; 158: a mount projection; 159: a fixed frame groove; 160: a fixing assembly; 162: a knob fixing member; 164: a buffer member; 166: a knob; 170. 170A: a base; 172: a base extension rod; 174: a base body; 180: a magnetic member; 185: an adhesive member; 190: a butting component; 192: a buffer member; 194: a gasket; 196: a knob; a1: a first axis; a2: a second axis; a3: a third axis; a4: a fourth axis.

Detailed Description

Referring to fig. 1A and 1B, the fixing bracket 100 of the present embodiment is used to assemble an image capturing device 50, and the image capturing device 50 can rotate (fig. 4A to 4D) and move (fig. 4A and 4E) relative to the fixing bracket 100 to adjust an image capturing range. The fixing bracket 100 includes a housing assembly 110, a ball shaft 120, a rotating shaft 130 and a pressing assembly 140.

Referring to fig. 1A to fig. 3, in the present embodiment, the housing assembly 110 includes a first housing 112 and a second housing 114. The first housing 112 and the second housing 114 are assembled to form a spherical bearing 110a and a rotary bearing 110 c. The spherical shaft 120 is disposed on the spherical bearing 110a of the housing assembly 110 and is adapted to be connected to the camera device 50. The rotation shaft 130 is disposed on the rotation bearing 110c of the housing assembly 110. The pressing assembly 140 includes a first pressing member 142 and a second pressing member 144 assembled to the first pressing member 142.

In detail, in the present embodiment, the first housing 112 and the second housing 114 of the housing assembly 110 respectively have a stop surface 110 e. The first pressing member 142 and the second pressing member 144 contact the stop surfaces 110e of the first casing 112 and the second casing 114, respectively, to force the first casing 112 to move toward the second casing 114, so as to limit the rotation of the spherical shaft 120 and the rotating shaft 130 relative to the casing assembly 110. Here, the first pressing member 142 is, for example, a bolt, and the second pressing member 144 is, for example, a nut with a twist handle, but not limited thereto.

It is worth mentioning that since the spherical shaft 120 provides three rotational degrees of freedom, the angle of the image pickup device 50 can be adjusted with respect to the housing assembly 110. For example, the ball shaft 120 may rotate relative to the housing assembly 110 along a first axis a1 from the state of fig. 4A to the state of fig. 4B, or the ball shaft 120 may rotate relative to the housing assembly 110 along a second axis a2 from the state of fig. 4A to the state of fig. 4C, or the ball shaft 120 may rotate relative to the housing assembly 110 along a third axis A3 from the state of fig. 4A to the state of fig. 4D. In addition, the rotating shaft 130 can rotate along the first axis a1 relative to the housing assembly 110, as shown in fig. 4A and 4D.

Therefore, when the spherical shaft 120 is connected to the camera device 50 and the rotating shaft 130 is connected to the base 170, the fixing bracket 100 of the embodiment can provide flexibility for adjusting the rotational orientation of the camera device 50, and can mount the camera device 50 at a specific position (e.g., a windshield, an instrument panel or a connecting pillar of a vehicle body).

Referring to fig. 2A and 2B, in the present embodiment, the rotation bearing 110c of the housing assembly 110 has a bearing insection (not shown), and the rotation shaft 130 has a shaft insection 132. The bearing insections engage the axle insections 132 to limit rotation of the rotational axle 130 relative to the rotational bearing 110c along the first axis a1 as the urging assembly 140 urges the first housing 112 toward the second housing 114. That is, the fixing bracket 100 of the present embodiment not only restricts the rotation of the spherical shaft 120 and the rotational shaft 130 relative to the housing assembly 110 by the pressing assembly 140, but also enhances the positioning of the rotational shaft 130 relative to the housing assembly 110 by the engagement of the bearing insections of the rotational bearing 110c with the shaft insections 132 of the rotational shaft 130.

Referring to fig. 1A to 3, in the present embodiment, the housing assembly 110 has a spherical opening 110 b. The spherical opening 110b is connected to the spherical bearing 110 a. The spherical shaft 120 is partially exposed out of the housing assembly 110 by the spherical opening 110b, and the spherical opening 110b and the spherical bearing 110a define the moving range of the spherical shaft 120. Therefore, the rotation of the spherical shaft 120 relative to the housing assembly 110 is limited by the range of motion defined by the spherical opening 110b and the spherical bearing 110 a.

In the present embodiment, the fixing bracket 100 further includes a camera device fixing frame 150 and a fixing assembly 160. The camera mount 150 is adapted to be coupled to the ball axle 120 via a mounting assembly 160. The ball axle 120 includes a rod 122 and a ball 124, and the rod 122 is connected to the ball 124 along a first axis a 1. The rod 122 and the spherical body 124 are integrally formed, and the rod 122 has a threaded portion 122 b. The fixing assembly 160 is adapted to move toward the camera holder 150 along the threaded portion 122b, so that the spherical shaft 120 is fixed to the camera holder 150.

In detail, in the present embodiment, the fixing assembly 160 includes a knob fixing member 162, a buffer 164 and a knob 166. The camera device holder 150 has a main body 152. The body portion 152 is located between the knob fixing member 162 and the knob 166, and the buffer member 164 is located between the body portion 152 and the knob 166. The knob holder 162 and the knob 166 are engaged with the screw portion 122 b. The knob fastener 162 moves along the threaded portion 122b toward the camera holder 150, and the knob 166 moves along the threaded portion 122b relative to the spherical bearing 110a, so that the spherical shaft 120 is fixed to the camera holder 150.

More specifically, in the present embodiment, the main body portion 152 has a fixing frame protrusion 158, and the fixing frame protrusion 158 has a fixing frame groove 159. The mount boss 158 extends along the first axis a1 toward the ball body 124 and has a mount recess 159 on a side opposite the ball body 124. The knob fastener 162 is disposed in the holder groove 159 and adapted to move along the threaded portion 122b toward the spherical body 124 to cooperate with the knob 166, so that the spherical shaft 120 is fixed to the camera holder 150.

As shown in fig. 4A and 4E, when the camera device 50 is about to move relative to the ball axle 120, the fixing element 160 moves relative to the camera device holder 150 along the threaded portion 122b, so that a user can adjust the relative position between the ball axle 120 and the camera device holder 150 to make the camera device holder 150 approach or separate from the ball axle 120 along the first axis a 1. When the adjustment is performed to a desired state, the fixing element 160 moves toward the camera device fixing frame 150 along the threaded portion 122b, so that the spherical shaft 120 is fixed to the camera device fixing frame 150 again. Therefore, the camera holder 150 can move along the first axis a1 relative to the spherical shaft 120, thereby adjusting the imaging range of the camera 50.

Referring to fig. 1A to 4A and 4C, in the present embodiment, the camera device fixing frame 150 has a pair of carrying portions 154 extending from the main body portion 152. Each of the supporting portions 154 has an opening 155. The opening 155 of each bearing portion 154 is adapted to allow a corresponding protrusion 51 of the camera device 50 to pass through, so that the camera device 50 can rotate along a fourth axis a4 relative to the camera device holder 150, as shown in fig. 4A and 4C.

In detail, in the present embodiment, each of the supporting portions 154 further includes a locking member 156 and an arc-shaped recess 157 corresponding to the locking member 156. The locking member 156 is adapted to pass through the arc-shaped recess 157 and is locked to the sidewall of the image capturing device 50. When the image capturing device 50 rotates along the fourth axis a4 relative to the image capturing device holder 150 (from the state of fig. 4A to the state of fig. 4C), the locking member 156 of each bearing portion 154 moves along the arc-shaped groove 157 of the corresponding bearing portion 154, so that the image capturing device 50 can swing upward or downward relative to the image capturing device holder 150. Therefore, the camera device 50 of the present embodiment can adjust the swing angle of the camera device 50 relative to the camera device holder 150 by the arrangement of the locking member 156 and the arc-shaped groove 157 of each bearing portion 154, so as to adjust the camera angle of the camera device 50.

Referring to fig. 1A to fig. 2B, in the present embodiment, the fixing bracket 100 further includes a base 170. The base 170 includes a base extension 172 and a base body 174. The base extension rod 172 is connected to the base body 174, and the base extension rod 172 is locked to the rotating shaft 130. Here, the base extension rod 172 is, for example, an L-shaped rod, but not limited thereto.

As shown in fig. 4A and 4D, when the rotating shaft 130 rotates along the first axis a1 relative to the housing assembly 110, the base 170 locked to the rotating shaft 130 can rotate along the first axis a1 relative to the housing assembly 110. Accordingly, the base 170 may be rotated relative to the housing assembly 110 to adjust the imaging range of the imaging device 50.

In addition, in the embodiment, the fixing bracket 100 further includes a magnetic member 180 and an adhesive member 185, and the base 170 has a plurality of locking holes (not shown). The magnetic element 180 and the adhesive element 185 are disposed on the base 170 relative to the rotation shaft 130, and the magnetic element 180 is disposed between the base 170 and the adhesive element 185. Therefore, the base 170 can be mounted at a specific position by locking, magnetic attraction or adhesion through the locking holes (not shown) of the base 170, the magnetic member 180 or the adhesive member 185, so that the fixing bracket 100 has various mounting manners.

It should be noted that the following embodiments follow the reference numerals and parts of the contents of the foregoing embodiments, wherein the same reference numerals are used to indicate the same or similar elements, and the description of the same technical contents is omitted. For the description of the omitted parts, reference may be made to the foregoing embodiments, and the following embodiments will not be repeated.

Referring to fig. 2A and fig. 6A, the fixing bracket 100A of the present embodiment is similar to the fixing bracket 100 of fig. 2A, and the difference therebetween is: the fixing bracket 100A does not have the camera device fixing frame 150 and the fixing component 160, and a pushing component 190 is used to push a spherical shaft 120A with a slider portion 122c against a chute 52 of a camera device 50A, so that the spherical shaft 120A is connected with the camera device 50A. The base 170A of fig. 6A has a different structure from the base 170 of fig. 2A, and the number of the magnetic members 180 and the adhesive members 185 of fig. 6A is different from the number of the magnetic members 180 and the adhesive members 185 of fig. 2A.

Referring to fig. 5A to 7, in the present embodiment, the spherical shaft 120A of the fixing bracket 100A includes a rod 122A, a spherical body 124A and a fixing member 126. The spherical body 124A has a through hole 124 b. Rod 122A passes through bore 124b and is secured to spherical body 124A by fasteners 126.

In detail, in the present embodiment, the rod 122A has a threaded portion 122b and a sliding portion 122 c. The imaging device 50A has a chute 52. The threaded portion 122b is located between the slider portion 122c and the spherical body 124A, and the slider portion 122c is adapted to cooperate with the sliding slot 52 of the image capturing device 50A to slide the spherical shaft 120A relative to the image capturing device 50A.

It is worth mentioning that since the spherical shaft body 120A provides three rotational degrees of freedom, the angle of the image pickup device 50A can be adjusted with respect to the housing assembly 110. For example, the ball shaft 120 may rotate relative to the housing assembly 110 along a first axis a1 from the state of fig. 8A to the state of fig. 8B, or the ball shaft 120 may rotate relative to the housing assembly 110 along a second axis a2 from the state of fig. 8A to the state of fig. 8C, or the ball shaft 120 may rotate relative to the housing assembly 110 along a third axis A3 from the state of fig. 8A to the state of fig. 8D. In addition, the rotating shaft 130 can rotate along the first axis a1 relative to the housing assembly 110, as shown in fig. 8A and 8D.

In this embodiment, the fixing bracket 100A further includes an abutting component 190. The propping assembly 190 includes a buffer 192, a washer 194 and a knob 196. The buffer 192 is adapted to be located between the sliding slot 52 of the camera device 50A and the washer 194, and the washer 194 is located between the buffer 192 and the knob 196. The knob 196 is engaged with the threaded portion 122b, and the knob 196 moves along the threaded portion 122b relative to the spherical body 124A to force the buffer 192 and the washer 194 against the camera device 50A.

In addition, in the embodiment, a base 170A of the fixing bracket 100A is directly locked to the rotating shaft 130, the base 170A has a plurality of locking holes (not shown), and the fixing bracket 100A includes two magnetic members 180 and two adhesive members 185. The magnetic member 180 is located between the base 170A and the corresponding adhesive member 185.

That is, when the spherical shaft 120A is connected to the camera device 50A and the rotating shaft 130 is connected to the base 170A, the fixing bracket 100A of the present embodiment can provide flexibility for adjusting the rotation direction of the camera device 50A, and the camera device 50A can be mounted at a specific position by locking, magnetic attraction, or adhesion through the locking holes (not shown) of the base 170A, the magnetic members 180, or the adhesion members 185.

To sum up, in the utility model discloses an in the fixed bolster, spherical axis body and rotatory axis body set up in casing subassembly, and spherical axis body and rotatory axis body can rotate for casing subassembly respectively. Furthermore, the pressing assembly can limit the rotation of the spherical shaft body and the rotating shaft body relative to the shell assembly. Therefore, when camera device and rotatory axis body are connected to spherical axis body and the base is connected, the fixed bolster can provide the flexibility ratio in the rotatory position of adjustment of camera device preferred, and the accessible is pressed the subassembly tightly simultaneously and is positioned the spherical axis body and the rotatory axis body of fixed bolster in required position to simple to operate's advantage has.

The above description is only for the preferred embodiment of the present invention, but it is not intended to limit the scope of the present invention, and any person skilled in the art can make further modifications and variations without departing from the spirit and scope of the present invention, therefore, the scope of the present invention should be determined by the claims of the present application.

Claims (15)

1. A fixing bracket for assembling an image pickup apparatus, comprising:

the shell assembly comprises a first shell and a second shell, wherein the first shell and the second shell are correspondingly assembled to form a spherical bearing and a rotary bearing;

the spherical shaft body is arranged on the spherical bearing of the shell component and is suitable for being connected with the camera device;

a rotation shaft body provided to the rotation bearing of the housing assembly; and

and the pressing assembly comprises a first pressing piece and a second pressing piece assembled to the first pressing piece, wherein the pressing assembly forces the first shell to move towards the second shell so as to limit the rotation of the spherical shaft body and the rotating shaft body relative to the shell assembly.

2. The fixing bracket as claimed in claim 1, wherein the housing assembly has a spherical opening connected to the spherical bearing, the spherical shaft is partially exposed out of the housing assembly through the spherical opening, and the spherical opening and the spherical bearing define a range of motion of the spherical shaft.

3. The stationary bracket of claim 1, wherein the rotational bearing has bearing splines, the rotational shaft has shaft splines, and the bearing splines engage the shaft splines to limit rotation of the rotational shaft relative to the rotational bearing along a first axis.

4. The fixed bracket of claim 1, wherein the spherical shaft comprises a rod and a spherical body, the rotating shaft rotates relative to the housing assembly along a first axis, and the rod is connected to the spherical body along the first axis.

5. The fixing bracket as claimed in claim 4, wherein the rod and the spherical body are integrally formed.

6. The fixing bracket of claim 1, further comprising:

the camera device fixing frame is provided with a main body part and a pair of bearing parts extending from the main body part, wherein each bearing part is provided with an opening, and the opening of each bearing part is suitable for the corresponding bulge of the camera device to pass through so that the camera device can rotate relative to the camera device fixing frame.

7. The fixing bracket as claimed in claim 6, wherein each of the supporting portions further comprises a locking member and an arc-shaped groove corresponding to the locking member, the locking member is adapted to pass through the arc-shaped groove and be locked to a sidewall of the camera device, and when the camera device rotates relative to the camera device fixing frame, the locking member of each of the supporting portions moves along the arc-shaped groove of the corresponding supporting portion.

8. The securing bracket of claim 6, further comprising:

the fixing assembly comprises a knob fixing piece, a buffering piece and a knob, wherein the main body part is located between the knob fixing piece and the knob, the buffering piece is located between the main body part and the knob, the spherical shaft body is provided with a threaded part, the knob fixing piece and the knob are matched with the threaded part, the knob fixing piece moves towards the camera device fixing frame along the threaded part, and the knob moves relative to the spherical bearing along the threaded part so that the spherical shaft body is fixed on the camera device fixing frame.

9. The fixing bracket as claimed in claim 4, wherein the ball shaft further comprises a fixing member, the ball body has a through hole, and the rod member passes through the through hole and is fixed to the ball body by the fixing member.

10. The fixing bracket of claim 4, wherein the rod member has a sliding block portion, and the sliding block portion is engaged with a sliding groove of the image pickup device to slide the spherical shaft body relative to the image pickup device.

11. The fixing bracket of claim 4, further comprising:

the abutting assembly comprises a buffer piece, a gasket and a knob, wherein the buffer piece is suitable for being positioned between the sliding groove of the camera device and the gasket, the gasket is positioned between the buffer piece and the knob, the rod piece is provided with a threaded part, the knob is matched with the threaded part, and the knob moves relative to the spherical body along the threaded part so as to force the buffer piece and the gasket to abut against the camera device.

12. The fixing bracket of claim 1, further comprising:

the base is locked on the rotating shaft body, wherein the base rotates relative to the shell component along a first axis.

13. The securing bracket as claimed in claim 12, further comprising:

at least one magnetic member is disposed on the base relative to the rotating shaft.

14. The securing bracket of claim 13, further comprising:

and the at least one adhesive piece is arranged on the base relative to the rotating shaft body, wherein the at least one magnetic piece is positioned between the base and the at least one adhesive piece.

15. The fixing bracket of claim 1, wherein the first urging member is a bolt and the second urging member is a nut with a twist grip.

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