Mounting assembly and camera device

CN224364623UActive Publication Date: 2026-06-16SHENZHEN OCEANWING SMART INNOVATIONS TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN OCEANWING SMART INNOVATIONS TECHNOLOGY CO LTD
Filing Date
2025-08-15
Publication Date
2026-06-16

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Abstract

The application discloses a mounting assembly and a camera device, wherein the mounting assembly comprises a base and a mounting frame, the base is used for being connected to a target plane, the mounting frame is mounted on one side of the base along a first direction, and the mounting frame is used for fixing a to-be-mounted part; one of the mounting frame and the base is provided with a first connecting part, and the other is provided with a second connecting part; one of the first connecting part and the second connecting part is provided with a first locking part, and the other is provided with a second locking part; one of the first connecting part and the second connecting part is provided with a guide sliding block, and the other is provided with a clamping groove; the first connecting part is configured to be slidable relative to the second connecting part, so that the mounting assembly is switched between a locked state and an unlocked state; the application can take the mounting frame as an intermediate connecting part of the to-be-mounted part and the base, when the to-be-mounted part is mounted on the mounting frame, the to-be-mounted part does not need to be directly fixed to the target plane, and the to-be-mounted part can be conveniently disassembled and assembled on the target plane.
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Description

Technical Field

[0001] This application relates to the field of camera technology, and in particular to a mounting component and camera device. Background Technology

[0002] Cameras, PTZ cameras, lights, sensors, and radar detectors are generally required to be installed on target surfaces such as walls and poles. When these devices are directly installed on the target surface using screws or other fixing methods, tools such as screwdrivers are needed for disassembly and assembly, which affects the efficiency of disassembly and assembly. Utility Model Content

[0003] This application provides an installation component and a camera device, which aims to improve the problem of low disassembly efficiency of the component to be installed.

[0004] To achieve the above-mentioned technical effects, one technical solution adopted in this application is: providing an installation component for fixing the part to be installed, the installation component comprising:

[0005] The base is used to connect to the target plane; and

[0006] Mounting bracket, installed on one side of the base along the first direction, is used to fix the part to be installed;

[0007] The mounting bracket and the base are provided with a first connecting part and a second connecting part, respectively. One of the first connecting part and the second connecting part is provided with a first locking member and the other with a second locking member. One of the first connecting part and the second connecting part is provided with a guide slider and the other with a locking groove.

[0008] The first connecting portion is configured to slide relative to the second connecting portion, thereby switching the mounting component between a locked state and an unlocked state; wherein...

[0009] In the locked state, the guide slider engages with the locking slot to limit the installation component in the first direction, and the first locking member and the second locking member engage to limit the installation component in the second direction, with an included angle between the first direction and the second direction;

[0010] In the unlocked state, the guide slider separates from the slot, and the first locking element separates from the second locking element.

[0011] This application employs a base that can be mounted on a target plane to support the component to be installed. When the mounting bracket is installed on the base, on the one hand, the guide slider and the locking slot can be engaged to restrict the displacement of the mounting bracket and the base in the first direction. On the other hand, the first locking member and the second locking member are engaged to limit the displacement of the mounting bracket and the base in the second direction, thereby locking the mounting bracket on the base. When unlocking is required, the guide slider is separated from the locking slot, and the first locking member and the second locking member are separated to unlock the mounting bracket and the base. In this application example, the mounting bracket can be used as an intermediate connecting member between the component to be installed and the base. When the component to be installed is mounted on the mounting bracket, it is not necessary to directly connect and fix the component to the target plane, making it easier to remove the component from the target plane.

[0012] This application also proposes a camera device, comprising:

[0013] Camera components; and

[0014] As described above, the camera component is connected to the mounting bracket, which is slidably connected to the base to allow the mounting component to switch between a locked and unlocked state. Attached Figure Description

[0015] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0016] Figure 1 This is a schematic diagram of an example of the camera device of this application;

[0017] Figure 2 This is a schematic diagram of another example of the camera device of this application;

[0018] Figure 3 This is a schematic diagram of an example of the mounting bracket of this application;

[0019] Figure 4 This is a schematic diagram of another example of the mounting bracket in this application;

[0020] Figure 5 This is a schematic diagram of the structure of an example of the base of this application;

[0021] Figure 6 This is a schematic diagram of another example of the base of this application;

[0022] Figure 7 This is a structural schematic diagram of yet another example of the mounting bracket in this application;

[0023] Figure 8 This is a structural schematic diagram of yet another example of the base of this application.

[0024] Among them: 1000, camera equipment;

[0025] 100. Install components;

[0026] 10. Base; 11. Second connecting part; 12. Elastic support member; 121. Second locking member; 13. First support protrusion; 14. Second support protrusion; 141. Rib; 142. Second stop part; 143a / 143b. Locking groove; 15. Third stop part; 16. Fixing surface; 17. Mounting surface; 18. Baffle;

[0027] 20. Mounting bracket; 21. First connecting part; 22. First locking element; 23a / 23b. Guide slider; 24. First surface; 25. Second surface; 26. Side surface; 27. Clearance groove;

[0028] 200. Camera assembly; 210. Main body; 220. Connecting buckle;

[0029] a) First direction; b) Second direction; c) Third direction. Detailed Implementation

[0030] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0031] In the description of this application, it should be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicating orientation or positional relationships based on the orientation or positional relationships shown in the accompanying drawings, are used only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this application. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, features defined with "first" and "second" may explicitly or implicitly include one or more features. In the description of this application, "a plurality of" means two or more, unless otherwise explicitly specified. It should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" in this application description should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this document based on the specific circumstances.

[0032] In this application, the term "exemplary" is used to mean "used as an example, illustration, or description." Any embodiment described as "exemplary" in this application is not necessarily to be construed as being more preferred or advantageous than other embodiments. The following description is provided to enable any person skilled in the art to make and use this application. Details are set forth in the following description for purposes of explanation. It should be understood that those skilled in the art will recognize that this application can be made without using these specific details. In other instances, well-known structures and processes are not described in detail to avoid obscuring the description of this application with unnecessary detail. Therefore, this application is not intended to be limited to the embodiments shown, but is consistent with the broadest scope of the principles and features disclosed in this application.

[0033] When mounting components such as cameras, PTZ cameras, lights, sensors, and radar detectors are installed on target surfaces such as walls, if screws or other connectors are used to fix the components, screwdrivers or other equipment are also required for disassembly, making the removal of the components very cumbersome and preventing quick assembly and disassembly.

[0034] This application addresses the inconvenience of disassembly when directly fixing a component to a target plane using a screwdriver or similar device. It proposes a quick-release mounting assembly that allows for rapid removal of the component from the target plane. The component in this application can be any of the aforementioned devices, such as cameras, PTZ cameras, lights, sensors, and radar detectors, or other equipment that needs to be mounted on a wall, pole, or other target plane. For ease of description, this application uses a camera as an example in the following examples.

[0035] Please see Figures 1 to 5 This application proposes a mounting assembly 100 for fixing a component to be installed. The mounting assembly 100 includes a base 10 and a mounting bracket 20. The base 10 is used to connect to a target plane. The mounting bracket 20 is used to fix the component to be installed on one side of the base 10 along a first direction a. One of the mounting bracket 20 and the base 10 is provided with a first connecting portion 21, and the other is provided with a second connecting portion 11. One of the first connecting portion 21 and the second connecting portion 11 is provided with a first locking member 22, and the other is provided with a second locking member 121. One of the first connecting portion 21 and the second connecting portion 11 is provided with a guide slider 2. 3a, the other is provided with a locking groove 143a; the first connecting part 21 is configured to slide relative to the second connecting part 11 so that the mounting assembly 100 can switch between a locked state and an unlocked state; wherein, in the locked state, the guide slider 23a engages with the locking groove 143a to limit the mounting bracket 20 in the first direction a, and the first locking member 22 engages with the second locking member 121 to limit the mounting bracket 20 in the second direction b, and there is an included angle between the first direction a and the second direction b; in the unlocked state, the guide slider 23a separates from the locking groove 143a, and the first locking member 22 separates from the second locking member 121.

[0036] The base 10 can serve as a fixing structure on the mounting assembly 100 for mounting on a target plane. In this example, the target plane can be a wall or the surface of a specific rod. Taking a wall as an example, the base 10 can be fixedly connected to the wall by screws or other components. The base 10 has a fixing surface 16 and a mounting surface 17, which can be two opposing planes on the base 10. The fixing surface 16 is used for fixed connection to the target plane, and the mounting surface 17 can be set at an angle to the fixing surface 16. For example, the fixing surface 16 can be the back of the base 10, and the mounting surface 17 can be the side of the base 10.

[0037] Mounting bracket 20 is detachably connected to base 10. Mounting bracket 20 is mounted on one side of base 10 along a first direction a. First direction a can be perpendicular to the side of base 10. Optionally, first direction a can be at an angle to mounting surface 17. An angle between first direction a and mounting surface 17 means that first direction a is not parallel to mounting surface 17. Optionally, first direction a can be perpendicular to mounting surface 17. Mounting bracket 20 is used to fix the component to be mounted. In this example, the component to be mounted is camera assembly 200. Mounting bracket 20 fixing camera assembly 200 means that mounting bracket 20 can be fixedly connected to camera assembly 200, or mounting bracket 20 can be detachably connected to camera assembly 200. In this example, mounting bracket 20 can serve as an intermediate connector between camera assembly 200 and base 10. Camera assembly 200 is not directly connected to the target plane. When mounting bracket 20 is removed from base 10, camera assembly 200 can be removed simultaneously.

[0038] One of the base 10 and the mounting bracket 20 is provided with a first connecting part 21, and the other is provided with a second connecting part 11. Taking the first connecting part 21 being provided on the mounting bracket 20 and the second connecting part 11 being provided on the base 10 as an example, the first connecting part 21 can be integrally provided with the mounting bracket 20, or the first connecting part 21 can be separately provided with the mounting bracket 20 and connected to each other. Similarly, the second connecting part 11 can be integrally provided with the base 10, or the second connecting part 11 can be separately provided with the base 10 and connected to the mounting surface 17. For ease of description, the following explanation will use the example of the first connecting part 21 being provided on the mounting bracket 20 and the second connecting part 11 being provided on the base 10.

[0039] The first connecting portion 21 is configured to slide relative to the second connecting portion 11, so that the mounting assembly 100 can switch between a locked state and an unlocked state. When the mounting assembly 100 is in the locked state, the first connecting portion 21 and the second connecting portion 11 are connected to each other, so that the mounting bracket 20 is constrained on the base 10; when the mounting assembly 100 is in the unlocked state, the first connecting portion 21 and the second connecting portion 11 are disengaged, so that the mounting bracket 20 can be detached from the base 10.

[0040] One of the first connecting part 21 and the second connecting part 11 is provided with a guide slider 23a, and the other is provided with a locking groove 143a. When the first connecting part 21 slides relative to the second connecting part 11, so that the mounting assembly 100 is in a locked state, the guide slider 23a is engaged in the locking groove 143a to restrict the movement of the mounting bracket 20 relative to the base 10 in the first direction a. When the mounting assembly 100 is in an unlocked state, the guide slider 23a disengages from the locking groove 143a to release the restriction on the mounting bracket 20 in the first direction a.

[0041] In this application example, the guide slider 23a can be disposed on the first connecting part 21 and the locking groove 143a can be disposed on the second connecting part 11, or the guide slider 23a can be disposed on the second connecting part 11 and the locking groove 143a can be disposed on the first connecting part 21. For ease of description, the following description uses the example of the guide slider 23a being disposed on the first connecting part 21 and the locking groove 143a being disposed on the second connecting part 11. The guide slider 23a and the locking groove 143a are adapted to each other. When the first connecting part 21 slides relative to the second connecting part 11, so that the mounting assembly 100 is in a locked state, the guide slider 23a is engaged in the locking groove 143a to limit the mounting bracket 20 in the first direction a, thus restricting the mounting bracket 20 from moving relative to the base 10 in the first direction a. In this example, it is assumed that the mounting surface 17 of the base 10 is perpendicular to the horizontal plane, and the first direction a is parallel to the horizontal plane. When the guide slider 23a is engaged in the locking groove 143a, the cooperation between the guide slider 23a and the locking groove 143a can prevent the mounting bracket 20 from detaching from the base 10 along the first direction a. In some examples, the locking groove 143a can be a T-shaped groove or a trapezoidal groove formed by a protruding structure on the second connecting part 11. Optionally, the locking groove 143a can also be a recessed groove on the surface of the second connecting part 11. The guide slider 23a can be a protrusion on the first connecting part 21. The shape and size of the guide slider 23a are adapted to the locking groove 143a so that when the first connecting part 21 slides relative to the second connecting part 11, the guide slider 23a can slide and engage in the locking groove 143a.

[0042] One of the first connecting portion 21 and the second connecting portion 11 is provided with a first locking member 22, and the other is provided with a second locking member 121. The first locking member 22 is used to cooperate with the second locking member 121. When the first connecting portion 21 slides relative to the second connecting portion 11, so that the mounting assembly 100 is in a locked state, the first locking member 22 and the second locking member 121 are engaged with each other. The first locking member 22 and the second locking member 121 can be used to limit the displacement of the mounting bracket 20 relative to the base 10 in the second direction b. The second direction b is set at an angle to the first direction a, that is, the second direction b is not parallel to the first direction a; optionally, the first direction a can be set perpendicular to the second direction b.

[0043] In this example, the first locking member 22 can be disposed on the first connecting portion 21, and correspondingly, the second locking member 121 is disposed on the second connecting portion 11. Optionally, the first locking member 22 can also be disposed on the second connecting portion 11, and correspondingly, the second locking member 121 is disposed on the first connecting portion 21. For ease of description, the following description uses the example of the first locking member 22 being disposed on the first connecting portion 21 and the second locking member 121 being disposed on the second connecting portion 11. In this application example, one of the first locking member 22 and the second locking member 121 can be a protrusion, and the other can be a groove. The following description uses the example of the second locking member 121 being a groove. The second locking member 121 can be a groove opened on the second connecting portion 11. Optionally, the second locking member 121 can also be a groove formed by partial deformation of the second connecting portion 11.

[0044] When it is necessary to set the mounting component 100 to the unlocked state, the first connecting part 21 can be slid to separate the guide slider 23a from the locking groove 143a, and the first locking member 22 separates from the second locking member 121, thereby releasing the restriction on the mounting bracket 20 in the first direction a and the second direction b, so that the mounting bracket 20 can be detached from the base 10.

[0045] In this example, when the mounting component 100 is in the locked state, by restricting the position of the mounting bracket 20 from the first direction a and the second direction b, it is possible to prevent the mounting bracket 20 from moving away from the base 10. Furthermore, the first locking member 22 and the second locking member 121 can restrict the mounting bracket 20 from detaching from the base 10 along the second direction b, thus achieving locking of the mounting bracket 20 relative to the base 10. The mounting bracket 20 can serve as an intermediate connector between the camera component 200 and the base 10. When the mounting bracket 20 is locked to the base 10, the camera component 200 can also be locked at a preset position on the target plane. When the mounting component 100 is in the unlocked state, the mounting bracket 20 can detach from the base 10, thereby indirectly removing the camera component 200 from the target plane. In this example, it is not necessary to directly connect the camera component 200 to the target plane, which facilitates the quick assembly and disassembly of the camera component 200.

[0046] In some examples, the second locking member 121 can be a recess directly formed on the second connecting part 11, and the first locking member 22 can be a protrusion on the first connecting part 21. The first locking member 22 and the second locking member 121 can be inserted into each other so that they are locked together.

[0047] In some examples, the first locking member 22 is provided on the first connecting part 21, the second connecting part 11 is provided with an elastic support member 12, and the second locking member 121 is provided on the elastic support member 12. When the mounting bracket 20 is connected to the base 10, the first locking member 22 is elastically engaged in the second locking member 121.

[0048] The elastic support 12 can be an elastic buckle, an elastic metal sheet, or other structure that can elastically deform under external force and connected to the second connecting part 11. The second locking member 121 is disposed on the elastic support 12 so that when the mounting bracket 20 and the base 10 cooperate, the elastic support 12 can undergo a certain elastic deformation. When the first locking member 22 is engaged with the second locking member 121, the first locking member 22 can be subjected to the elastic force of the elastic support 12. When the mounting bracket 20 is disassembled, the elastic support 12 deforms under external force, making it easier for the first locking member 22 and the second locking member 121 to disengage, thereby improving the detachability of the mounting bracket 20. The second locking member 121 can be a groove formed on the surface of the elastic support 12; alternatively, the second locking member 121 can also be a groove formed by the partial bending deformation of the elastic support 12.

[0049] In some examples, the first locking member 22 and the guide slider 23a are disposed on the first connecting portion 21, and the second locking member 121 and the locking groove 143a are disposed on the second connecting portion 11; or, the first locking member 22 and the locking groove 143a are disposed on the first connecting portion 21, and the second locking member 22 and the guide slider 23a are disposed on the second connecting portion 11; a first supporting protrusion 13 is provided on the second connecting portion 11, one end of the elastic support member 12 is connected to the end of the first supporting protrusion 13 away from the second connecting portion 11, and the other end of the elastic support member 12 is suspended relative to the second connecting portion 11, and the second locking member 121 is disposed on the end of the elastic support member 12 away from the first supporting protrusion 13. The first supporting protrusion 13 is a protruding structure protruding from the surface of the second connecting portion 11. In this example, the first supporting protrusion 13 can be integrally disposed with the second connecting portion 11, or the first supporting protrusion 13 can be separately disposed from the second connecting portion 11 and connected to each other. One end of the elastic support 12 is connected to the end of the first support protrusion 13 away from the second connecting portion 11, so that there is a gap between the elastic support 12 and the surface of the second connecting portion 11; the other end of the elastic support 12 is suspended relative to the second connecting portion 11, so that the elastic support 12 is suspended entirely outside the second connecting portion 11. The second locking member 121 is disposed at the end of the elastic support 12 away from the first support protrusion 13. In some examples, when the mounting assembly 100 is in the locked state, the first locking member 22 can be sleeved on the outside of the elastic support 12. In some examples, the first locking member 22 can protrude toward the fixing surface 16 of the base 10, and when the mounting assembly 100 is in the locked state, the elastic support 12 can protrude to the fixing surface 16 of the base 10, and the second locking member 121 and the first locking member 22 can be engaged with each other.

[0050] In some examples, the first locking member 22 is located on the side of the first connecting portion 21 opposite to the second connecting portion 11, the mounting assembly 100 is in a locked state, and the base 10 is located between the elastic support member 12 and the second connecting portion 11. Optionally, the elastic support member 12 has a length direction, which extends along the second direction b to lengthen the elastic support member 12, making it easier for the second locking member 121 to approach the geometric center of the base 10.

[0051] In this example, the elastic support 12 can be suspended outside the second connecting part 11. There is a gap between the elastic support 12 and the second connecting part 11, and the length direction of the elastic support 12 extends along the second direction b. The mounting bracket 20 can be aligned with the base 10, and the mounting bracket 20 can be moved along the second direction b so that the base 10 is embedded in the gap between the elastic support 12 and the second connecting part 11. Continue to move the mounting bracket 20 along the second direction b until the first locking member 22 is engaged in the second locking member 121 so that the mounting assembly 100 is in a locked state.

[0052] In some examples, a first support protrusion 13 protrudes from the second connecting portion 11, a locking groove 143a is provided on the first support protrusion 13, a guide slider 23a is provided on the first connecting portion 21, and a relief groove 27 is provided on the first connecting portion 21 so that the first support protrusion 13 is at least partially inserted into the relief groove 27, and the first support protrusion 13 slides relative to the first connecting portion 21 so that the guide slider 23a is engaged in the locking groove 143a, and the mounting assembly 100 switches from the unlocked state to the locked state. The locking groove 143a is provided on the first support protrusion 13, which means that a countersunk groove is opened on the first support protrusion 13 to form the locking groove 143a, or a structure such as a rib 141 is provided on the first support protrusion 13, and the groove formed by the rib 141 serves as the locking groove 143a. In this example, the clearance groove 27 can form a space to accommodate the first support protrusion 13, so that the first support protrusion 13 can be embedded in the clearance groove 27 to shorten the distance between the first connecting part 21 and the second connecting part 11.

[0053] In some examples, the first support protrusion 13 is partially bent along the second direction b to form the second support protrusion 14, the second support protrusion 14 extends along the second direction b, and the locking groove 143a is connected to the second support protrusion 14; when the mounting assembly 100 is in the locked state, the second support protrusion 14 is at least partially inserted into the relief groove 27, and the guide slider 23a is locked in the locking groove 143a along the second direction.

[0054] The second support protrusion 14 is a protruding structure formed on the second connecting portion 11. In this application example, the second support protrusion 14 can be integrally formed with the second connecting portion 11, or the second support protrusion 14 can be separately formed from the second connecting portion 11 and interconnected. The second support protrusion 14 extends along the second direction b, which means that the length or width of the second support protrusion 14 can extend along the second direction b. The second support protrusion 14 is provided with a locking groove 143a. The locking groove 143a can be a recess formed by a protruding rib 141 protruding from the second support protrusion 14, or it can be a recess formed on the second support protrusion 14. In this example, the second support protrusion 14 extends along the second direction b. When the first connecting part 21 and the second connecting part 11 are engaged, the second support protrusion 14 can be inserted into the clearance groove 27, and the mounting bracket 20 can be moved along the second direction b, causing the first connecting part 21 to move relative to the second connecting part 11. When the first locking member 22 is engaged in the second locking member 121, the guide slider 23a is engaged in the locking groove 143a. On the one hand, the guide slider 23a limits the movement direction of the second support protrusion 14, allowing the second support protrusion 14 to move along a preset trajectory, thereby improving the directionality of the mounting bracket 20 when moving relative to the base 10. On the other hand, through the cooperation of the locking groove 143a and the guide slider 23a, the mounting bracket 20 is restricted from disengaging from the base 10 along the first direction a, thereby achieving the locking of the mounting assembly 100. In this example, the size and position of the guide slider 23a can be determined according to the size of the clearance groove 27 and the sizes of the first support protrusion 13 and the second support protrusion 14.

[0055] In some examples, there are two locking slots 143a, which are respectively disposed on both sides of the first support protrusion 13 along the third direction c. The third direction c is set at an angle to the plane formed by the first direction a and the second direction b. Optionally, the first direction a, the second direction b, and the third direction c can be perpendicular to each other. Optionally, the first support protrusion 13 is partially bent along the second direction b to form a second support protrusion 14. There are two second support protrusions 14, which are respectively disposed on both sides of the first support protrusion 13 along the third direction c. Locking slots 143a are respectively disposed on the opposing surfaces of the two second support protrusions 14. In this example, the two second support protrusions 14 are spaced apart, and the first support protrusion 13 can be located between the two second support protrusions 14. The locking slots 143a on the two second support protrusions 14 can limit the displacement of the mounting bracket 20 from both sides to further improve the directionality of the mounting bracket 20 during installation. In this example, the size and position of the slots 143a on the two second support protrusions 14 can be the same or different.

[0056] In some examples, a rib 141 is provided on the first support protrusion 13, and a gap exists between the rib 141 and the surface of the second connecting portion 11, forming a locking groove 143a. The rib 141 can extend along the second direction b. The gap between the rib 141 and the surface of the second connecting portion 11 means that the rib 141 does not directly adhere to the surface of the second connecting portion 11, so that the locking groove 143a is formed between the rib 141 and the surface of the second connecting portion 11. In the example of this application, the length of the rib 141 can be determined according to the length of the guide slider 23a and the installation requirements of the mounting bracket 20 and the base 10. Once the length of the rib 141 is determined, the length of the locking groove 143a can be determined. Optionally, the first support protrusion 13 is partially bent along the second direction b to form a second support protrusion 14, and the rib 141 is provided on the second support protrusion 14.

[0057] In some examples, one end of the rib 141 is bent toward the second connecting portion 11 to form a second stop portion 142. When the guide slider 23a is engaged in the locking groove 143a, the guide slider 23a can abut against the second stop portion 142. When the first locking member 22 is engaged in the second locking member 121, the second stop portion 142 is used to block the guide slider 23a to limit the maximum range of movement of the mounting bracket 20 relative to the base 10.

[0058] Please see Figure 6 In some examples, a third stop 15 is provided on the mounting surface 17. When the mounting bracket 20 is mounted on the base 10, the edge of the mounting bracket 20 abuts against the third stop 15. The third stop 15 can be a protruding structure protruding from the mounting surface 17, and the third stop 15 is used to limit the mounting position of the mounting bracket 20. When the mounting assembly 100 is in the locked state, the edge of the mounting bracket 20 is blocked by the third stop 15, so that the mounting bracket 20 cannot continue to move relative to the base 10. In this example, the third stop 15 can be a protrusion protruding from the mounting surface 17, and the third stop 15 can also have the same contour shape as the edge of the mounting bracket 20.

[0059] In some examples, the mounting bracket 20 has a third stop 15 on the side facing the base 10, and when the mounting bracket 20 is installed on the base 10, the edge of the base 10 abuts against the third stop 15. In this example, the third stop 15 can be a protrusion on the side of the mounting bracket 20 facing the base 10, which blocks the relative position of the mounting bracket 20 and the base 10.

[0060] Please see Figure 7 and Figure 8This application also discloses another example of the connection method between the first connecting part 21 and the second connecting part, wherein the guide slider 23b is disposed on the second connecting part 11, the locking groove 143b is disposed on the first connecting part 21, and the first connecting part 21 is provided with a relief groove 27, which is configured to communicate with the locking groove 143b so that the guide slider 23b slides from the relief groove 27 to the locking groove 143b, and the mounting assembly 100 switches from the unlocked state to the locked state. In this example, a baffle 18 can be provided on the first connecting part 21, the baffle 18 protruding into the relief groove 27, and the thickness of the baffle 18 along the first direction a is less than the depth of the relief groove 27 along the first direction a. By utilizing the thickness difference between the baffle 18 and the relief groove 27, the locking groove 143b is formed inside the relief groove 27. In this example, when the mounting assembly 100 is in the locked state, the baffle 18 can be positioned closer to the base 10, so that a locking groove 143b is formed between the side of the baffle 18 facing away from the base and the inner wall of the clearance groove 27. After the guide slider 23b is inserted into the clearance groove 27, the guide slider 23b can slide from the clearance groove 27 into the locking groove 143b, thereby locking the guide slider 23b into the locking groove 143b, thus restricting the movement of the mounting bracket 20 relative to the base 10 in the first direction a, and locking the mounting assembly 100. In some examples, the guide slider 23b is at least partially suspended outside the second connecting portion 11, and one end of the guide slider 23b is bent toward the surface of the second connecting portion 11 to form a second stop portion 142. When the guide slider 23b is locked into the locking groove 143b, the baffle 18 can abut against the second stop portion 142 to limit the position of the baffle 18 by the second stop portion 142.

[0061] Building upon the previous example, in some examples, a first support protrusion 13 is provided on the second connecting portion 11, and a guide slider 23b is disposed on the first support protrusion 13. When the mounting assembly 100 is in the locked state, the first support protrusion 13 is inserted into the clearance groove 27, and the first support protrusion 13 moves relative to the first connecting portion 21, causing the guide slider 23b to engage in the locking groove 143b, thus locking the mounting assembly 100. The clearance groove 27 can be a recessed groove or a through groove formed on the first connecting portion 21, and can be used to create a space to accommodate the first support protrusion 13. When the mounting assembly 100 is in the locked state, the first support protrusion 13 is inserted into the clearance groove 27, making the distance between the first connecting portion 21 and the second connecting portion 11 smaller, which helps to improve the stability of the connection between the mounting bracket 20 and the base 10. In some examples, the clearance groove 27 can be used to restrict the movement of the guide slider 23b along a third direction c, which is set at an angle to the planes formed by the first direction a and the second direction b respectively. In some examples, the third direction c is perpendicular to the first direction a and the second direction b respectively. In this application example, by restricting the movement of the mounting bracket 20 relative to the base 10 in the first direction a, the second direction b and the third direction c, the mounting bracket 20 can remain stable relative to the base 10 when the mounting assembly 100 is in the locked state, thereby keeping the camera assembly 200 in a relatively stable state when the camera assembly 200 is mounted on the mounting bracket 20.

[0062] Please see Figure 1 and Figure 2 Based on the aforementioned mounting component 100, this application also proposes an example of a camera device 1000. The camera device 1000 includes a camera component 200 and a mounting component 100 as described in any of the above examples. The camera component 200 is connected to a mounting bracket 20, which is slidably connected to a base 10, allowing the mounting component 100 to switch between a locked and unlocked state. The camera component 200 can be a component to be mounted. In this example, the mounting bracket 20 and the base 10 can serve as intermediate connectors between the camera component 200 and the target plane. When it is necessary to disassemble the camera component 200, the mounting bracket 20 can be directly detached from the base 10. Optionally, in this example, the camera component 200 can be integrally mounted with the mounting bracket 20, or it can be separately mounted from the mounting bracket 20 and connected to each other.

[0063] In some examples, the mounting bracket 20 has a first surface 24 facing away from the base 10 and a second surface 25 facing the base 10, with a side surface 26 connecting the first surface 24 and the second surface 25. At least one of the first surface 24 and the side surface 26 is on which the camera assembly 200 is mounted. The first surface 24 and the second surface 25 are two opposing planes on the mounting bracket 20, and the side surface 26 connects the first surface 24 and the second surface 25. When the mounting assembly 100 is locked, the second surface 25 of the mounting bracket 20 faces the base 10. In this example, the camera assembly 200 can be mounted on either the first surface 24 or the side surface 26 of the mounting bracket 20, or the camera assembly 200 can be mounted on both the first surface 24 and the side surface 26 of the mounting bracket 20.

[0064] In some examples, the camera assembly 200 is movably connected to the mounting bracket 20. In this example, the camera assembly 200 can be interconnected by snap-fit, pin-fit, or other means to facilitate the mutual disassembly and detachment of the camera assembly 200 from the mounting bracket 20.

[0065] In some examples, the camera assembly 200 is ball-jointed to the mounting bracket 20. In this example, the ball-joint connection allows for easy adjustment of the relative angle between the camera assembly 200 and the mounting bracket 20.

[0066] In some examples, the camera assembly 200 includes a main body 210 and a connecting buckle 220, which are detachably connected. The connecting buckle 220 is connected to the mounting bracket 20. The main body 210 can be the part of the camera assembly 200 used for recording; the connecting buckle 220 can serve as an intermediate connector between the main body 210 and the mounting bracket 20, allowing the main body 210 to be directly detached from the connecting buckle 220 when disassembling it. In this example, the connecting buckle 220 is detachably connected to the mounting bracket 20.

[0067] The above are merely embodiments of this application and do not limit the scope of this patent application. Any equivalent structural or procedural changes made using the content of this application's specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the scope of patent protection of this application.

Claims

1. A mounting assembly for securing a component to be installed, characterized in that, The installation components include: A base, the base being used for connection to a target plane; and A mounting bracket is installed on one side of the base along the first direction, and the mounting bracket is used to fix the part to be installed; The mounting bracket and the base are provided with a first connecting part and a second connecting part, respectively. One of the first connecting part and the second connecting part is provided with a first locking member and the other with a second locking member. One of the first connecting part and the second connecting part is provided with a guide slider and the other with a locking groove. The first connecting portion is configured to slide relative to the second connecting portion to switch the mounting assembly between a locked state and an unlocked state; wherein, In the locked state, the guide slider engages with the locking slot to limit the mounting bracket in the first direction, and the first locking member and the second locking member engage to limit the mounting bracket in the second direction, with an included angle between the first direction and the second direction; In the unlocked state, the guide slider is separated from the locking slot, and the first locking member is separated from the second locking member.

2. The mounting assembly as described in claim 1, characterized in that, The guide slider is disposed on the second connecting part, the locking slot is disposed on the first connecting part, and the first connecting part is provided with an avoidance groove. The avoidance groove is configured to communicate with the locking slot so that the guide slider slides from the avoidance groove to the locking slot, and the mounting component switches from the unlocked state to the locked state.

3. The mounting assembly as described in claim 1, characterized in that, The first locking member is disposed on the first connecting part, the second connecting part is provided with an elastic support member, the second locking member is disposed on the elastic support member, and the installation assembly is in a locked state, with the first locking member and the second locking member elastically engaged.

4. The mounting assembly as described in claim 3, characterized in that, The second connecting portion is provided with a first supporting protrusion. One end of the elastic support member is connected to the end of the first supporting protrusion away from the second connecting portion. The other end of the elastic support member is suspended relative to the surface of the second connecting portion. The second locking member is provided at the end of the elastic support member away from the first supporting protrusion.

5. The mounting assembly as described in claim 1, characterized in that, The second connecting part is provided with a first supporting protrusion, the locking groove is provided on the first supporting protrusion, the guide slider is provided on the first connecting part, and the first connecting part is provided with an avoidance groove so that the first supporting protrusion is at least partially inserted into the avoidance groove, and the first supporting protrusion slides relative to the first connecting part so that the guide slider is locked in the locking groove, and the installation component switches from the unlocked state to the locked state.

6. The mounting assembly as described in claim 5, characterized in that, The number of the locking slots is two, and the two locking slots are respectively located on both sides of the first support protrusion along the third direction. The third direction is set at an angle to the plane formed by the first direction and the second direction.

7. The mounting assembly as described in claim 5, characterized in that, The first support protrusion is provided with a rib, and there is a gap between the rib and the surface of the second connecting part, the gap forming the locking groove.

8. The mounting assembly as claimed in claim 7, characterized in that, One end of the rib is bent toward the second connecting part to form a second stop. When the guide slider is engaged in the slot, the guide slider can abut against the second stop.

9. The mounting assembly as claimed in any one of claims 1 to 8, characterized in that, A third stop is provided on the mounting surface. When the mounting assembly is in a locked state, the edge of the mounting bracket abuts against the third stop. Alternatively, a third stop is provided on the side of the mounting bracket facing the base. When the mounting assembly is in a locked state, the edge of the base abuts against the third stop.

10. A camera device, characterized in that, include: Camera components; as well as The mounting assembly as described in any one of claims 1 to 9, wherein the camera assembly is connected to the mounting bracket, and the mounting bracket is slidably connected to the base to allow the mounting assembly to switch between a locked state and an unlocked state.