CN114827398B - Wire hiding box for supporting seat mounting and hoisting and camera system with wire hiding box - Google Patents

Abstract

The application provides a wire hiding box and a camera system with the same. The line hiding box comprises a first cover body and a second cover body, wherein a line hiding space is formed by surrounding the first cover body, and the line hiding space is provided with an opening; the second cover body is provided with a wire passing hole communicated with the wire hiding space, the second cover body is rotatably and detachably arranged on the first cover body through a rotating shaft mechanism, and the second cover body rotates along the rotating shaft mechanism so as to cover the opening or open the opening. The wire hiding box is simple in structure, convenient to assemble and disassemble and high in usability.

Description

Wire hiding box for supporting seat mounting and hoisting and camera system with wire hiding box

Technical Field

The application relates to the technical field of image pick-up devices, in particular to a wire hiding box and a camera system with the wire hiding box.

Background

The wire hiding box of the video camera is mainly used for storing wires and the like in the wire hiding box, so that the wires of the video camera can be prevented from being damaged by an external environment, and the attractiveness and the safety of the video camera in the use process can be improved.

However, the structure of the existing line hiding box of the camera is complex, and when the line hiding box is used, a professional is required to go to the site to install the line hiding box, so that the line hiding box is poor in usability.

Disclosure of Invention

The application mainly aims to provide a wire hiding box and a camera system with the wire hiding box, so as to solve the problem of poor usability of the wire hiding box of a camera in the prior art.

In order to achieve the above object, the present application provides a wire hiding box comprising:

the first cover body is surrounded to form a line hiding space, and the line hiding space is provided with an opening; and

The second cover body is provided with a wire passing hole used for being communicated with the wire hiding space, and is rotatably and detachably installed on the first cover body through a rotating shaft mechanism and rotates along the rotating shaft mechanism so as to cover or open the opening.

Further, the rotation shaft mechanism includes:

the rotating shaft frame is provided with a rotating shaft, the rotating shaft frame is fixedly arranged on the second cover body, and the rotating shaft extends along the width direction of the wire hiding box; and

The connecting parts are respectively arranged at two ends of the rotating shaft, and are rotatably and detachably connected with the first cover body.

Further, the first cover body is provided with a mounting groove, two opposite side walls of the mounting groove are respectively provided with a connecting hole, and the connecting part is rotatably and detachably mounted in the connecting holes.

Further, a guide inclined surface is provided on the first cover body, and the connection portion slides to the mounting groove along the guide inclined surface to be mounted in the connection hole.

Further, the side wall of the installation groove provided with the connecting hole is connected with the guide inclined plane;

The opposite sides of the mounting groove are respectively provided with the guide inclined planes, and the distance between the two guide inclined planes gradually increases along the direction close to the second cover body.

Further, the included angle between the guide inclined plane and the rotating shaft is 50-70 degrees.

Further, the connecting part is slidably arranged along the axial direction of the rotating shaft, the connecting part is provided with a first position which slides along the direction away from the rotating shaft so as to be inserted into the connecting hole, and the connecting part is also provided with a second position which slides along the direction close to the rotating shaft so as to be separated from the connecting hole;

The rotating shaft mechanism further comprises a driving assembly, and the driving assembly is used for applying external force to the connecting portion to drive the connecting portion to switch between the first position and the second position.

Further, the periphery side of pivot is provided with the butt portion, the periphery side of connecting portion is provided with the backstop portion, drive assembly includes:

the two sliding blocks are respectively arranged at two opposite ends of the rotating shaft frame, the sliding blocks can slide along the axial direction of the rotating shaft, and one side, close to the rotating shaft frame, of the sliding blocks is propped against one side, far away from the rotating shaft, of the stop part; and

The two ends of the elastic element respectively prop against the stop part and the propping part so that the elastic element is always in a compressed state;

when the two sliding blocks move towards the direction approaching to each other under the action of external force, the two connecting parts are acted by the driving force of the sliding blocks so as to approach to each other along the axial direction of the rotating shaft and separate from the connecting holes to be positioned at the second position;

The two connecting parts are under the action of the elastic force of the elastic element, so that when the two connecting parts are far away from each other along the axial direction of the rotating shaft, the connecting parts are inserted into the connecting holes to be positioned at the first position.

Further, the rotating shaft mechanism further comprises a sliding block fixing cover, the sliding block fixing cover is fixedly arranged on the second cover body and used for limiting the sliding block, and a yielding hole is formed in the sliding block fixing cover;

The sliding block is provided with a protruding block portion, and the protruding block portion penetrates through one side, away from the first cover body, of the second cover body from the abdication hole.

Further, the edge of the sliding block is provided with a limiting protrusion, and the sliding block fixing cover is pressed on the limiting protrusion to limit the sliding block.

Further, one of the sliding block and the rotating shaft frame is provided with a limiting sliding groove, and the other one of the sliding block and the rotating shaft frame is provided with a limiting protruding block matched with the limiting sliding groove.

Further, the connecting portion comprises a connecting pin, a positioning hole is formed in the axial direction of the connecting pin, and the connecting pin is sleeved on the rotating shaft through the positioning hole and is slidably arranged along the axial direction of the rotating shaft.

In another aspect, the present application also discloses a camera system, including:

a camera assembly comprising at least 1 lens;

the line hiding box is used for supporting the camera assembly and comprises a first cover body and a second cover body, a line hiding space is formed by surrounding the first cover body, the line hiding space is provided with an opening, the second cover body is connected with the camera assembly, the second cover body is provided with a line passing hole for receiving a cable of the camera assembly, the first cover body is circumferentially provided with a fastening hole, and the fastening hole can be used for receiving a first fastening piece and then is fastened and connected with a mounting surface of a ceiling or the ground, so that the camera assembly can be hoisted relative to the ceiling and can be installed relative to the ground;

A rotating shaft mechanism is arranged at the joint of the first cover body and the second cover body, and the second cover body rotates along the rotating shaft mechanism to cover or open the opening;

The first cover body is provided with a supporting rod, the second cover body is provided with a supporting matching part, and the supporting matching part comprises a clamping hook and a bulge; when the camera component is hoisted, the supporting rod can be unfolded and is abutted against the bulge, and the first cover body and the second cover body form a first preset opening and closing space under the action of the supporting rod;

when the camera component is seated, the supporting rod can be unfolded and stretched by the clamping hook, and the first cover body and the second cover body form a second preset opening and closing space under the action of the supporting rod;

The first preset opening and closing space and the second preset opening and closing space limit an operation space required when the cable in the wire hiding box is operated by a user.

Further, the clamping hook is provided with an inner first concave cambered surface, the protrusion is provided with a second concave cambered surface, and the radians of the first concave cambered surface and the second concave cambered surface are the same.

Further, a connecting line defined by the circle center of the first concave cambered surface and the circle center of the second concave cambered surface is perpendicular to the second cover body.

Further, the rotating shaft mechanism comprises a rotating shaft frame and connecting parts arranged at two ends of the rotating shaft frame, the rotating shaft frame is connected with a second cover body, the connecting parts are rotatably connected with the first cover body, and the second cover body is driven by external force to rotate relative to the first cover body, so that the opening is covered or opened.

Further, the first cover body is provided with a mounting groove, two opposite side walls of the mounting groove are respectively provided with a connecting hole and a guiding inclined plane, and the connecting part is slidably mounted to the connecting holes along the guiding inclined planes.

Further, the distance between the two guide inclined planes gradually increases along the direction approaching the second cover body; the included angle between the guide inclined plane and the length direction of the connecting part is 50-70 degrees.

Further, a rotating shaft is arranged on the rotating shaft mechanism, the two connecting parts are respectively arranged on the rotating shaft and are slidably arranged along the axial direction of the rotating shaft, the connecting parts are provided with first positions which slide along the direction away from the rotating shaft so as to be inserted into the connecting holes, and the connecting parts are also provided with second positions which slide along the direction close to the rotating shaft so as to be separated from the connecting holes;

The rotating shaft mechanism further comprises a driving assembly, and the driving assembly is used for applying external force to the connecting portion to drive the connecting portion to switch between the first position and the second position.

Further, the periphery side of pivot is provided with the butt portion, the periphery side of connecting portion is provided with the backstop portion, drive assembly includes:

the two sliding blocks are respectively arranged at two opposite ends of the rotating shaft frame, the sliding blocks can slide along the axial direction of the rotating shaft, and one side, close to the rotating shaft frame, of the sliding blocks is propped against one side, far away from the rotating shaft, of the stop part; and

The two ends of the elastic element respectively prop against the stop part and the propping part so that the elastic element is always in a compressed state;

when the two sliding blocks move towards the direction approaching to each other under the action of external force, the two connecting parts are acted by the driving force of the sliding blocks so as to approach to each other along the axial direction of the rotating shaft and separate from the connecting holes to be positioned at the second position;

The two connecting parts are under the action of the elastic force of the elastic element, so that when the two connecting parts are far away from each other along the axial direction of the rotating shaft, the connecting parts are inserted into the connecting holes to be positioned at the first position.

Further, the rotating shaft mechanism further comprises a sliding block fixing cover, the sliding block fixing cover is fixedly arranged on the second cover body and used for limiting the sliding block, and a yielding hole is formed in the sliding block fixing cover;

The sliding block is provided with a protruding block portion, and the protruding block portion penetrates through one side, away from the first cover body, of the second cover body from the abdication hole.

Further, the edge of the sliding block is provided with a limiting protrusion, and the sliding block fixing cover is pressed on the limiting protrusion to limit the sliding block.

By the technical scheme, the second cover body of the wire hiding box is rotatably and detachably arranged on the first cover body through the rotating shaft mechanism, so that the second cover body can cover or open an opening when rotating along the rotating shaft mechanism, and the operation is simple and quick. Meanwhile, through this pivot mechanism, can also install second lid detachably on first lid, not only be convenient for assemble and maintain the line box of hiding, during the use, the user can also be according to actual user demand to the second lid dismouting, can improve the ease of hiding the line box.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. In the drawings:

FIG. 1 is an exploded view of a cord storage case of an embodiment of the present application mounted on a mounting surface;

FIG. 2 is a cross-sectional view of a second cover of the line hiding box (seated on a mounting surface) according to an embodiment of the present application in an open position;

FIG. 3 is a cross-sectional view of a second cover of the line hiding box (suspended over a mounting surface) according to an embodiment of the present application in an open position;

FIG. 4 is a cross-sectional view of a support mating portion of an embodiment of the present application;

FIG. 5 is a cross-sectional view of a line hiding box according to an embodiment of the present application;

FIG. 6 is a partial view of the disclosed embodiment of the present application after the line hiding box is at a first view and cut away;

FIG. 7 is a partial view of a second cover of the wire hiding box according to an embodiment of the present application, installed on a first cover;

FIG. 8 is a partial cross-sectional view of the hinge mechanism of the line hiding box according to the embodiment of the present application mounted on the second cover;

FIG. 9 is an exploded view of a camera according to an embodiment of the present application when mounted on a mounting surface;

Fig. 10 is an exploded view of a camera assembly and a second cover according to an embodiment of the present application.

Wherein the above figures include the following reference numerals:

100. A wire hiding box; 10. a first cover; 11. a wire hiding space; 111. an opening; 12. a mounting hole; 13. a mounting groove; 131. a connection hole; 14. a guide slope; 15. a fastening hole; 20. a second cover; 21. a wire through hole; 30. a locking assembly; 31. an unlock button; 311. a locking part; 312. a guide post; 32. a locking part; 40. a support assembly; 41. a support rod; 411. a hook; 42. a support mating portion; 421. a clamping hook; 422. a protrusion; 401. a first concave cambered surface; 402. a second concave cambered surface; 50. an elastic member; 60. a spindle mechanism; 61. a rotating shaft bracket; 611. a rotating shaft; 612. a butt part; 613. a limit bump; 62. a connection part; 621. positioning holes; 622. a stop portion; 63. a slide block; 631. a bump portion; 632. a limit protrusion; 633. a limit groove; 64. an elastic element; 65. a slider fixing cover; 651. a relief hole; 70. a first sealing element; 80. a second sealing element; 90. a fastening screw; 200. a camera system; 210. a camera assembly; 220. a connecting screw; 300. a mounting surface; 400. locking screws.

Detailed Description

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. The application will be described in detail below with reference to the drawings in connection with embodiments.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present application unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective parts shown in the drawings are not drawn in actual scale for convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

Referring to fig. 1 to 3, according to an aspect of the present application, there is provided a wire hiding box 100, the wire hiding box 100 including a first cover 10 and a second cover 20.

Wherein, the first cover body 10 is surrounded to form a wire hiding space 11, which is convenient for accommodating and storing wires and the like, and the wire hiding space 11 is provided with an opening 111; the second cover 20 is provided with a wire passing hole 21 for communicating with the wire hiding space 11, and when the second cover 20 is rotatably and detachably mounted on the first cover 10 through the rotating shaft mechanism 60, the opening 111 can be covered or the opening 111 can be opened when the second cover 20 rotates along the rotating shaft mechanism 60.

Before installation, the first cover 10 and the second cover 20 of the wire hiding box 100 are in a state of being separated from each other, during installation, the first cover 10 is fixedly installed on the installation surface 300 by using a locking member such as a locking screw 400, after that, an instrument such as a camera assembly which needs to use the wire hiding box 100 is fixedly installed on the second cover 20 (the structure such as the camera assembly can also be assembled with the second cover 20 in advance, that is, assembled when leaving a factory), and at this time, a wire of the instrument such as the camera assembly can be penetrated out from the wire through hole 21. Then the second cover 20 is rotatably mounted on the first cover 10 through the rotating shaft mechanism 60, at this time, in order to well mount and store the wires in the wire storage space 11, the second cover 20 can be rotated along the rotating shaft mechanism 60, and when a certain included angle is formed between the second cover 20 and the first cover 10, the second cover 20 can open the opening 111, so that an operator can mount and store the wires penetrating from the wire through hole 21 to the wire storage space 11 side conveniently. After the wires are mounted and stored, the second cover 20 is rotated along the rotation shaft mechanism 60 to cover the opening 111, thereby preventing external water or the like from entering the inside of the wire storage box 100.

Because the second cover 20 of the wire hiding box 100 is rotatably and detachably mounted on the first cover 10 through the rotating shaft mechanism 60, when the second cover 20 rotates along the rotating shaft mechanism 60, the second cover 20 can cover the opening 111 or open the opening 111, and the operation is simple and quick. Meanwhile, through the rotating shaft mechanism 60, the second cover body 20 can be detachably mounted on the first cover body 10, so that the assembly and maintenance of the wire hiding box 100 are facilitated, and when the wire hiding box is used, a user can assemble and disassemble the second cover body 20 according to actual use requirements, and the usability of the wire hiding box 100 can be improved. In the practical use process, in order to reduce the installation difficulty of a user, the structures such as the camera component and the like can be assembled on the second cover body 20 in advance, when the user uses, the user only needs to install the first cover body 10 on the installation surface 300, then install the second cover body 20 on the first cover body 10 through the rotating shaft mechanism 60, finally rotate the second cover body 20, and install and store the wires of the structures such as the camera component and the like in the wire hiding space 11, so that the operation is simple and quick.

Alternatively, the first cover 10 and the second cover 20 in this embodiment may be square, cylindrical, prismatic, or other shaped structures, so long as they can store and install wires or the like in other deformation manners, which are not particularly limited in the present application.

Referring again to fig. 1 to 3, in order to enhance the use safety of the hiding wire box 100 of the present application, the hiding wire box 100 further includes a locking assembly 30 and a supporting assembly 40, wherein the locking assembly 30 is disposed between the first cover 10 and the second cover 20 for locking the second cover 20 in a sealing position (i.e., a position where the second cover 20 covers the opening 111); the support assembly 40 is disposed between the first cover 10 and the second cover 20 for supporting the second cover 20 in an open position (a position where the second cover 20 opens the opening 111).

In the initial state, the second cover 20 is at the sealed position, at this time, the second cover 20 seals the opening 111, so that the second cover 20 can be rotated relative to the first cover 10 to switch from the sealed position to the open position in order to well install and store the wires in the wire storage space 11, at this time, the second cover 20 can be supported and limited at the open position by the supporting component 40, so that the operator can conveniently install and store the wires penetrating into the wire storage space 11 from the wire through holes 21. After the wires are installed and stored, the second cover 20 is rotated to switch the second cover 20 from the open position to the sealed position, and the second cover 20 is locked by the locking assembly 30, so that the second cover 20 can be prevented from being opened by mistake.

In addition, since the wire hiding box 100 in the present embodiment is provided with the locking assembly 30 and the supporting assembly 40, it is possible to realize not only the hanging installation but also the seating installation of the wire hiding box 100. Specifically, when the magazine 100 is mounted in a hanging manner (as shown in fig. 3), the second cover 20 can be locked in the sealed position by the action of the locking assembly 30, and even if the second cover 20 is subjected to the gravity of the camera assembly or the like, it is difficult to open the second cover 20. Meanwhile, through the action of the supporting component 40, the second cover body 20 is further convenient to support in the open position, and even if the second cover body 20 is subjected to the gravity action of the camera component and other instruments, the shaking phenomenon can not occur, so that the installation and the collection of the lead are facilitated. Similarly, when the cord storage case 100 is mounted in a seat-mounted manner (as shown in fig. 2), the second cover 20 can be locked in the sealed position by the action of the locking unit 30, and even if the second cover 20 and the camera unit are subjected to other external forces, they are hardly opened. Meanwhile, the second cover 20 is conveniently supported at the open position by the supporting assembly 40, and even if the second cover 20 is subjected to the gravity action of the camera assembly and other instruments, the second cover 20 cannot swing or shake, so that the installation and the collection of the lead are convenient. It can be seen that, the wire hiding box 100 in this embodiment not only can realize the hanging installation, but also can realize the seat installation, and through the functions of the supporting component 40 and the locking component 30, the convenience and safety of using the wire hiding box 100 can also be improved.

It will be appreciated that the wire storage box 100 of the present embodiment may be mounted on the inclined mounting surface 300 in addition to the seat mounting and the hanging, and is not limited to the seat mounting and the hanging described in the present application. In a preferred embodiment of the present application, the first end of the second cover 20 is rotatably mounted on the first end of the first cover 10 by the rotation shaft mechanism 60, and the arrangement in this embodiment has the following advantages in terms of the manner in which the middle of the second cover 20 is rotatably mounted on the first cover 10 by the rotation shaft mechanism 60 (the rotation position is located at the middle position in the width direction of the second cover 20, when rotated, one end of the second cover 20 turns toward the inside of the first cover 10), or the first end of the second cover 20 is rotatably connected to the middle in the width direction of the first cover 10 (the rotation position is located at the middle position in the width direction of the first cover, when rotated, the inner space of the first cover 10 cannot be fully exposed), or the like. When the second cover 20 is in the open position, the inner space thereof can be more fully exposed, thereby facilitating the installation and storage of the lead wires by a user.

Of course, in other embodiments of the present application, the first end of the second cover 20 may be rotatably mounted at the middle portion of the first cover 10 (the rotation position is located at the middle position in the width direction of the first cover), or the middle portion of the second cover 20 in the width direction may be rotatably connected to the first cover 10 (the rotation position is located at the middle position in the width direction of the second cover 20), which is within the scope of the present application as long as other modifications are possible under the concept of the present application.

Further, the locking assembly 30 in the present embodiment includes an unlocking button 31 and a locking portion 32, and the unlocking button 31 is provided with a locking portion 311; the locking portion 32 is adapted to the locking portion 311, wherein the unlocking button 31 is used for unlocking the locking portion 311 and the locking portion 32 which are cooperatively connected together, and when the device is actually installed, the unlocking button 31 is disposed on one of the first cover 10 and the second cover 20, and the locking portion 32 is disposed on the other of the first cover 10 and the second cover 20. That is, when the unlocking button 31 is mounted on the first cover 10, the locking portion 32 is mounted on the second cover 20; when the unlocking button 31 is mounted on the second cover 20, the locking portion 32 is mounted on the first cover 10. Through the cooperation of locking portion 311 and hasp portion 32, be convenient for fix second lid 20 locking on first lid 10, and when pressing unlocking button 31, can make locking portion 311 and hasp portion 32 separation realize the unblock, at this moment, be convenient for switch second lid 20 from sealed position to open position.

In a specific embodiment of the present application, the unlocking button 31 is disposed at a second end of the first cover 10 opposite to the first end, and the locking portion 32 is correspondingly disposed at a second end of the second cover 20 opposite to the first end; at this time, the first cover 10 is provided with the mounting hole 12, and the unlocking button 31 further includes a guide post 312, and the guide post 312 is mounted to the mounting hole 12 when mounted, and the guide post 312 can reciprocate in the axial direction of the mounting hole 12 after being mounted. Meanwhile, an elastic member 50 for resetting the unlocking button 31 is further provided in the mounting hole 12, specifically, the elastic member 50 is provided between the guide post 312 and the bottom surface of the mounting hole 12, and alternatively, the elastic member 50 may be, for example, a spring, an elastic pad, or the like. In order to prevent the unlocking button 31 from falling off the first cover 10, a stopper or a stopper may be provided on the first cover 10. When the wires and the like are required to be installed and stored, only the unlocking button 31 is required to be pressed, the locking part 311 on the unlocking button 31 is separated from the locking part 32, then the second cover 20 is opened, and the second cover 20 is supported to the opening position by the supporting component 40, so that the operation is simple and convenient. After unlocking is completed, the external force to the unlocking button 31 is removed, and the unlocking button 31 can be reset under the action of the elastic force applied by the elastic member 50.

Further, the support assembly 40 in the present embodiment includes a support bar 41 and a support mating portion 42, wherein a first end of the support bar 41 is provided with a hook 411; the support engaging portion 42 includes a hook 421 for engaging with the hook 411, and when the hook 411 is engaged with the hook 421, the second cover 20 is in the open position. In actual installation, the second end of the support bar 41 is rotatably disposed on one of the first cover 10 and the second cover 20, and the support engaging portion 42 is disposed on the other of the first cover 10 and the second cover 20. That is, when the second end of the support bar 41 is rotatably mounted on the first cover body 10, the support engagement portion 42 is provided on the second cover body 20; and when the second end of the support bar 41 is rotatably installed on the second cover 20, the support engagement portion 42 is provided on the first cover 10.

When the second cover 20 is opened, the supporting rod 41 and the supporting matching part 42 support and match each other, so that the second cover 20 is supported at the opening position, and further, the wires and the like are conveniently stored and installed, the second cover 20 is prevented from being shifted or deflected due to the external force applied by the camera component and other instruments, and the safety and reliability of the wire hiding box 100 in the use process can be improved.

In a specific embodiment of the present application, the second end of the support bar 41 is rotatably mounted on the first cover 10, specifically mounted on the second end opposite to the first end of the first cover 10, and correspondingly, the support engaging portion 42 is disposed on the second cover 20, specifically mounted on the second end opposite to the first end of the second cover 20, so that when the hook 411 on the first end of the support bar 41 is engaged with the hook 421, the first end of the second cover 20 is connected with the first end of the first cover 10, and the second end of the second cover 20 is supported with the first end of the first cover 10 by the support assembly 40, the stability of the whole structure is higher, and the second cover 20 can be well supported in the open position. Alternatively, the second end of the support rod 41 in this embodiment may be connected to the first cover 10 by, for example, hinging, or a hinge connection, which is not particularly limited in the present application.

The line defined by the center of the first concave arc surface 401 and the center of the second concave arc surface 402 is perpendicular to the second cover 20.

Referring to fig. 2 to 4, the support fitting portion 42 in the present embodiment includes a hook 421 and a projection 422; the support fitting portion 42 includes a catch 421 and a projection 422. When the camera assembly is hoisted, the supporting rod 41 can be unfolded and abutted with the protrusion 422, and the first cover body 10 and the second cover body 20 form a first preset opening and closing space under the action of the supporting rod 41; when the camera assembly is seated, the supporting rod 41 can be unfolded and stretched by the clamping hook 421, and the first cover body 10 and the second cover body 20 form a second preset opening and closing space under the action of the supporting rod 41; the first preset opening and closing space and the second preset opening and closing space define an operation space required when the cable in the wire hiding box 100 is operated by a user. Optionally, the hook 421 has an inner first concave cambered surface 401, the protrusion 422 has a second concave cambered surface 402, the radians of the first concave cambered surface 401 and the second concave cambered surface 402 are the same, so that the hook is convenient to be matched with the same end of the supporting rod 41, and the hook has a simple structure and is convenient to process. In the application, the contact surface of the supporting rod 41 of the clamping hook 421 is the first concave cambered surface 401 and the second concave cambered surface 402, so that stress concentration at the contact position of the first concave cambered surface 401 and the second concave cambered surface can be avoided, and the service life and the safety of the wire hiding box 100 can be improved. When the wire hiding box 100 is installed in a seat mounting manner, the hooks 411 on the first end of the supporting rod 41 are matched with the first concave arc surface 401, and at this time, the force born by the supporting rod 41 is a tensile force (particularly related to the installation position of the camera component and other instruments on the second cover body 20); when the cord storage case 100 is installed in a seat-mounting manner, the hook 411 on the first end of the supporting rod 41 is matched with the second concave arc surface 402, and at this time, the supporting rod 41 is subjected to a supporting force (specifically, the supporting force is related to the installation position of the camera assembly and other instruments on the second cover 20).

As shown in fig. 4, a line defined by the center of the first concave arc surface 401 and the center of the second concave arc surface 402 is perpendicular to the second cover 20, so as to be conveniently matched and connected with a hook 411 arranged at the end part of the support rod 41. Of course, in other embodiments of the present application, the line defined by the center of the first concave arc surface 401 and the center of the second concave arc surface 402 may also be disposed obliquely to the second cover 20, so long as other modifications are within the scope of the present application.

As shown in fig. 1, 4 to 8, the rotating shaft mechanism 60 in the present embodiment includes a rotating shaft frame 61 and a connecting portion 62, wherein a rotating shaft 611 is provided on the rotating shaft frame 61, the rotating shaft frame 61 may be fixedly provided on the second cover 20 by a structure such as a screw, and the rotating shaft 611 extends along the width direction of the wire hiding box 100; two connection portions 62 are provided at both ends of the rotation shaft 611, respectively, that is, one connection portion 62 is provided at each end of the rotation shaft 611, and the connection portion 62 is rotatably and detachably connected to the first cover 10. Through the rotation connection of this pivot mechanism 60, be convenient for drive second lid 20 and switch between sealed position and open position, simultaneously, through the detachable function of this pivot mechanism 60, be convenient for improve the ease of use of hiding line box 100.

In order to facilitate the installation of the rotating shaft mechanism 60, the first cover body 10 in this embodiment is provided with the installation groove 13, during actual installation, the portion of the rotating shaft mechanism 60 protruding from the second cover body 20 is accommodated in the installation groove 13, and the two opposite side walls of the installation groove 13 are provided with the connecting holes 131, so that the connecting portion 62 is rotatably and detachably installed in the connecting holes 131 during connection, and thus, the structure of the whole wire hiding box 100 is more compact and the appearance is more complete.

Further, the connecting portion 62 in the present application is slidably disposed along the axial direction of the rotating shaft 611, and in actual use, the connecting portion 62 has a first position sliding along a direction away from the rotating shaft 611 to be inserted into the connecting hole 131, and a second position sliding along a direction close to the rotating shaft 611 (sliding toward the middle portion of the rotating shaft 611) to be separated from the connecting hole 131. In order to facilitate the detachable installation of the second cover 20 on the first cover 10, the rotating shaft mechanism 60 in the present application is further provided with a driving component, which is used for applying an external force to the connecting portion 62 to drive the connecting portion 62 to switch between the first position and the second position, so as to facilitate the detachment of the second cover 20.

Specifically, the outer circumferential side of the shaft 611 in the present embodiment is provided with a abutment portion 612 (the abutment portion 612 is located at a substantially middle position in the length direction of the shaft 611), while the outer circumferential side of the connecting portion 62 is provided with a stopper portion 622 (the stopper portion 622 is located at a substantially middle position in the length direction of the connecting portion 62), and at the same time, the driving assembly includes the slider 63 and the elastic member 64. In actual installation, two sliding blocks 63 are respectively arranged at two opposite ends of the rotating shaft frame 61, the sliding blocks 63 can slide along the axial direction of the rotating shaft 611, and one side of the sliding blocks 63 close to the rotating shaft frame 61 is propped against one side of the stopping part 622 far away from the rotating shaft 611; both ends of the elastic element 64 respectively abut against the stop portion 622 and the abutment portion 612, so that the elastic element 64 is always in a compressed state.

In use, if the two sliders 63 are moved toward each other by an external force, the two connecting portions 62 are moved toward each other by the driving force exerted by the sliders 63, so as to be able to approach each other in the axial direction of the rotation shaft 611 and be separated from the connecting hole 131 to be in the second position, and at this time, the second cover 20 can be detached from the first cover 10; when the two connecting portions 62 are separated from each other along the axial direction of the rotating shaft 611 by the elastic force of the elastic element 64, the connecting portions 62 may be inserted into the connecting hole 131 to be in the first position, and at this time, the second cover 20 may be rotatably mounted on the first cover 10.

Alternatively, the first cover 10 is provided with guide inclined surfaces 14 on opposite sides, and the connection portion 62 slides along the guide inclined surfaces 14 to the mounting groove 13 to be mounted in the connection hole 131 when mounted. More specifically, the side walls of the mounting groove 13 provided with the connecting holes 131 are connected with the guide inclined planes 14, and in the present application, the number of the connecting holes 131 is two, and correspondingly, the number of the guide inclined planes 14 is also two, at this time, the two guide inclined planes 14 are respectively located at two opposite sides of the mounting groove 13, and the distance between the two guide inclined planes 14 becomes gradually larger along the direction approaching the second cover 20, that is, the two guide inclined planes 14 are generally arranged in an inverted splayed shape, so that the placement and the installation of the rotating shaft mechanism 60 are facilitated. Alternatively, the angle between the guide inclined surface 14 and the rotation shaft 611 is 50 ° to 70 ° (the angle between the extension line of the guide inclined surface 14 and the axial extension line of the rotation shaft 611 after installation), for example, 50 °, 60 °, 70 ° or the like, facilitates guiding the connection portion 62 to install the connection portion 62 in the connection hole 131.

The guiding inclined surface 14 in this embodiment has the function of: when the second cover 20 of the cord storage case 100 is mounted on the first cover 10 through the rotation shaft mechanism 60, the connection portion 62 is brought into contact with the guide slope 14 in a natural state, so that a component force in an axial direction along the rotation shaft 611 is generated on the connection portion 62 by a vertical upward/downward mounting force, and the connection portion 62 is moved inward by the axial component force to compress the elastic member 64 into the mounting groove 13.

Specifically, when the second cover 20 is mounted on the first cover 10, only the second cover 20 needs to be forced (the specific force application direction is shown in the mounting direction in fig. 7), so that the portion of the rotating shaft mechanism 60 protruding out of the second cover 20 moves into the mounting groove 13, in the process, the connecting portions 62 at two ends of the rotating shaft 611 can slide along the guiding inclined plane 14 under the pressing action, when the second cover 20 moves up/down to the designated position, the connecting portions 62 enter the connecting holes 131 on the first cover 10, and the two connecting portions 62 spring open to two sides under the action of the elastic element 64, so that the quick assembly process of the rotating shaft mechanism 60 can be completed; in the disassembly process, the user is required to pinch the sliding block 63 with his fingers, force inwards, and overcome the elastic force of the elastic element 64 to move the connecting portion 62 inwards along the axial direction of the rotating shaft 611 (the middle portion of the rotating shaft 611), and when the connecting portion 62 moves to be separated from the connecting hole 131 on the first cover 10, the rotating shaft mechanism 60 and the first cover 10 can be separated, so that the second cover 20 can be disassembled from the first cover 10.

Further, the rotating shaft mechanism 60 in the present embodiment further includes a slider fixing cover 65, and the slider fixing cover 65 is fixedly disposed on the second cover 20 by a structure such as a screw for limiting the slider 63. The slider fixing cover 65 is provided with a relief hole 651; correspondingly, the protruding block portions 631 are arranged on the sliding blocks 63, the protruding block portions 631 penetrate through the side, away from the first cover body 10, of the second cover body 20 from the giving-up holes 651, when the second cover body 20 needs to be detached from the first cover body 10, the protruding block portions 631 on the two sliding blocks 63 are pinched by fingers and are forced inwards, so that the two sliding blocks 63 slide towards the direction approaching to each other, and the structure is simple, and the operation is convenient.

It will be appreciated that the function of the slider fixing cover 65 in this embodiment is to limit the slider 63, so as to prevent the slider 63 from falling from the second cover 20, specifically, a limit protrusion 632 is provided on an edge of the slider 63, and after the slider fixing cover 65 is mounted, the slider 63 is pressed against the limit protrusion 632, so that the slider 63 is longitudinally limited between the spindle bracket 61 and the slider fixing cover 65, so as to prevent the slider 63 from falling from the relief hole 651.

Further, one of the sliding block 63 and the rotating shaft frame 61 is provided with a limiting groove 633, and the other is provided with a limiting projection 613 matching the limiting groove 633, that is, when the limiting groove 633 is provided on the sliding block 63, the limiting projection 613 is provided on the rotating shaft frame 61, and when the limiting groove 633 is provided on the rotating shaft frame 61, the limiting projection 613 is provided on the sliding block 63, in the application, fig. 8 shows the situation that the limiting groove 633 is provided on the sliding block 63 and the limiting projection 613 is provided on the rotating shaft frame 61, the sliding direction of the sliding block 63 can be limited through the interaction of the limiting groove 633 and the limiting projection 613, and thus the sliding reliability of the sliding block 63 in the embodiment can be improved.

Alternatively, the connecting portion 62 in the present embodiment includes a connecting pin provided with a positioning hole 621 in an axial direction thereof, the connecting pin being fitted over the rotation shaft 611 through the positioning hole 621 and slidably provided in the axial direction of the rotation shaft 611. By this arrangement, the connecting pin can be prevented from being deflected to a certain extent, and thus stability and reliability in the movement process of the connecting portion 62 can be improved.

Of course, in other embodiments of the present application, the positioning hole 621 may be provided on the rotating shaft 611, and the connecting pin may be inserted into the positioning hole 621, so long as other modifications are within the scope of the present application.

Illustratively, the elastic member 64 of the present application may be a spring, an elastic rubber ring, an elastic silica gel ring, or the like, and any other modification forms within the spirit of the present application are within the scope of the present application.

As can be seen from the above description, the spindle mechanism 60 specifically includes: 1 rotating shaft frame 61, 2 connecting parts 62, 2 sliding blocks 63, 2 elastic elements 64 and 1 sliding block fixing cover 65; the rotating shaft frame 61 is fixed on the first cover body 10 through screws, 1 connecting part 62 is respectively arranged at two ends of a rotating shaft 611 of the rotating shaft frame 61, 1 positioning hole 621 is axially formed in the connecting part 62, the positioning hole 621 is a circular hole, the size of the positioning hole is matched with the outer diameter of the rotating shaft 611, and 2 connecting parts 62 can axially move on the rotating shaft 611; one end of the elastic element 64 is pressed against the pressing portion 612 on the rotating shaft frame 61, and the other end is pressed against the stopping portion 622 of the connecting portion 62, so that the connecting portion 62 is always under the action of the pressure of the elastic element 64 in the moving process, and the moving trend towards two sides is maintained. A slider 63 is mounted above the connection portion 62, and the slider 63 is stopped at one side of the stopping portion 622 away from the rotating shaft 611; when the sliding block 63 moves, the stop part 622 transmits force to the connecting part 62, so that the movement of the connecting part 62 is controlled; the slider 63 is provided with 1 slider fixing cover 65 above, the slider fixing cover 65 is fixed to the second cover 20 by 2 screws, and at the same time, the inner surface of the slider fixing cover 65 is pressed against the slider 63, which plays a role in fixing the slider 63 in the vertical direction (i.e., the thickness direction of the wire storage case 100 when in use, the arrow direction in fig. 7).

Referring again to fig. 1 to 8, in order to prevent external dust or moisture from entering the wire storage box 100, a first sealing member 70 is provided in a gap between the first cover 10 and the second cover 20 in the present embodiment, and the first sealing member 70 may be, for example, a sealing ring or the like.

Optionally, the outer circumference of the via hole 21 is sleeved with a second sealing element 80, and likewise, the second sealing element 80 may be a sealing ring or the like. In actual installation, the wires of the camera module and other instruments enter the wire storage box 100 from the wire passing hole 21, the camera module and other instruments are abutted against the wire passing hole 21 and sealed by the second sealing element 80, so that the sealing performance of the wire storage box 100 can be improved, and dust, moisture and the like in the external environment can be prevented from entering the wire storage box 100.

Alternatively, the second cover 20 in the present embodiment is fixed to the first cover 10 by the fastening screw 90, that is, when the second cover 20 is in the sealing position, besides being locked by the locking assembly 30, the second cover 20 may be locked by the fastening screw 90, so that the safety and reliability of the wire hiding box 100 in the present embodiment during use can be improved accurately. After the wire hiding box 100 is installed, when a user needs to perform a wire connection operation, a fastening screw 90 between the second cover body 20 and the first cover body 10 is loosened, then the unlocking button 31 is pressed to enable a locking part 311 on the unlocking button 31 to be separated from the locking part 32, and the whole second cover body 20 is rotated by taking a rotating shaft 611 as a center, so that a sufficient space is provided for the following wire connection operation; when the support rod 41 rotates to a certain angle, a user can rotate the support rod 41 out of the first cover body 10 and rotate the hook 411 at the end part of the support rod into the hook 421, and the hook 421 is provided with an upper cambered surface 401 and a lower cambered surface 401, which correspond to the support surface and the pulled surface respectively.

Taking the example that the gravity center of the camera assembly and other instruments is deviated to the position of the rotating shaft 611, when the wire hiding box 100 is hoisted on the installation surface 300 (see fig. 3), and the second cover 20 is rotated to be opened and rotated to a corresponding angle, the second cover 20 is influenced by the gravity of the camera assembly and other instruments to generate a force for rotating backwards, in order to prevent the second cover 20 from rotating backwards, the hooks 411 at the end part of the supporting rod 41 are contacted with the supporting surface at the clamping hooks 421 on the second cover 20, so that a supporting force is provided for the second cover 20, and a sufficient operation space is ensured for a customer; when the wire storage box 100 is seated on the installation surface 300 (see fig. 2), the second cover 20 is rotated to be opened and rotated to a corresponding angle, and the second cover 20 is influenced by the gravity of the camera assembly or other instruments, a force for continuing to rotate outwards is generated, so as to prevent the second cover 20 from continuing to rotate outwards, and the hooks 411 at the end of the support rod 41 are contacted with the pulled surface at the hooks 421 on the second cover 20, thereby providing a pulling force for the second cover 20, and ensuring the safety during operation.

Referring to fig. 1, 9 and 10, according to another aspect of the present application, there is also provided a camera system 200, the camera system 200 including a camera module 210 and a wire hiding box 100, wherein the wire hiding box 100 is the aforementioned wire hiding box 100, and when actually installed, the camera module 210 is mounted on the second cover 20 of the wire hiding box 100 by a connection screw 220, the first cover 10 is circumferentially provided with a fastening hole 15, and the fastening hole 15 can receive a first fastening member, i.e., the fastening screw 400, to be fastened to the mounting surface 300 of the ceiling or the ground, so that the camera module can be hoisted with respect to the ceiling and seated with respect to the ground. Wires and the like on the camera module 210 enter the wire hiding box 100 from the wire through hole 21 on the second cover 20. Since the camera system 200 in the present embodiment has the aforementioned wire hiding box 100, the camera system 200 in the present embodiment has all the technical effects of the wire hiding box 100 described above, and the technical effects of the wire hiding box 100 are described in detail above, which is not repeated here.

From the above description, it can be seen that the above embodiments of the present application achieve the following technical effects:

The application provides a wire hiding box and a camera with the same, wherein the wire hiding box at least can be compatible with two installation scenes of seat mounting and hoisting, and the convenience and safety of using the wire hiding box can be improved through the functions of a supporting component and a locking component on the wire hiding box, so that the use requirement of a camera user can be effectively met. Meanwhile, as the second cover body of the wire hiding box is rotatably and detachably arranged on the first cover body through the rotating shaft mechanism, when the second cover body rotates along the rotating shaft mechanism, the second cover body can cover or open the opening, and the operation is simple and quick. Meanwhile, through this pivot mechanism, can also install second lid detachably on first lid, not only be convenient for assemble and maintain the line box of hiding, during the use, the user can also be according to actual user demand to the second lid dismouting, can improve the ease of hiding the line box.

In addition, the terms "first", "second", etc. are used to define the components, and are only for convenience of distinguishing the corresponding components, and the terms have no special meaning unless otherwise stated, and therefore should not be construed as limiting the scope of the present application.

The above description is only of the preferred embodiments of the present application and is not intended to limit the present application, but various modifications and variations can be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (9)

1. A wire storage box (100), comprising:

The first cover body (10), the first cover body (10) encloses and forms the line hiding space (11), and the line hiding space (11) has an opening (111); and

The second cover body (20), the second cover body (20) is provided with a wire passing hole (21) used for communicating with the wire hiding space (11), the second cover body (20) is rotatably and detachably arranged on the first cover body (10) through a rotating shaft mechanism (60), and the second cover body (20) rotates along the rotating shaft mechanism (60) to cover the opening (111) or open the opening (111);

a locking assembly (30), the locking assembly (30) being arranged between the first cover (10) and the second cover (20) for locking the second cover (20) in a sealing position;

A support assembly (40), the support assembly (40) being disposed between the first cover (10) and the second cover (20) for supporting the second cover (20) in an open position;

the rotation shaft mechanism (60) includes:

The rotating shaft frame (61), a rotating shaft (611) is arranged on the rotating shaft frame (61), the rotating shaft frame (61) is fixedly arranged on the second cover body (20), and the rotating shaft (611) extends along the width direction of the wire hiding box (100); and

The two connecting parts (62) are respectively arranged at two ends of the rotating shaft (611), and the connecting parts (62) are rotatably and detachably connected with the first cover body (10);

The first cover body (10) is provided with a mounting groove (13), two opposite side walls of the mounting groove (13) are respectively provided with a connecting hole (131), and the connecting part (62) is rotatably and detachably arranged in the connecting holes (131);

The connecting part (62) is slidably arranged along the axial direction of the rotating shaft (611), the connecting part (62) is provided with a first position sliding along the direction away from the rotating shaft (611) to be inserted into the connecting hole (131), and the connecting part (62) is also provided with a second position sliding along the direction approaching the rotating shaft (611) to be separated from the connecting hole (131);

The periphery side of pivot (611) is provided with to top (612), the periphery side of connecting portion (62) is provided with backstop portion (622), pivot mechanism (60) still include drive assembly, drive assembly includes: the two sliding blocks (63) are respectively arranged at two opposite ends of the rotating shaft frame (61), the sliding blocks (63) can slide along the axial direction of the rotating shaft, and one side, close to the rotating shaft frame (61), of the sliding blocks (63) is propped against one side, far away from the rotating shaft (611), of the stop part (622); and an elastic element (64), wherein two ends of the elastic element (64) respectively prop against the stop part (622) and the propping part (612) so that the elastic element (64) is always in a compressed state;

Wherein when the two sliding blocks (63) move towards the direction approaching each other under the action of external force, the two connecting parts (62) are acted by the driving force of the sliding blocks (63) so as to approach each other along the axial direction of the rotating shaft (611) and separate from the connecting holes (131) to be in the second position; the two connecting parts (62) are under the elastic action of the elastic element (64) so that when the connecting parts are far away from each other along the axial direction of the rotating shaft (611), the connecting parts (62) are inserted into the connecting holes (131) to be positioned at the first position.

2. The wire hiding box (100) according to claim 1, wherein a guide slope (14) is provided on the first cover body (10), and the connection portion (62) slides along the guide slope (14) to the mounting groove (13) to be mounted to the connection hole (131).

3. The wire hiding box (100) according to claim 2, characterized in that a side wall of the mounting groove (13) provided with the connection hole (131) is connected to the guide slope (14);

The two opposite sides of the mounting groove (13) are respectively provided with the guide inclined planes (14), and the distance between the two guide inclined planes (14) gradually increases along the direction approaching to the second cover body (20).

4. The thread storage case (100) according to claim 2, wherein an angle between the guide inclined surface (14) and the rotation shaft (611) is 50 ° to 70 °.

5. The wire storage box (100) of claim 1, wherein the drive assembly is configured to apply an external force to the connecting portion (62) to cause the connecting portion (62) to switch between the first position and the second position.

6. The wire hiding box (100) according to any one of claims 1 to 5, characterized in that the connection part (62) includes a connection pin provided with a positioning hole (621) in an axial direction thereof, the connection pin being sleeved on the rotation shaft (611) through the positioning hole (621) and slidably provided in the axial direction of the rotation shaft (611).

7. A camera system (200), comprising:

a camera assembly comprising at least 1 lens (210);

The wire hiding box (100), the wire hiding box (100) is used for supporting the camera assembly, the wire hiding box (100) comprises a first cover body (10) and a second cover body (20), a wire hiding space (11) is formed by surrounding the first cover body (10), the wire hiding space (11) is provided with an opening (111), the second cover body (20) is connected with the camera assembly, the second cover body (20) is provided with a wire passing hole (21) for receiving a cable of the camera assembly, the first cover body (10) is circumferentially provided with a fastening hole, and the fastening hole can be used for receiving a first fastening piece and then be fastened and connected with a mounting surface (300) of a ceiling or a ground so that the camera assembly can be hoisted relative to the ceiling and can be installed relative to the ground;

the connecting part of the first cover body (10) and the second cover body (20) is provided with a rotating shaft mechanism (60), and the second cover body (20) rotates along the rotating shaft mechanism (60) to cover the opening (111) or open the opening (111);

The first cover body (10) is provided with a supporting rod (41), the second cover body (20) is provided with a supporting matching part (42), and the supporting matching part (42) comprises a clamping hook (421) and a bulge (422);

When the camera assembly is hoisted, the supporting rod (41) can be unfolded and is abutted against the bulge (422), and the first cover body (10) and the second cover body (20) form a first preset opening and closing space under the action of the supporting rod (41);

When the camera component is seated, the supporting rod (41) can be unfolded and stretched by the clamping hook (421), and the first cover body (10) and the second cover body (20) form a second preset opening and closing space under the action of the supporting rod (41);

wherein the first preset opening and closing space and the second preset opening and closing space define an operation space required when the cable in the wire hiding box (100) is operated by a user;

the rotation shaft mechanism (60) includes:

The rotating shaft frame (61), a rotating shaft (611) is arranged on the rotating shaft frame (61), the rotating shaft frame (61) is fixedly arranged on the second cover body (20), and the rotating shaft (611) extends along the width direction of the wire hiding box (100); and

The two connecting parts (62) are respectively arranged at two ends of the rotating shaft (611), and the connecting parts (62) are rotatably and detachably connected with the first cover body (10);

The first cover body (10) is provided with a mounting groove (13), two opposite side walls of the mounting groove (13) are respectively provided with a connecting hole (131), and the connecting part (62) is rotatably and detachably arranged in the connecting holes (131);

The connecting part (62) is slidably arranged along the axial direction of the rotating shaft (611), the connecting part (62) is provided with a first position sliding along the direction away from the rotating shaft (611) to be inserted into the connecting hole (131), and the connecting part (62) is also provided with a second position sliding along the direction approaching the rotating shaft (611) to be separated from the connecting hole (131);

The periphery side of pivot (611) is provided with to top (612), the periphery side of connecting portion (62) is provided with backstop portion (622), pivot mechanism (60) still include drive assembly, drive assembly includes: the two sliding blocks (63) are respectively arranged at two opposite ends of the rotating shaft frame (61), the sliding blocks (63) can slide along the axial direction of the rotating shaft, and one side, close to the rotating shaft frame (61), of the sliding blocks (63) is propped against one side, far away from the rotating shaft (611), of the stop part (622); and an elastic element (64), wherein two ends of the elastic element (64) respectively prop against the stop part (622) and the propping part (612) so that the elastic element (64) is always in a compressed state;

Wherein when the two sliding blocks (63) move towards the direction approaching each other under the action of external force, the two connecting parts (62) are acted by the driving force of the sliding blocks (63) so as to approach each other along the axial direction of the rotating shaft (611) and separate from the connecting holes (131) to be in the second position; the two connecting parts (62) are under the elastic action of the elastic element (64) so that when the connecting parts are far away from each other along the axial direction of the rotating shaft (611), the connecting parts (62) are inserted into the connecting holes (131) to be positioned at the first position.

8. The camera system (200) of claim 7, wherein the catch (421) has an inner first concave arc surface (401), the projection (422) has a second concave arc surface (402), and the arc of the first concave arc surface (401) and the arc of the second concave arc surface (402) are the same.

9. The camera system (200) of claim 8, wherein a line defined by a center of the first concave arc surface (401) and a center of the second concave arc surface (402) is perpendicular to the second cover (20).