WO2024022153A1

WO2024022153A1 - Camera device and universal adjustment frame

Info

Publication number: WO2024022153A1
Application number: PCT/CN2023/107816
Authority: WO
Inventors: Yongda YUAN; Wenxing HE; Liang Xu; Yatao TIAN; Jinfu Huang
Original assignee: Zhejiang Dahua Technology Co., Ltd.
Priority date: 2022-07-29
Filing date: 2023-07-18
Publication date: 2024-02-01

Abstract

An universal adjustment frame (100). The universal adjustment frame may include: a first adjustment component (10), including a first adjustment frame (12) and a first connecting structure (121) arranged on the first adjustment frame; and an adapting component(40), including an adapting frame(42) and a second connecting structure(421) arranged on the adapting frame; wherein the first connecting structure and the second connecting structure may be configured to connect with each other. A camera device (300), comprises a camera (200) and the universal adjustment frame.

Description

CAMERA DEVICE AND UNIVERSAL ADJUSTMENT FRAME

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to the Chinese Patent Application No. 202222028166.7, filed on July 29, 2022, and Chinese Patent Application No. 202210911065.6, filed on July 29, 2022, the contents of each of which are hereby incorporated by reference.

TECHNICAL FIELD

The present disclosure relates to a camera device technology field, in particular, relates to a camera device and a universal adjustment frame.

BACKGROUND

Currently, in a field of video surveillance, in particular, in a field of intelligent transportation, a surveillance camera is generally installed on a frame, which generally requires multi-directional adjustment functions to meet a monitoring range of the camera. However, the installation of the universal adjustment frame used for the camera is very inconvenient currently. For example, small screws are easily lost during transportation or installation, which brings unnecessary trouble to the installation of the universal adjustment frame and affects installation efficiency. In addition, the screws connecting the camera to the universal adjustment frame generally need to be locked from bottom to top, and an operating space for screwing in the screws is very limited, resulting in extremely low installation efficiency.

Therefore, it is desired to provide a universal adjustment frame to install the camera conveniently and efficiently.

SUMMARY

According to an aspect of the present disclosure, a video encoding method may be provided. The method may include: obtaining current template reconstruction data, the current template reconstruction data including reconstruction pixel data of a current template region in a current frame related to a current encoding block; obtaining reference template reconstruction data, the reference template reconstruction data including reconstruction pixel data of a reference template region in a reference frame related to a reference encoding block, the current template region corresponding to the reference template region; obtaining a prediction value adjustment model of the current encoding block based on the current template reconstruction data and the reference template reconstruction data; obtaining an initial prediction value of the current encoding block; determining a target prediction value by adjusting, based on the initial prediction value, the initial prediction value according to the prediction value adjustment model; and determining encoding data of the current encoding block based on the target prediction value.

According to another aspect of the present disclosure, a video encoding system may be provided. The system may include: at least one storage medium, the storage medium including an instruction set for a video encoding; at least one processor, the at least one processor being in communication with the at least one storage medium, wherein, when executing the instruction set, the at least one processor is configured to: obtain current template reconstruction data, the current template reconstruction data including reconstruction pixel data of a current template region in a current frame related to a current encoding block; obtain reference template reconstruction data, the reference template reconstruction data including reconstruction pixel data of a reference template region in a reference frame related to a reference encoding block, the current template region corresponding to the reference template region; obtain a prediction value adjustment model of the current encoding block based on the current template reconstruction data and the reference template reconstruction data; obtain an initial prediction value of the current encoding block; determine a target prediction value by adjusting, based on the initial prediction value, the initial prediction value according to the prediction value adjustment model; and determine encoding data of the current encoding block based on the target prediction value.

BRIEF DESCRIPTION OF THE DRAWINGS

This specification will be further illustrated by way of exemplary embodiments, which will be described in detail with the accompanying drawings. These examples are non-limiting, and in these examples, the same number indicates the same structure, wherein:

FIG. 1 is a schematic diagram illustrating an exemplary structure of a camera device according to some embodiments of the present disclosure;

FIG. 2 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame according to some embodiments of the present disclosure;

FIG. 3 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame according to some embodiments of the present disclosure;

FIG. 4 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame removing an adapting component according to some embodiments of the present disclosure;

FIG. 5 is a schematic diagram illustrating an exemplary decomposition structure of a universal adjustment frame according to some embodiments of the present disclosure;

FIG. 6 is a schematic diagram illustrating an exemplary decomposition structure of a first lock and a locking member according to some embodiments of the present disclosure;

FIG. 7 is a schematic diagram illustrating an exemplary decomposition structure of an adapting component according to some embodiments of the present disclosure;

FIG. 8 is a schematic diagram illustrating an exemplary cross-sectional structure of a universal adjustment frame according to some embodiments of the present disclosure;

FIG. 9 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame according to other embodiments of the present disclosure;

FIG. 10 is a schematic diagram illustrating an exemplary structure of an adapting component according to some embodiments of the present disclosure;

FIG. 11 is a schematic diagram illustrating an exemplary decomposition structure of a universal adjustment frame according to some embodiments of the present disclosure;

FIG. 12 is a schematic diagram illustrating an exemplary structure of a fastening member according to some embodiments of the present disclosure;

FIG. 13 is a schematic diagram illustrating an exemplary top-view structure of a universal adjustment frame according to some embodiments of the present disclosure;

FIG. 14 is a schematic diagram illustrating an exemplary cross-sectional structure of the universal adjustment frame along a BB direction as shown in FIG. 13 according to some embodiments of the present disclosure;

FIG. 15 is a schematic diagram illustrating an exemplary structure of a first adjustment frame according to some embodiments of the present disclosure;

FIG. 16 is a schematic diagram illustrating an exemplary top-view structure of a first adjustment frame according to some embodiments of the present disclosure;

FIG. 17 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame according to some embodiments of the present disclosure; and

FIG. 18 is a schematic diagram illustrating an exemplary assembly structure of an adapting frame and a universal adjustment frame according to some embodiments of the present disclosure.

DETAILED DESCRIPTION

In order to more clearly illustrate the technical solutions of the embodiments of the present specification, the following briefly introduces the drawings that need to be used in the description of the embodiments. Apparently, the accompanying drawings in the following description are only some examples or embodiments of this specification, and those skilled in the art can also apply this specification to other similar scenarios. Unless obviously obtained from the context or the context illustrates otherwise, the same numeral in the drawings refers to the same structure or operation.

It should be understood that "system" , "device" , "unit" and/or "module" as used herein is a method for distinguishing different components, elements, parts, parts or assemblies of different levels. However, the words may be replaced by other expressions if other words can achieve the same purpose.

As indicated in the specification and claims, the terms "a" , "an" , "an" and/or "the" are not specific to the singular and may include the plural unless the context clearly indicates an exception. Generally speaking, the terms "comprising" and "comprising" only suggest the inclusion of clearly identified steps and elements, and these steps and elements do not constitute an exclusive list, and the method or device may also contain other steps or elements.

FIG. 1 is a schematic diagram illustrating an exemplary structure of a camera device according to some embodiments of the present disclosure; FIG. 2 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame according to some embodiments of the present disclosure; and FIG. 3 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame according to some embodiments of the present disclosure.

In some embodiments, as shown in FIGs. 1 and 3, a camera device 300 may include a camera 200 and a universal adjustment frame 100, the camera 200 may be connected with an adapting frame 42 of the universal adjustment frame 100, and the universal adjustment frame 100 may be configured to adjust a location and an orientation of the camera 200.

The camera 200 may be a gun type camera or a spherical camera, or the like. The universal adjustment frame 100 may include functions of adjusting at least one of a pitch angle, a yaw angle, and a roll angle of the camera 200 to meet a monitoring range required by the camera 200.

In some embodiments, as shown in FIGs. 2 and 3, the universal adjustment frame 100 may include a first adjustment component 10, a second adjustment component 20, a third adjustment component 30, and an adapting component 40. The first adjustment component 10, the second adjustment component 20, and the third adjustment component 30 may achieve one of the functions of pitch angle adjustment, yaw angle adjustment, and roll angle adjustment, respectively. The adapting component 40 may be configured to connect the camera 200 to achieve a quick connection function with the first adjustment component 10, so that the installation efficiency can be improved and the installation difficulty can be reduced.

In some embodiments, the universal adjustment frame 100 may further include a first adjustment component 10, an adapting component 40, and a spherical joint component. The adapting component 40 may be connected with the first adjustment component 10, and the first adjustment component 10 may be connected with the spherical joint component, so that the first adjustment component 10 can adjust a pitch angel and yew angle relative to the spherical joint component, and the spherical joint component can carry the first adjustment component 10 for roll angle adjustment.

In some embodiments, as shown in FIG. 2, the universal adjustment frame 100 may include a first adjustment component 10 and an adapting component 40. In some embodiments, as shown in FIG. 2, the first adjustment component 10 may include a first adjustment frame 12 and a first connecting structure 121 arranged on the first adjustment frame 12; the adapting component 40 may include an adapting frame 42 and a second connecting structure 421 arranged on the adapting frame 42; wherein the first connecting structure 121 and the second connecting structure 421 may be configured to connect with each other. It should be noted that illustrations of various components in FIG. 2 (e.g., the first connecting structure 121 and the second connecting structure 421) are only for illustration purposes and do not represent the true structure, which may be various different structures as detailed in the following descriptions.

FIG. 4 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame removing an adapting component according to some embodiments of the present disclosure; FIG. 5 is a schematic diagram illustrating an exemplary decomposition structure of a universal adjustment frame according to some embodiments of the present disclosure; FIG. 6 is a schematic diagram illustrating an exemplary decomposition structure of a first lock and a locking member according to some embodiments of the present disclosure; FIG. 7 is a schematic diagram illustrating an exemplary decomposition structure of an adapting component according to some embodiments of the present disclosure; and FIG. 8 is a schematic diagram illustrating an exemplary cross-sectional structure of a universal adjustment frame according to some embodiments of the present disclosure.

In some embodiments, as shown in FIGs. 4, 5, and 7, the first connecting structure may include at least one first lock 14 arranged on the first adjustment frame 12, the second connecting structure may include at least one second lock 44 arranged on the adapting frame 42, and the second lock 44 may correspond to the first lock 14; wherein the first adjustment frame and the adapting frame 42 may be in insertion connection, so that the first lock 14 is in locking connection with the second lock 44.

In some embodiments, during an insertion process of the first adjustment frame 12 and the adapting frame 42, the first lock 14 and the second lock 44 may be in locking connection to achieve self-locking, thereby conveniently installing the camera 200 on the universal adjustment frame 100.

In some embodiments, the installation process may include the follows: fixing the adapting frame 42 to one side of the camera 200 through screws and other fastening members, and installing the first adjustment component 10 onto the adapting frame 42, to install the camera 200 on the universal adjustment frame 100.

During the installation process, a user may plug the adapting frame 42 onto the first adjustment frame 12, so that the camera will not fall off without screws, achieving single person installation.

In some embodiments, the first adjustment frame 12 may be provided with two first locks 14, and the two first locks 14 may be arranged at both ends of the first adjustment frame 12, respectively, and the adapting frame 42 may be correspondingly provided with two second locks 44.

In some embodiments, as shown in FIGs. 4 and 5, the first adjustment frame 12 and/or the adapting frame 42 may be provided with a first installation slot 120, and the adapting frame 42 and the first adjustment frame 12 may be in insertion connection through the first installation slot 120. At least a portion of the adapting frame 42 and/or the first adjustment frame 12 are in insertion connection with the first installation slot 120.

In some embodiments, as shown in FIG. 4, the first adjustment frame 12 may be provided with a first installation slot 120, and the adapting frame 42 and the first installation slot 120 on the first adjustment frame 12 may be in insertion connection. In some embodiments, the adapting frame 42 may be accommodated within the first installation slot 120 to increase connection stability.

In some embodiments, the adapting frame 42 may be provided with a first installation slot 120, and the first adjustment frame 12 and the first installation slot 120 on the adapting frame 42 may be in insertion connection.

In some embodiments, as shown in FIGs. 3, 4, and 5, the first adjustment frame 12 and the adapting frame 42 may be further connected through the first fastening member 51 after locking and connecting the first lock 14 and the second lock 44, thereby further increasing stability of a connection between the camera 200 and the universal adjustment frame 100 and effectively reducing the risk of the camera 200 falling.

In some embodiments, the first fastening member 51 may connect the first adjustment frame 12 and the adapting frame 42 from a peripheral side of the first adjustment frame 12 and the adapting frame 42, avoiding the installation of the first fastening member 51 from a bottom of the camera 200 upwards to fix the camera 200 to the universal adjustment frame 100, facilitating the user installation and effectively improving installation efficiency. The first fastening member 51 may include screws, bolts, pins, or the like.

In some embodiments, as shown in FIGs. 4 and 7, the first adjustment frame 12 and the adapting frame 42 may move along a first direction A and achieve the insertion connection, and at least one of the first lock 14 and the second lock 44 may be arranged movably along a second direction B perpendicular to the first direction A to achieve the locking connection by moving along the second direction B.

The first lock 14 or the second lock 44 may be movably arranged along the second direction B, or both the first lock 14 and the second lock 44 may be movably arranged along the second direction B.

In some embodiments, the second lock 44 may be arranged movably on the adapting frame 42 along the second direction B. When the adapting frame 42 and the first installation slot 120 on the first adjustment frame 12 are in the insertion connection, the second lock 44 may be pushed by compression and move close to the adapting frame 42 along the second direction B. The second lock 44 may be squeezed and avoid the first lock 14, after the adapting frame 42 moves until the component (e.g., the first lock 14) that applies pressure to the second lock 44 no longer contacts the second lock 44, a squeezing force on the second lock 44 may be eliminated, and the second lock 44 may move away from the adapting frame 42 along the second direction B to perform the locking connection with the first lock 14.

For example, as shown in FIGs. 6 and 7, the first lock 14 may be provided with a first hook 140, the second lock 44 may be provided with a second hook 440, and the first hook 140 and the second hook 440 may be used for mutual hook connection.

During the insertion process of the first adjustment frame 12 and the adapting frame 42, the second lock 44 may move close to the adapting frame 42 along the second direction B, so that the second hook 440 is staggered relative to the first hook 140, and move away from the adapting frame 42 along the second direction B to perform the locking connection with the first hook 140.

In some embodiments, the first hook 140 may include a first guiding surface 141 and a first locking surface 142, the second hook 440 may include a second guiding surface 441 and a second locking surface 442, and the first guiding surface 141 and the second guiding surface 441 may be configured to guide each other when the first adjustment frame 12 and the adapting frame 42 are in the insertion connection along the first direction A to drive at least one of the first lock 14 or the second lock 44 to move along the second direction B, so that the first locking surface 142 and the second locking surface 442 form a stopping limitation in the first direction A, thereby avoiding the camera 200 from falling.

If at least one of the first lock 14 or the second lock 44 are movably arranged along the second direction B, when the first guiding surface 141 and the second guiding surface 441 are configured to guide each other, at least one of the first lock 14 or the second lock 44 may be drived to move along the second direction B and rebound afterward, so that the second locking surface 442 changes from a free state located above the first locking surface 142 to a locking state located below the first locking surface 142, that is to say, the first locking surface 142 and the second locking surface 442 may form a stopping limit in the first direction A.

In some embodiments, the first lock 14 and the second lock 44 may also be hooked or inserted along the first direction A; alternatively, the first lock 14 and the second lock 44 may be provided with a plug hole and a plug column, respectively.

In some embodiments, the first lock 14 and the second lock 44 may also be detachable to release the locking connection, thereby facilitating the disassembly of the camera 200 and the universal adjustment frame 100.

In some embodiments, as shown in FIG. 5, one of the first lock 14 and the second lock 44 may be movably arranged along the second direction B, while the other of the first lock 14 and the second lock 44 may be rotatable around a third direction C, and the third direction C may be perpendicular to the first direction A and the second direction B, that is, the first locking surface 142 and the second locking surface 442 may be released from the limitation along the first direction A, so that the first adjustment frame 12 is separated from the adapting frame 42 to remove the camera 200.

In some embodiments, as shown in FIGs. 6 and 8, the other of the first lock 14 and the second lock 44 may include a locking member 15, the locking member may be configured to lock the other of the first lock 14 and the second lock 44 to limit the rotation of the other of the first lock 14 and the second lock 44 around the third direction C or release the limitation of the rotation of the other of the first lock 14 and the second lock 44 around the third direction C.

The locking member 15 may be a fastening member such as a screw or pin. For example, the first lock 14 may be arranged rotatably on the first adjustment frame 12 around the third direction C. The locking member 15 connects the first lock 14 with the first adjustment frame 12 to stop the rotation of the first lock 14 relative to the first adjustment frame 12 along the third direction C and release the rotating limitation of the first lock 14 after the locking member 15 is removed; or, the second lock 44 may be arranged rotatably on the adapting frame 42 around the third direction C, the locking member 15 may connect the second lock 44 and the adapting frame 42 to stop the rotation of the second lock 44 relative to the adapting frame around the third direction and release the rotating limitation of the second lock 33 after the locking member 15 is removed.

In some embodiments, the locking member 15 may be movably arranged on the other of the first lock 14 and the second lock 44, the first adjustment frame 12 or the adapting frame 42 may be configured to be connected rotatably with the other of the first lock 14 and the second lock 44, and an insertion portion 122 may be arranged on the first adjustment frame 12 or the adapting frame 42. Through a relative movement between the locking member 15 and the insertion portion 122, an insertion relationship between the insertion portion 122 and the locking member 15 may be formed to lock the other of the first lock 14 and the second lock 44, or the insertion relationship between the locking member 15 and the insertion portion 122 may be released, which can improve the unlocking convenience between the first lock 14 and the second lock 44.

For example, the second lock 44 may be arranged movably on the adapting frame 42 along the second direction B, the first lock 14 may be arranged rotatably on the first adjustment frame 12 around the third direction C, and through a relative movement between the locking member 15 and the insertion portion 122, the insertion relationship between the first adjustment frame 12 and the locking member 15 may be formed or the insertion relationship between the insertion portion 122 and the locking member 15 may be released.

The insertion portion 122 may be a socket or a slot on the first adjustment frame 12, and an insertion relationship between the socket or slot and the locking member 15 may be formed.

In some embodiments, as shown in FIGs. 5 and 6, the first lock 14 may also be provided with a first elastic member 16, and the second lock 44 may be provided with a second elastic member 46.

In some embodiments, the locking member 15 may be slidably assembled with the first lock 14, the first elastic member 16 may be elastically compressed and arranged between the locking member 15 and the first lock 14, to provide an elastic support force for forming an insertion relationship between the locking member 15 and the insertion portion 122 on the first adjustment frame 12 and releasing the insertion relationship between the locking member 15 and the insertion portion 122; as shown in FIG. 6, the second elastic member 46 may be elastically compressed and arranged between the adapting frame 42 and the second lock 44 to provide an elastic support force, so that the second lock 44 can move back and forth along the second direction B.

In some embodiments, as shown in FIG. 6, the first lock 14 may be provided with a guiding column, the locking member 15 may be provided with a guiding slot that is matched with the guiding column, the locking member 15 may be provided with an installation hole, one end of the first elastic member 16 may be arranged in the installation hole, and the other end may be elastically connected with a support surface of the first lock 14. The first lock 14 may be provided with a cover plate 144, the cover plate 144 may be sealed at one end of the guiding column, the guide column may be located between a support surface of the cover plate 144 and the first lock 14, and the cover plate 144 may be provided with an avoidance hole 146 to avoid a gear shaping 153 of the locking member 15, wherein an insertion relationship may be formed between the gear shaping 153 extended out of the avoidance hole 146 and the insertion portion 122, the gear shaping 153 may push the locking member 15 to compress the first elastic member 16, so that the gear shaping 153 retracts relative to the avoidance hole 146, thereby releasing the insertion relationship between the gear shaping 153 and the insertion portion 122.

In some embodiments, as shown in FIG. 7, the adapting frame 42 may be provided with a sliding chamber 420 for a movable setting of the second lock 44, and the adapting fame 42 may be provided with a window (not shown in the figure) connecting the sliding chamber 420. The second lock 44 may be movably arranged in the sliding chamber 420, the second elastic member 46 may be elastically compressed and arranged between the second lock 44 and the sliding chamber 420, and a second hook 440 of the second lock 44 may extend outward from the window to connect with a first hook 140. The adapting frame 42 may be further provided with a cover plate 43, to cover the second lock 44 and the second elastic member 46.

In some embodiments, the second lock 44 may be arranged rotatably on the adapting frame 42 around the third direction, e.g., the locking member 15 may be slidably assembled with the second lock 44, the second elastic member 46 may be elastically compressed and arranged between the locking member 15 and the second lock 44 to provide an elastic support force for forming the insertion relationship between the locking member 15 and the insertion portion 122 on the adapting frame 42 and releasing the insertion relationship between the locking member 15 and the insertion portion 122; the first elastic member 16 may be elastically compressed and arranged between the adjustment frame 12 and the first lock to provide the elastic support force, so that the first lock 14 can move forth and back along the second direction B.

In some embodiments, as shown in FIGs. 6 and 8, an outer side of the locking member 155 arranged on the universal adjustment frame 100 may be provided with a pressed window 152 configured to compress the first elastic member 16 or the second elastic member 46 to release the insertion relationship between the locking member 15 and the insertion portion 122.

In some embodiments, the locking member 15 may be slidably assembled with the first lock 14, and an outer side of the locking member 15 arranged on the universal adjustment frame 100 may be provided with a pressed window 152 configured to compress the first elastic member 16.

In some embodiments, the first elastic member 16 and the second elastic member 46 may be compression springs or elastic columns, or the like.

For example, FIG. 3 shows a state in which the adapting component 40 and the first adjustment component 10 are connected, wherein the first adjustment frame 12 and the adapting frame 42 may be in insertion connection, so that the first lock 14 and the second lock 44 are in locking connection. The first fastening member 51 may connect the first adjustment frame 12 with the adapting frame 42 from a peripheral side of the first adjustment frame 12 and the adapting frame 42. FIG. 7 shows a state in which the adapting component 40 and the first adjustment component 10 are unlocking and disassembling after being connected. A user may release the insertion relationship between the gear shaping 153 of the locking member 15 and the insertion portion 122 by using the pressed window 152, and the first lock 14 may rotate around the third direction C to an outer side of the first adjustment frame 12 to unlock the locking connection between the first lock 14 and the second lock 44. At this time, the adapting component 40 may be separated from the first adjustment component 10.

In some embodiments, the first elastic member 16 and the second elastic member 46 may be unnecessary, for example, a structure for moving the locking member 15 may be arranged to move the locking member 15 along an elastic compression direction of the first elastic member 16; a structure for moving the second lock 44 may be arranged to move the second lock 44 along an elastic compression direction of the second elastic member 46 to control a locking connection relationship between the first lock 14 and the second lock 44. For example, the locking member 15 may be connected with a micro motor and control the locking member 15 to move along the elastic compression direction of the first elastic member 16 by controlling a motor, and the motor may be connected with the controller and other devices in communication to realize remote control of the locking member 15; the motor may also be controlled through a control button, the control button may be arranged on the universal adjustment frame 100, and the user may control the motor to move the locking member 15 by pressing the control button. For example, the first elastic member 16 may alternatively be arranged as an externally operable rod member, which may be pushed by the user to control the movement of the locking member; further, the rod may be self-locking. For example, a sidewall of the slot that passes through the rod may be provided with materials with a relatively high friction force, and the rod may be limited to any position in the slot by a friction force without external force. Therefore, the rod may only move under the user’s push rather than move by itself. The structure of moving the second lock 44 may be similar with the structure of moving the locking member 15, which may not be repeated herein.

In some embodiments, by limiting that the universal adjustment frame includes the first adjustment component and the adapting component, the first adjustment component may include a first adjustment frame and at least one first lock arranged on the first adjustment frame, and the adapting component may include an adapting frame and at least one second lock arranged on the adapting frame, the second lock may be arranged correspondingly with the first lock, and the first adjustment frame and the adapting frame may be limited to be in the insertion connection, so that the first lock and the second lock are in the locking connection. Therefore, during the installation process, the user only needs to make the adapting frame 42 and the first adjustment frame 12 in the insertion connection, the first lock 14 and the second lock 44 may realize the locking connection, the camera may not fall off without the need for screw fixation, which can make installation convenient and efficient, be installed by one person, and effectively reduce installation costs.

In some embodiments, as shown in FIGs. 4 and 5, the universal adjustment frame 100 may include a second adjustment component 20, the second adjustment component may include a second adjustment frame 22 and a first adjustment member 24, and the first adjustment member 24 may be connected with the first adjustment frame 12 and the second adjustment frame 22; the first adjustment member 24 may include a first locking state and a first adjustment state; the first adjustment member 24 may lock the first adjustment frame 12 and the second adjustment frame 22 in the first locking state, and the first adjustment frame 12 may be rotatably adjustable relative to the second adjustment frame 22 around a fourth direction D in the first adjustment state; the first adjustment frame 12 and the adapting frame 42 may be in the insertion connection along the first direction D, and the fourth direction D may be perpendicular to the first direction A.

The fourth direction D may be arranged in a same direction as the second direction B, or perpendicular to or at an angle to the second direction B. In some embodiments, the fourth direction D may be perpendicular to the second direction B.

In some embodiments, the first adjustment frame 12 may include a body 124 and a first adjustment plate 126 arranged on a side of the body 124 away from the adapting frame 42. The first lock 14 may be arranged on the body 124 with two first adjustment plates 126 arranged at intervals, and the count of first adjustment plates 126 may be one. The second adjustment frame 22 may include a supporting plate 222, a second adjustment plate 224, and a third adjustment plate 226 located on both sides of the supporting plate 222. The first adjustment member 24 may connect the first adjustment plate 126 and the second adjustment plate 224. The first adjustment member 24 may be a screw or a bolt, or the like.

The first adjustment plate 126 and the second adjustment plate 224 may be both provided with positioning holes, and one of positioning holes may be further with an arc-shaped adjustment hole. In some embodiments, the first adjustment plate 126 may be provided with a positioning hole and an arc-shaped adjustment hole, the second adjustment plate 224 may be provided with a plurality of positioning holes, and the plurality of first adjustment members 24 may connect positioning holes and arc-shaped adjustment holes on the first adjustment plate 126 and the second adjustment plate 224.

the first adjustment member 24 may be relatively loosened in the first adjustment state so that the first adjustment plate 126 and the second adjustment plate 224 are rotatable around an axis of the two positioning holes connected, that is, i.e., around the fourth direction D; after completing the adjustment, each first adjustment member 24 may be tightened to fix the first adjustment plate 126 and the second adjustment plate 224.

In some embodiments, as shown in FIGs. 4 and 5, the universal adjustment frame 100 may include a third adjustment component 30, the third adjustment component 30 may include a third adjustment frame 32 and a second adjustment member 34, and the second adjustment member 34 may connect the second adjustment frame 22 and the third adjustment frame 32; the second adjustment member 34 may include a second locking state and a second adjustment state, the second adjustment member 34 may lock the second adjustment frame 22 and the third adjustment frame 32 in the second locking state, and the second adjustment member 34 may be rotatably adjustable relative to the third adjustment frame 32 around a fifth direction E in the second adjustment state; the fifth direction E may be perpendicular to the first direction A and the fourth direction D. In some embodiments, the fifth direction E may be parallel to the second direction B.

The third adjustment frame 32 may include a horizontal adjustment plate 322 and a fourth adjustment plate 324 arranged on a side of the horizontal adjustment plate 322. The second adjustment member 34 may connect the third adjustment plate 226 and the fourth adjustment plate 324.

The second adjustment member 34 may be a screw or a bolt, or the like. The rotation adjustment manner of the third adjustment plate 226 and the fourth adjustment plate 324 may be the same as the rotation adjustment manner of the first adjustment plate 126 and the second adjustment plate 224, which may not be repeated herein.

Further, the third adjustment frame 32 may be used for rotating and adjusting around a sixth direction F to drive the second adjustment component 20, the first adjustment component 10, and the adapting component 40 to rotate around the sixth direction F, wherein the sixth direction F may be perpendicular to the fourth direction D and the fifth direction E.

The horizontal adjustment plate 322 may be provided with a positioning hole and arc-shaped adjustment holes arranged around the positioning hole, wherein the sixth direction F may be an axial direction of the positioning hole.

In some embodiments, the universal adjustment frame 100 may include a fixing frame 50 and a third adjustment member 52 (as shown in FIG. 16) , the fixing frame 50 may be configured to fix to support components such as a street lamp frame; the third adjustment member 52 may connect the third adjustment frame 32 and the fixing frame 50, i.e., the third adjustment member 52 may connect the horizontal adjustment plate 322 and the fixing frame 50, and the rotating connection manner may be the same as above, which may not be repeated herein. The third adjustment member 52 may include a third locking state and a third adjustment state, the third adjustment member 52 may lock the third adjustment frame and the fixing frame in the third locking state; the third adjustment frame 32 may rotatably adjustable relative to the fixing frame 50 around the sixth direction F in the third adjustment state.

FIG. 9 is a schematic diagram illustrating an exemplary structure of a universal adjustment frame according to other embodiments of the present disclosure. FIG. 10 is a schematic diagram illustrating an exemplary structure of an adapting component according to some embodiments of the present disclosure. FIG. 11 is a schematic diagram illustrating an exemplary decomposition structure of a universal adjustment frame according to some embodiments of the present disclosure.

In some embodiments, as shown in FIGs. 8, 9, and 10, the first connecting structure may include a second fastening member 54 and a second installation slot 613 located in the first adjustment frame 12, the second fastening member 54 may be arranged movably on a sidewall 614 of the second installation slot 613, the adapting frame 42 may be provided with a second connecting structure, and the second connecting structure may include a fitting hole 641, wherein at least a portion of the adapting frame 42 may be accommodated in the second installation slot 613, the fitting hole 641 may be aligned with the second fastening member 54, and the second fastening member 54 may be assembled with the fitting hole 641.

In some embodiments, at least a portion of the second fastening member 54 may be always accommodated in the second installation slot 613, thereby avoiding the detachment of the second fastening member 54 from the first adjustment component 10. The second fastening member 54 may be installed from a sidewall 614 of the first adjustment component 10 into the second installation slot 613, avoiding the phenomenon of insufficient installation space from the bottom to top, thereby improving installation efficiency.

The second fastening member 54 may be slidably or spirally arranged on the sidewall 614 of the second installation slot 613. For example, the second fastening member 54 may be a pin and the second fastening member 54 may be slidably installed on the sidewall 614; for example, the second fastening member 54 may be a screw, and the sidewall 614 may be provided with a threaded hole. The second fastening member 54 may be spirally installed in the threaded hole, so that the second fastening member 54 is flexibly arranged on the sidewall 614 in a retractable and movable manner.

In some embodiments, the first adjustment component 10 may further include a stopping member 615, the stopping member may be connected with the second fastening member 54. The stopping member 615 may be a clamp spring connected with the second fastening member 54 or a pin threaded through the second fastening member 54 to stop an inner wall surface of the sidewall 614, thereby retaining a portion of the second fastening member 54 on the sidewall 614 and integrating the portion of the second fastening member 54 with the first adjustment component 10.

FIG. 12 is a schematic diagram illustrating an exemplary structure of a fastening member according to some embodiments of the present disclosure. In some embodiments, as shown in FIGs. 11 and 12, the second fastening member 54 may be slidably arranged on the sidewall 614 of the second installation slot 613. The second fastening member 54 including a head 6121 and a rod 6122 may be a screw, which may be connected with one end of the head 6121, the rod 6122 may include a smooth rod section and a threaded section. The stopping member 615 may be a clamp spring connected with the rod section 6122, and a clamp slot 6123 corresponding to the clamp spring may be further provided on the rod section 6122. The second fastening member 54 may be slidably assembled into a sidewall 614 of the second installation slot 613 to connect the stopping member 615 with the clamp slot 6123. The stopping member 615 may stop on an inner wall surface of the sidewall 614, so that at least a portion of the second fastening member 54 may be partially accommodated in the second installation slot 613 without detaching from the first adjustment component 10, which can avoid the issue of the second fastening member 54 falling off easily before installation.

In some embodiments, the second fastening member 54 may be tightly fixed to the sidewall 614 through any other feasible structure, for example, the second fastening member 54 may have a relatively large tail size for fixation, which can enable integration with the first adjustment component 10.

n some embodiments, the second fastening member 54 may be integrated with the first adjustment component 10 through other manners. For example, the second fastening member 54 may be installed laterally on the first adjustment component 10 in a freely feasible fixing manner, which can avoid the issue of insufficient installation space from the bottom to top.

FIG. 13 is a schematic diagram illustrating an exemplary top-view structure of a universal adjustment frame according to some embodiments of the present disclosure; FIG. 14 is a schematic diagram illustrating an exemplary cross-sectional structure of a universal adjustment frame along a BB direction according to some embodiments of the present disclosure.

In some embodiments, as shown in FIGs. 13 and 14, the first adjustment component 10 may further include an elastic member 617, and the elastic member 617 may be various types of springs. The elastic member 617 may be sleeved on a rod 6122 of the second fastening member 54 and may be located between the sidewall 614 and a head 6121 of the second fastening member 54 to provide a pre-tightening force when the fitting hole 641 is in threaded connection with the rod 6122. After the fitting hole 641 is in threaded connection with the rod 6122, the elastic member 617 may gradually compress between the sidewall 614 and the head 6121, the elastic member 617 may be compressed to provide a pre-tightening force to the second fastening member 54, thereby improving the reliability and tightness of the connection between the second fastening member 54 and the adapting frame 42.

The elastic member 617 may be sleeved on the rod 6122. The elastic member 617 may be in a nature state in an initial state. The elastic member 617 may be compressed between the sidewall 614 and the head 6121 after connecting the rod 6122 with the fitting hole 641. An elastic force of the elastic member 617 may stop the stopping member 615 on an inner wall surface of the sidewall 614 to prevent the interference with the adapting frame 42 caused by the second fastening member 54 when the adapting frame 42 is assembled with the second installation slot 613 of the first adjustment frame 12.

In some embodiments, the elastic member 617 may be sleeved on the rod 6122 of the second fastening member 54, and one end of the elastic member 617 may be connected with a sidewall of the second installation slot 613, while the other end may be fixed to the second fastening member 54. The elastic member 617 may be compressed to provide a pre-tightening force to the second fastening member 54 while enhancing a connection between the second fastening member 54 and the second installation slot 613, which can further prevent the detachment.

In some embodiments, as show in FIGs. 13 and 14, the sidewall 614 may be provided with a first hole segment 6112 and a second hole segment 6113 that are arranged in a stepped manner. A diameter of the first hole segment 6112 may be smaller than a diameter of the second hole segment 6113, a diameter of the elastic member 617 may be greater than the diameter of the first hole segment 6112 and smaller than the diameter of the second hole segment 6113, a diameter of the rod 6122 may be smaller than the diameter of the first hole segment 6112, the second fastening member 54 may be slidably through the first hole segment 112 and the second hole segment 6113, at least a portion of the elastic member 617 may be accommodated in the second hole segment 6113, the second fastening member 54 may be slidably assembled into the sidewall 614, and the elastic member 617 may be stopped on the second hole segment 6113, causing a portion to be accommodated in the sidewall 614, reducing a damage rate of the elastic member 617 when exposed to the external air.

In some embodiments, as shown in FIG. 14, the elastic member 617 may be elastically compressed and arranged between a step surface of the first hole segment 6112 facing the second hole segment 6113 and a head of the second fastening member 54, and a portion of the elastic member 617 may be accommodated at the second hole segment 6113, the elastic force of the elastic member 617 may keep the stopping member 615 against an inner wall surface of the sidewall 614, so that the rod 6122 does not protrude too much from the second installation slot 613, which can avoid the phenomenon of the adapting frame 42 being blocked by the excessively long rod 6122 when inserting into the first adjustment frame 12, thereby improving the speed of assembling.

FIG. 15 is a schematic diagram illustrating an exemplary structure of a first adjustment frame according to some embodiments of the present disclosure.

In some embodiments, as shown in FIGs. 14 and 15, the sidewall 614 may be further provided with a third hole segment 6114, a diameter of the third hole segment 6114 may be greater than a diameter of the head 6121. The third hole segment 6114 may be configured to accommodate the head 6121, so that the second fastening member 54 is fully accommodated within the sidewall 614, thereby avoiding the second fastening member 54 and the elastic member 617 from being partially located outside the sidewall 614, so that both the second fastening member 54 and the elastic member 617 are located within the sidewall 614, which can reduce an exposure of the second fastening member 54 and elastic member 617 to external damage, thereby improving a service life of the second fastening member 54 and elastic member 617, and making the overall assembled sidewall 614 flatter and more aesthetically pleasing.

FIG. 16 is a schematic diagram illustrating another exemplary top-view structure of a first adjustment frame according to some embodiments of the present disclosure. FIG. 17 is a schematic diagram illustrating another exemplary structure of a universal adjustment frame according to some embodiments of the present disclosure.

In some embodiments, as shown in FIG. 16, the sidewall 614 of the second installation slot 613 may include a first wall body 6141 and a second wall body 6142 that are arranged at intervals. The second fastening member 54 may be slidably arranged on the first wall body 6141, and the elastic member 617 and the head 6121 may be sequentially arranged along a sliding direction. The elastic member 617 may be elastically compressed between the second wall body 6142 and the head 6121, which may cause the rod 6122 to partially insert into the second installation slot 613.

When the first adjustment frame 12 is assembled with the adapting frame 42, the adapting frame 42 may push against the rod 6122, causing the second fastening member 54 to compress the elastic member 617 to avoid the adapting frame 42. The elastic member 617 may drive the second fastening member 54 to slide after the rod 6122 is aligned with the fitting hole 641, which may cause the rod 6122 to be inserted into the fitting hole 641, i.e., the second fastening member 54 may be connected with the adapting frame 42 without the need for users to manually operate the second fastening member 54, which can further reduce installation difficulty and improve installation convenience.

In some embodiments, as shown in FIG. 10, the adapting frame 42 may be provided with a guiding surface 642, the guiding surface 642 may be an oblique plane at an obtuse angle to a bottom surface 643 of the adapting frame 42. When the adapting frame 42 is connected with the second installation slot 613, the guiding surface 642 may be configured to push the rod 6122, causing the second fastening member 54 to partially exit the second installation slot 613 in an opposite direction of the assembling, making a space for the assembly of the adapting frame 42, and further avoiding the phenomenon of a bottom surface 643 of the adapting frame colliding with the second fastening member 54; when the elastic member 617 is elastically compressed between the second wall body 6142 and the head 6121, the setting of the guiding surface 642 may also guide the second fastening member 54 to dock with the fitting hole 641 along an inclined direction. During the assembly, one end of the rod 6122 may enter the fitting hole 641 along the inclined direction of the guiding surface 642, thereby reducing the time for finding the fitting hole 641 and improving the assembly speed.

In some embodiments, as shown in FIGs. 10 and 11, the adapting frame 42 may be assembled with the second installation slot 613 along the first direction A, the second fastening member 54 may be connected with the fitting hole 641 along the second direction B perpendicular to the first direction A, and the adapting frame 42 may be provided with an avoidance slot 645. The avoidance slot 645 may be open along the first direction A and the second direction B to be arranged correspondingly on a position of the second fastening member 54 on the second installation slot 613, the setting of avoidance slot 645 can effectively alleviate an interference between the second fastening member 54 and the adapting frame 42, and can quickly align and connect the second fastening member 54 with the fitting hole 641, thereby making the assembly of the adapting frame 42 and the second installation slot 613 more rapid.

In some embodiments, the fitting hole 641 may be arranged on a surface of the avoidance slot 645 along the second direction B, and the guiding surface 642 facing the first direction A and the second direction B may be arranged between the fitting hole 641 and the bottom surface 643 of the adapting frame. When the adapting frame 42 is assembled with the second installation slot 613, the guiding surface 642 may push an excessively extended rod 6122 out of the second installation slot 613 to avoid obstructing the adapting frame 42 from entering the second installation slot 613 along the first direction A.

In some embodiments, as shown in FIGs. 9 and 10, the adapting frame 42 may be provided with a positioning slot 644, the sidewall 614 of the second installation slot 613 may be provided with a positioning block 6111 assembled with the positioning slot 644, and the second fastening member 54 may further be arranged movably on the positioning block 6111. When the adapting frame 42 is assembled with the second installation slot 613, the second fastening member 54 may be quickly aligned with the fitting hole 641.

In some embodiments, as shown in FIGs. 12, 14, and 18, the positioning slot 644 and the avoidance slot 645 may be sequentially arranged along an installation direction of the second fastening member 54 on the adapting frame 42. The second fastening member 54 may be arranged movably inside the positioning block 6111. Before the adapting frame 42 is assembled, the stopping member 615 may stop on an outer wall surface of the positioning block 6111; the adapting frame 42 may be assembled into the second installation slot 613, and the positioning block 6111 and the corresponding positioning slot 644 may be in the insertion connection. The second fastening member 54 may be directly aligned with and in threaded connection with the fitting hole 641, thus completing a connection between the second fastening member 54 and the adapting frame 42.

In some embodiments, the universal adjustment frame 100 may include a second adjustment component 20 and a third adjustment component 30. The second adjustment component 20 may include a second adjustment frame 22 and a first adjustment member 24, the first adjustment member 24 may be connected with the first adjustment frame 12 and the second adjustment frame 22, the third adjustment component 30 may include a third adjustment frame 32 and a second adjustment member 31, and the second adjustment member 31 may be connected with the second adjustment frame 21 and the third adjustment frame 32. More description of the second adjustment component 20 and the third adjustment component 30 may be found in the above descriptions in the present disclosure, which may not be repeated herein.

In some embodiments, by limiting that the universal adjustment frame includes a first adjustment component and an adapting frame, wherein the first adjustment component may include a first adjustment frame and a second fastening member, the adapting frame may include a fitting hole, the first adjustment frame may be provided with an installation slot, the fastening member may be arranged movably on a sidewall of the installation slot, and the second fastening member may be conveniently used to fix the first adjustment frame and the adapting frame after the adapting frame is installed in the installation slot of the first adjustment frame; the fastening member may be arranged movably on the sidewall of the installation slot. On the one hand, the second fastening member may be not separated from the sidewall of the installation slot, and on the other hand, the first adjustment frame and adapting frame may be tightened from a side of the first adjustment frame, which can not only prevent users from the unfavorable situation of fastening members being easily detached and lost, but also allow the users to have a relatively large operating space. The users can avoid using a look up posture to connect the first adjustment frame and the adapting frame, which can reduce installation difficulty and improve the efficiency of the users installing universal adjustment frame.

In some embodiments, the first connecting structure and/or the second connecting structure may be connected with a power device, and the power device may communicate with a controller. The controller may send assembly instructions to the power device to control a connection and assembly of the first connecting structure and the second connecting structure.

The power device refers to a device that provides power to the first connecting structure and/or the second connecting structure, such as electric motors, hydraulic or pneumatic devices, linear drives, or the like. The controller may be configured to process input data and output the processed data. For example, the controller may receive control signals, send instructions to the power device based on the control signals, and control the power device to perform corresponding operations.

The assembly instructions refer to instructions that control the connection and assembly of the first connecting structure and the second connecting structure.

For example, when the first connecting structure includes a first lock, and the second connecting structure may include a second lock, at least one of the first lock and the second lock may be electrically driven separately, the controller may control the electric motor to drive at least one of the first lock and the second lock to move in a second direction perpendicular to the first direction through the assembly instructions, so that the first lock and the second lock are in the locking connection, thereby achieving connection assembly. For example, the locking member may be connected with a micro motor, and the controller may control the motor through the assembly instructions, thereby controlling the locking member to move in an elastic compression direction of the first elastic member, so that the first lock and the second lock are in the locking connection. For example, when the first connecting structure includes a second fastening member, the second connecting structure may include a fitting hole, and the second fastening member may be connected with an electric motor, the controller may control the electric motor to drive the second fastening member into the fitting hole through the assembly instructions, thereby achieving the connection and assembly of the second fastening member and the fitting hole.

In some embodiments, the controller may have a user interaction interface, wherein the user may remotely control the power device to drive the first connecting structure and second connecting structure for connection assembly by inputting the assembly instructions to the controller. In some embodiments, the universal adjustment frame may include a button that may be electrically connected with the power device. The user may control the start and stop of the power device by pressing the button, thereby controlling the power device to drive the first connecting structure and the second connecting structure for connection and assembly.

In some embodiments, the controller may send the assembly instructions to the power device to achieve the connection and assembly of the first connecting structure and the second connecting structure, enabling assembly automation and effectively improving assembly efficiency and reducing costs.

The basic concept has been described above, obviously, for those skilled in the art, the above-detailed disclosure is only an example and does not constitute a limitation to the present disclosure. Although not expressly stated here, those skilled in the art may make various modifications, improvements, and corrections to the present disclosure. Such modifications, improvements, and corrections are suggested in the present disclosure, so such modifications, improvements, and corrections still belong to the spirit and scope of the exemplary embodiments of the present disclosure.

Meanwhile, the present disclosure uses specific words to describe the embodiments of the present disclosure. For example, "one embodiment" , "an embodiment" , and/or "some embodiments" refer to a certain feature, structure, or characteristic related to at least one embodiment of the present disclosure. Therefore, it should be emphasized and noted that two or more references to "an embodiment" "one embodiment" or "an alternative embodiment" in different places in the present disclosure do not necessarily refer to the same embodiment. In addition, certain features, structures, or characteristics in one or more embodiments of the present disclosure may be properly combined.

In the same way, it should be noted that in order to simplify the expression disclosed in the present disclosure and help the understanding of one or more embodiments of the invention, in the foregoing description of the embodiments of the present disclosure, sometimes multiple features are combined into one embodiment, drawings, or descriptions thereof. This manner of disclosure does not, however, imply that the subject matter of the present disclosure requires more features than are recited in the claims. Rather, claimed subject matter may lie in less than all features of a single foregoing disclosed embodiment.

Each patent, patent application, patent application publication, and other material, such as article, book, specification, publication, document, etc., cited in the present disclosure is hereby incorporated by reference in its entirety. Historical application documents that are inconsistent with or conflict with the content of the present disclosure are excluded, and documents (currently or later appended to the present disclosure) that limit the broadest scope of the claims of the present disclosure are excluded. It should be noted that if there is any inconsistency or conflict between the descriptions, definitions, and/or terms used in the accompanying materials of the present disclosure and the contents of the present disclosure, the descriptions, definitions, and/or terms used in the present disclosure shall prevail.

Finally, it should be understood that the embodiments described in the present disclosure are only used to illustrate the principles of the embodiments of the present disclosure. Other possible modifications are also within the scope of the present disclosure. Therefore, by way of example and not limitation, alternative configurations of the embodiments of the present disclosure may be considered consistent with the teachings of the present disclosure. Accordingly, the embodiments of the present disclosure are not limited to the embodiments explicitly introduced and described in the present disclosure.

Claims

A universal adjustment frame, comprising:

a first adjustment component, including a first adjustment frame and a first connecting structure arranged on the first adjustment frame; and

an adapting component, including an adapting frame and a second connecting structure arranged on the adapting frame;

wherein the first connecting structure and the second connecting structure are configured to connect with each other.
The universal adjustment frame of claim 1, wherein

the first connecting structure includes a first lock arranged on the first adjustment frame;

the second connecting structure includes a second lock arranged on the second connecting structure;

the second lock is correspondingly arranged with the first lock; and

the first adjustment frame and the adapting frame are in insertion connection, so that the first lock is in locking connection with the second lock.
The universal adjustment frame of claim 2, wherein the first adjustment frame and the adapting frame are in insertion connection along a first direction, and at least one of the first lock or the second lock is arranged movably along a second direction perpendicular to the first direction to achieve the locking connection between the first lock and the second lock.
The universal adjustment frame of claim 3, wherein one of the first lock and the second lock is arranged movably along the second direction, the other of the first lock and the second lock is arranged rotatably around a third direction, the third direction is perpendicular to the first direction and second direction, and the locking connection between the first lock and the second lock is released by the rotation of the other of the first lock and the second lock around the third direction and to an outer side of the universal adjustment frame.
The universal adjustment frame of claim 4, wherein the other of the first lock and the second lock includes a locking member, and the locking member is configured to lock the other of the first lock and the second lock to limit the rotation of the other of the first lock and the second lock around the third direction or release the limitation of the rotation of the other of the first lock and the second lock around the direction.
The universal adjustment frame of claim 5, wherein

the locking member is arranged movably on the other of the first lock and the second lock;

the first adjustment frame or the adapting frame is configured to be connected rotatably with the other of the first lock and the second lock, and an insertion portion is arranged on the first adjustment frame or the adapting frame; and

through a relative movement between the locking member and the insertion portion, an insertion relationship between the locking member and the insertion portion is formed to lock the other of the first lock and the second lock, or the insertion relationship between the locking member and the insertion portion is released.
The universal adjustment frame of claim 6, wherein the first lock is provided with a first elastic member, and the second lock is provided with a second elastic member; and wherein

the locking member is slidably assembled with the first lock, the first elastic member is elastically compressed and arranged between the locking member and the first lock, and the second elastic member is elastically compressed and arranged between the adapting frame and the second lock; or

the locking member is slidably assembled with the second lock, the second elastic member is elastically compressed and arranged between the locking member and the second lock, and the first elastic member is elastically compressed and arranged between the adjustment frame and the first lock.
The universal adjustment frame of claim 7, wherein an outer side of the locking member arranged on the universal adjustment frame is provided with a pressed window configured to compress the first elastic member or the second elastic member to release the insertion relationship between the locking member and the insertion portion.
The universal adjustment frame of any one of claims 3-7, wherein the first lock is provided with a first hook, the second lock is provided with a second hook, and the first hook and the second hook are used for mutual hook connection.
The universal adjustment frame of claim 9, wherein the first hook includes a first guiding surface and a first locking surface, the second hook includes a second guiding surface and a second locking surface, the first guiding surface and the second guiding surface are configured to guide each other when the first adjustment frame and the adapting frame are in insertion connection along the first direction to drive at least one of the first lock or the second lock to move along the second direction, so that the first locking surface and the second locking surface form a stopping limitation in the first direction.
The universal adjustment frame of any one of claims 2-10, wherein at least one of the first adjustment frame or the adapting frame is provided with a first installation slot, and the adapting frame and the first adjustment frame are in insertion connection through the first installation slot.
The universal adjustment frame of any one of claims 2-11, wherein in addition to the locking connection between the first lock and the second lock, the first adjustment frame and the adapting frame are further connected through a first fastening member.
The universal adjustment frame of claim 12, wherein the first fastening member connects the first adjustment frame and the adapting frame through a peripheral side of the first adjustment frame and the adapting frame.
The universal adjustment frame of any one of claims 1-13, further comprising a second adjustment component, wherein

the second adjustment component includes a second adjustment frame and a first adjustment member, and the first adjustment member is connected with the first adjustment frame and the second adjustment frame;

the first adjustment member includes a first locking state and a first adjustment state, the first adjustment member locks the first adjustment frame and the second adjustment frame in the first locking state, and the first adjustment frame is rotatably adjustable relative to the second adjustment frame around a fourth direction in the first adjustment state; and

the first adjustment frame and the adapting frame are in insertion connection along a first direction, and the fourth direction perpendicular to the first direction.
The universal adjustment frame of claim 14, further comprising a third adjustment component, wherein

the third adjustment component includes a third adjustment frame and a second adjustment member, and the second adjustment member is connected with the second adjustment frame and the third adjustment frame;

the second adjustment member includes a second locking state and a second adjustment state, the second adjustment member locks the second adjustment frame and the third adjustment frame in the second locking state, and the second adjustment frame is rotatably adjustable relative to the third adjustment frame around a fifth direction in the second adjustment state; and

the fifth direction is perpendicular to the first direction.
The universal adjustment frame of claim 15, wherein the third adjustment frame is configured to be rotatably adjustable around a sixth direction, and the sixth direction is perpendicular to the fourth direction and the fifth direction.
The universal adjustment frame of claim 16, further comprising a fixing frame and a third adjustment member, wherein

the fixing frame is fixed to a supporting member, and the third adjustment member is connected with the third adjustment frame and the fixing frame; and

the third adjustment member includes a third locking state and a third adjustment state, the third adjustment member locks the third adjustment frame and the fixing frame in the third locking state, and the third adjustment frame is rotatably adjustable relative to the fixing frame around the sixth direction in the third adjustment state.
The universal adjustment frame of any one of claims 1-17, wherein

the first connecting structure includes a second fastening member and a second installation slot, and the second fastening member is movably arranged on a sidewall of the second installation slot;

the second connecting structure includes a fitting hole; and

at least a portion of the adapting frame is accommodated in the second installation slot, the fitting hole is aligned with the second fastening member, and the second fastening member is assembled with the fitting hole.
The universal adjustment frame of claim 18, wherein the second fastening member is slidably or spirally arranged on the sidewall of the second installation slot.
The universal adjustment frame of claim 19, wherein the second fastening member is slidably arranged on the sidewall of the second installation slot, the first adjustment component includes a stopping member, and the stopping member is connected with a rod of the second fastening member and stops on an inner wall surface of the sidewall.
The universal adjustment frame of claim 19 or claim 20, wherein the first adjustment component includes an elastic member, the elastic member is sleeved on a rod of the second fastening member and arranged between the sidewall and a head of the second installation slot, and the elastic member is configured to provide a pre-tightening force when the fitting hole is in threaded connection with the rod.
The universal adjustment frame of claim 21, wherein the sidewall is provided with a first hole segment and a second hole segment that are arranged in a stepped manner, a diameter of the first hole segment is smaller than a diameter of the second hole segment, the rod slidably passes through the first hole segment and the second hole, and at least a portion of the elastic member is accommodated in the second hole segment.
The universal adjustment frame of claim 22, wherein the elastic component is compressed and arranged between a head of the second fastening member and a step surface of the first hole segment facing the second hole segment.
The universal adjustment frame of any one of claims 19-23, wherein

the sidewall of the second installation slot includes a first wall body and a second wall body that are arranged at intervals, and a rod of the second fastening member is slidably arranged on the first wall body; and

the first adjustment component includes an elastic member, the elastic member is elastically compressed and arranged between the second wall body and the head of the second fastening member, and the rod is used for inserting into the fitting hole.
The universal adjustment frame of any one of claims 20-24, wherein the adapting frame is provided with a guiding surface, and the guiding surface is configured to push one end of the rod to guide the second fastening member to dock with the fitting hole.
The universal adjustment frame of claim 25, wherein

the adapting frame is assembled with the second installation slot along a first direction, and the second fastening member is connected with the fitting hole along a second direction perpendicular to the first direction; and

the adapting frame is provided with an avoidance slot, the avoidance slot is open along the first direction and second direction, and the guide surface and the fitting hole are both arranged on a sidewall of the avoidance slot facing the second direction.
The universal adjustment frame of any one of claims 18-26, wherein the adapting frame is provided with a positioning slot, a sidewall of the second installation slot is provided with a positioning block assembled with the positioning slot, and the second fastening member is movably arranged on the positioning block.
A camera device, comprising a camera and the universal adjustment frame of any one of claims 1-27, wherein the camera is connected with the adapting frame, and the universal adjustment frame is configured to adjust a location and an orientation of the camera.