CN210034891U - Connecting assembly and holder equipment - Google Patents

Abstract

The application discloses coupling assembling and cloud platform equipment. The connecting assembly comprises a middle frame, and the middle frame and the holder can be detachably connected. The middle frame comprises a frame body and a base, wherein the base is fixed on the side face of the frame body, and the base is used for connecting the element to be installed and enabling the element to be installed to be detachably installed on the base from at least two directions. The cloud platform equipment of this application embodiment includes cloud platform and foretell coupling assembling. The utility model provides an embodiment's coupling assembling is through setting up the base including a plurality of installation direction for treat that the installation component can be installed on the base according to actual conditions from the installation direction of difference, improved the base and treat the suitability of installation component, thereby make the center with treat that the installation component can make up into multiple use gesture, the use scene of coupling assembling has been enriched, thereby can constitute multiple use mode and/or use gesture with the cloud platform, be favorable to using the pluralism of scene.

Description

Connecting assembly and holder equipment

Technical Field

The application relates to the technical field of cloud platform equipment, in particular to connecting assembly and cloud platform equipment.

Background

The holder, such as a handheld holder, senses the angle and motion of the camera by using electronic acceleration and a gyro sensor, and is directly driven by at least one of a pitching motor, a rolling motor and a yawing motor to achieve a stabilizing effect of real-time correction. Because the light and easy-to-use has good stability, the utility model can be widely applied. However, the existing tripod head structure only has a single hand holding using posture, and the application scene is single.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the embodiment of the application provides a connecting assembly and a holder device.

The coupling assembling of the embodiment of this application includes the center, the center be used for with the cloud platform is connected. The middle frame comprises a frame body and a base, wherein the base is fixed on the side face of the frame body, and the base is used for connecting an element to be installed and enabling the element to be installed to be detachably installed on the base from at least two directions.

In certain embodiments, at least two of the directions comprise two directions, the two directions being parallel or perpendicular to each other; or, the at least two directions comprise three directions, two of the three directions are oppositely arranged, and/or two of the three directions are mutually perpendicular; or, the at least two directions include four directions, the four directions include a first direction, a second direction, a third direction and a fourth direction, the first direction and the second direction are oppositely arranged, and the third direction and the fourth direction are oppositely arranged and are both perpendicular to the first direction.

In some embodiments, the frame comprises a bottom frame surface and a top frame surface that are opposite to each other, the frame side surfaces are connected to the bottom frame surface and the top frame surface, respectively, the frame side surfaces comprise a first side surface and a second side surface that are opposite to each other, and the first side surface and the second side surface are connected to the bottom frame surface and the top frame surface; the number of the base is at least one, and at least one base is formed on the first side surface and/or the second side surface.

In some embodiments, the frame side further includes an inclined side surface, the inclined side surface is disposed between the first side surface and the second side surface, the inclined side surface and the frame bottom surface are inclined to each other, the inclined side surface faces one side of the frame bottom surface, an included angle formed between the frame bottom surface and the inclined side surface is 100 ° to 110 °, and at least one of the bases is formed on the inclined side surface.

In some embodiments, the frame body is provided with a mounting through hole penetrating through the bottom surface and the top surface of the frame body, and the mounting through hole is used for mounting the connecting component on the holder; the frame body comprises a first frame body and a second frame body, and the first frame body and the second frame body are detachably connected; the first frame body is provided with a first mounting groove, the second frame body is provided with a second mounting groove, and when the first frame body is mounted on the second frame body, the first mounting groove and the second mounting groove jointly form the mounting through hole.

In some embodiments, the first frame body includes a first frame body and two extending walls, the first mounting groove is formed on the first frame body, the two extending walls are respectively disposed at two opposite ends of the first mounting groove and are connected to the bottom surface and the top surface of the frame body, the two extending walls and the first frame body together enclose an installation space, and the second frame body is at least partially installed in the installation space; the number of the bases comprises a plurality of bases, and the plurality of bases are respectively arranged on the first frame body and/or the extension wall.

In some embodiments, the side surface of the first frame body includes a first surface, a second surface and an inclined surface, the first surface and the second surface are respectively located on two opposite sides of the first frame body, the first surface and the second surface are both connected with the bottom surface of the first frame body, and the inclined surface and the bottom surface of the first frame body are inclined to each other; the quantity of base is three, and three the base is fixed respectively first face, the second face with on the inclined plane.

In some embodiments, the element to be mounted is provided with a receiving groove, the middle frame is provided with a groove, the element to be mounted can move along the groove when the element to be mounted is mounted towards the base, and the base is at least partially received in the receiving groove after the element to be mounted is mounted on the base.

In some embodiments, the base includes a base body fixed to the frame side and a protrusion protruding from an edge of an end of the base body away from the frame side and spaced apart from the frame; the protruding part and the side face of the frame body are matched to form at least two grooves in the sliding direction, and the element to be mounted can move along the protruding part.

In some embodiments, the connection assembly further comprises a limiting structure for limiting the element to be mounted on the middle frame; the base body comprises a base surface far away from the side face of the frame body, the limiting structure comprises a containing hole formed in the base surface and a telescopic limiting part arranged on the element to be installed, and the limiting part can selectively stretch into or stretch out of the containing hole.

In some embodiments, the limiting portion is disposed in the accommodating groove, and a pin hole is formed in a bottom surface of the accommodating groove; the limiting part comprises a safety pin, the safety pin is arranged in the pin hole and can move relative to the pin hole so as to selectively extend into the accommodating groove or be completely accommodated in the pin hole, and after the element to be installed is installed on the base, the safety pin extends into the accommodating hole so as to limit the element to be installed to move relative to the middle frame.

In some embodiments, the number of the accommodating holes is at least two, the at least two accommodating holes are distributed on the surface of the base at intervals, and the number of the accommodating holes corresponds to the number of the to-be-mounted elements in the direction of mounting the to-be-mounted elements on the base in a one-to-one manner; when the element to be installed is installed on the base from different directions, the safety pin can extend into different accommodating holes to limit the element to be installed to move relative to the middle frame.

In some embodiments, a first reserved mounting portion is further disposed on the surface of the base, the first reserved mounting portion is used for mounting a first reserved element, and the first reserved mounting portion and the accommodating hole are distributed at intervals.

In some embodiments, the element to be mounted can be detachably mounted at least two different positions on the middle frame, and when the position of the element to be mounted on the middle frame is changed, the included angle between the element to be mounted and the vertical direction can be changed.

The cloud platform equipment of this application embodiment includes cloud platform and coupling assembling, the cloud platform with coupling assembling connects, coupling assembling includes the center, the center be used for with the cloud platform is connected. The middle frame comprises a frame body and a base, wherein the base is fixed on the side face of the frame body, and the base is used for connecting an element to be installed and enabling the element to be installed to be detachably installed on the base from at least two directions.

In the cloud platform equipment and coupling assembling of this application embodiment, coupling assembling is through setting up the base including a plurality of installation orientation, make to treat that the installation component can be installed on the base from the installation orientation of difference according to actual conditions, the adaptation nature of base with treating the installation component has been improved, thereby make the center and treat that the installation component can make up into multiple use gesture, coupling assembling's use scene has been richened, thereby can form multiple use mode and/or use gesture with the cloud platform, be favorable to using the pluralism of scene.

Additional aspects and advantages of embodiments of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of embodiments of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a perspective view illustrating a connection assembly and a pan/tilt head according to an embodiment of the present disclosure.

Fig. 2 is a perspective view of a middle frame of a connection assembly according to an embodiment of the present application.

Fig. 3 and 4 are schematic views of a support member of a connection assembly of an embodiment of the present application.

Fig. 5 is an exploded schematic view of a support member of a connection assembly of an embodiment of the present application.

Fig. 6 is a schematic view of a support member of another embodiment of the connection assembly of the present application.

Fig. 7 is an exploded schematic view of a support member of a connection assembly of another embodiment of the present application.

Fig. 8 to 17 are schematic views of a connection mode of a connection assembly according to an embodiment of the present application.

Fig. 18 to 26 are schematic views of the connection assembly and the pan/tilt head according to the embodiment of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the terms "center," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and are not to be considered limiting of the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1, a connecting assembly 100 according to an embodiment of the present disclosure may be applied to a pan/tilt head 1000, where the connecting assembly 100 includes at least two connecting members 110, at least one connecting member 110 is connected to the pan/tilt head 1000, and any two of the at least two connecting members 110 are detachably connected to each other. The at least two connecting members 110 may be connected in various manners, so as to support various usage manners of the cradle head 1000 and/or adapt various usage postures of the cradle head 1000.

Any two connecting pieces 110 in the connecting assembly 100 in the embodiment of the present application can be detachably connected, and there are multiple connecting manners between two connecting pieces 110 to support multiple using manners of the pan/tilt head 1000 and/or multiple using postures of the adaptive pan/tilt head 1000, thereby facilitating adaptation to different shooting environments and providing assistance for a shooting effect required by a user, and diversifying application scenes.

Referring to fig. 1 and 2, a connection assembly 100 according to another embodiment of the present application can be applied to a pan/tilt head 1000, where the connection assembly 100 includes a middle frame 10, and the middle frame 10 can be used to connect with the pan/tilt head 1000. The middle frame 10 comprises a frame body 11 and a base 12, wherein the base 12 is fixed on a frame body side surface 16 of the frame body 11, and the base 12 is used for connecting a component to be installed (such as a side plate 26 shown in fig. 3 and/or a handle 27 shown in fig. 6) and enabling the component to be installed to be detachably installed on the base 12 from at least two directions.

The connecting assembly 100 of the embodiment of the application is provided with the base 12 comprising a plurality of installation directions, so that the element to be installed can be installed on the base 12 from different installation directions according to actual conditions, the adaptability of the base 12 and the element to be installed is improved, the middle frame 10 and the element to be installed can be combined into various using postures, the using scenes of the connecting assembly 100 are enriched, various using modes and/or using postures can be formed by the middle frame and the element to be installed, and the diversification of the application scenes is facilitated.

Referring to fig. 1, 5 and 7, a connection assembly 100 according to still another embodiment of the present disclosure may be applied to a pan/tilt head 1000, where the connection assembly 100 includes a support member 20, a mounting portion 21 is disposed on the support member 20, and the support member 20 is connected to the pan/tilt head 1000 through the mounting portion 21. The mounting portion 21 includes a fixed seat 210 and a movable element 211, the fixed seat 210 and the movable element 211 cooperate to form a receiving groove 213, and a relative position between the movable element 211 and the fixed seat 210 can be changed to change a size of the receiving groove 213. When the movable element 211 is close to the fixed seat 210, the size of the receiving groove 213 is reduced, the support element 20 can be fixed on the cradle head 1000, and when the movable element 211 is far away from the fixed seat 210, the size of the receiving groove 213 is increased, and the support element 20 can be separated from the cradle head 1000 or slide on the cradle head 1000.

The coupling assembling unit 100 of the embodiment of the present application can change the supporting member 20 of the size of the receiving groove 213 through the setting, so that the supporting member 20 is installed after the holder 1000, the user can reduce the size of the receiving groove 213 to fix the supporting member 20 on the holder 1000, and when the supporting member 20 and the holder 1000 are needed to be disassembled, the user can increase the size of the receiving groove 213 to disassemble the supporting member 20 from the holder 1000, so the structure of the supporting member 20 is simple, the operation of adjusting the size of the receiving groove 213 is convenient, it is beneficial to reduce the complexity of the connection between the supporting member 20 and the holder 1000, and the assembling and disassembling efficiency of. In addition, the position selection that connecting assembly 100 and cloud platform 1000 are connected has been increased to the storage tank 213 of equidimension not, and the user can be according to the different positions that the actual shooting demand is connected at cloud platform 1000 with connecting assembly 100 to make up into multiple use gesture with cloud platform 1000, make connecting assembly 100's application scene pluralism.

Referring to fig. 1, a pan/tilt head apparatus 2000 according to still another embodiment of the present disclosure includes a pan/tilt head 1000 and a connecting assembly 100, where the pan/tilt head 1000 is connected to the connecting assembly 100, and the connecting assembly 100 may be the connecting assembly 100 according to any embodiment of the present disclosure. Thus, the connection assembly 100 can support multiple using modes of the pan/tilt head 1000 and/or multiple using postures of the adaptive pan/tilt head 1000, thereby facilitating adaptation to different shooting environments and providing assistance for a shooting effect required by a user, and diversifying application scenes.

Referring to fig. 1, the connecting assembly 100 of the present application can be used in combination with a pan/tilt head 1000, and can be used for shooting videos, entertainment, self-timer, and the like. The head 1000 may be a single axis head, a two axis head, a three axis head, or even more axis heads. For convenience of description, the holder 1000 is taken as a three-axis holder for example, specifically, the holder 1000 may include a frame 201 and an operation portion 202, the frame 201 may include an outer frame 2011, an intermediate frame 2013 and an inner frame 2015, the outer frame 2011 may be connected to a yaw motor, the intermediate frame 2013 may be connected to a roll motor, the inner frame 2015 may be connected to a pitch motor, the outer frame 2011, the intermediate frame 2013 and the inner frame 2015 are sequentially connected and all can rotate relatively, and rotation axes of the three are non-orthogonal (of course, may be all perpendicular to each other). The operation portion 202 may be connected to an outer frame 2011, which is rotatable with respect to the operation portion 202. The operation portion 202 is provided with a control key (which may be an entity key or a virtual key), and a user can control the frame 201 and adjust the shooting parameters of the shooting device 500 (see fig. 18) installed on the cradle head 1000 through the control key on the operation portion 202. In other embodiments, the holder 1000 may further be installed with the handle 400 and the bracket 300, and the handle 400 may be connected with the operating portion 202. The handle 400 may be provided with a power source therein to supply power to the operation portion 202 and the frame 201. A bracket 300 may be mounted to the bottom of the grip 400, and the bracket 300 may be a tripod. The handle 400 and the operation portion 202 may be connected fixedly, but not detachably, or detachably; the support 300 and the handle 400 may be connected in a fixed and non-detachable manner, or may be connected in a detachable manner. Of course, in other embodiments, the holder 1000 may not be equipped with the handle 400 and the bracket 300 (see fig. 26), and in this case, the connecting assembly 100 and the holder 1000 may be used for handheld shooting by a user, or the connecting assembly 100 and the holder 1000 may be loaded on other platforms, such as an automobile or a flying platform.

The connection assembly 100 may be connected to the operation portion 202. The connecting assembly 100 includes a plurality of connecting members 110, different connecting members 110 can be combined with each other (i.e. adjusting the connecting position and the connecting direction between the connecting members 110) to form a plurality of different connecting manners (see the connecting manner between the connecting assembly 100 and the cradle head 1000 in fig. 19 to 26), and the different connecting manners between the connecting members 110 can support a plurality of using manners of the cradle head 1000 and adapt to a plurality of using postures of the cradle head 1000. The usage mode and the usage posture of the pan/tilt head 1000 may be understood as that a user performs corresponding movements on the pan/tilt head 1000 to achieve a desired shooting mode (e.g., pushing, pulling, swinging, moving, etc. of a lens) to provide various assistance to the shooting device 500, where the corresponding movements may be a change in a position of the pan/tilt head 1000 in a horizontal direction and a change in an inclination angle of the pan/tilt head 1000 with respect to the horizontal direction, and may also be a change in a position of the pan/tilt head 1000 in a vertical direction and a change in an inclination angle with respect to the vertical direction. For example, the connecting assembly 100 and the platform 1000 may be combined into a portable suspension mode, an upside-down mode, a portable mode, and other use modes. The portable suspension mode can be used as a low suspension condition of the pan/tilt 1000, and the user can attach the connecting assembly 100 and the pan/tilt 1000 to the ground or directly hold the connecting assembly in front of the body to obtain a smooth and stable image, as shown in the combination manner of fig. 23. Using the portable suspension mode, the connection assembly 100 and the pan/tilt head 1000 can also be mounted on a flight platform, for example, the connection assembly 100 and the pan/tilt head 1000 can be loaded on the flight platform after the handle 400 and the support 300 are detached in the combination manner of fig. 23. The up-down inversion mode can be used for high-position shooting of the holder 1000, a user can place the holder 1000 on a vehicle or other relatively high positions for shooting, when the up-down inversion operation mode is used, the user can easily turn the holder 1000 up and down, the camera and eyes can be kept on the same horizontal line without difficultly lifting the holder 1000, and the up-down inversion operation mode can be realized after the portable suspension mode is turned over for 180 degrees. In the upside down mode, the angle of the image captured by the camera can be made higher, as can be seen in the combination of fig. 22. The portable mode can be applicable to the cloud platform 1000 and follow user's step and shoot, is applicable to narrow and small space's ground near and removes and shoots, and any position of cloud platform 1000 is difficult to contact with user's health (especially shank) to can avoid when narrow and small space operation completely, the shooting of cloud platform 1000 receives the hindrance of self health or other objects. In the handheld mode, the user can carry the connecting assembly 100 to perform close-up moving shooting in a narrow space, which can be seen in the combination manner of fig. 1.

It is understood that the multiple usage modes and/or multiple usage attitudes of pan/tilt head 1000 may be other than those described above, and for example, may include handheld, shoulder-carried, airborne, vehicle-mounted, etc. (wherein handheld may also include single-handed or double-handed), and the explanation of usage modes and/or usage attitudes is not limited to the type of carrier carrying pan/tilt head 1000, the positional relationship between pan/tilt head 1000 and the carrier carrying pan/tilt head 1000, the attitude of pan/tilt head 1000 relative to the carrier carrying pan/tilt head 1000, and the functions of other accessories attached to pan/tilt head 1000 (the installation positions of the other accessories are not limited).

Referring to fig. 2 or 3, the connecting member 110 includes a middle frame 10 and/or a supporting member 20. In one embodiment, one supporting member 20 may be one connecting member 110, the number of the supporting members 20 may be multiple, and when the connecting assembly 100 includes multiple supporting members 20, the structures of at least two supporting members 20 of the multiple supporting members 20 may be different, or the structures of the multiple supporting members 20 are the same. In another embodiment, when the number of the supporting members 20 is plural, the structures of the supporting members 20 may be different, that is, one supporting member 20 may be one connecting member 110. In another embodiment, when the number of the supporting members 20 is plural, the structures of at least two supporting members 20 in the plurality of supporting members 20 may be different, for example, the structures of the a-type supporting members 20 are different from those of the B-type supporting members 20, and if the a-type supporting members 20 may include plural and/or the B-type supporting members 20 may include plural, it is understood that the plurality of the a-type supporting members 20 are one connecting member 110 and the plurality of the B-type supporting members are one connecting member 110, that is, all the supporting members 20 of the same structure type may be configured as one connecting member 110, and the number of the connecting members 110 is divided according to the structure type.

When the connecting member 110 is the middle frame 110, the middle frame 10 may be directly connected to the cradle head 1000, and specifically, the middle frame 10 may be detachably mounted on the operating portion 202. When the connecting member 110 is the supporting member 20, the supporting member 20 may be directly connected with the head 1000, and specifically, the supporting member 20 may be detachably mounted on the operating portion 202. When the connecting member 110 includes the middle frame 10 and the supporting member 20, it may be: the middle frame 10 is detachably mounted on the operation portion 202, while the support member 20 is detachably mounted on the middle frame 10; alternatively, the middle frame 10 is detachably attached to the operation portion 202, and the support member 20 is also detachably attached to the operation portion 202. Of course, in other embodiments, the middle frame 10 may be integrally configured with the operating portion 202, and the support member 20 may be detachably mounted on the middle frame 10.

Referring to fig. 2, the middle frame 10 may include a frame 11 and a base 12, and the base 12 may be disposed on the frame 11. The frame 11 includes a top frame surface 14, a bottom frame surface 15, and side frame surfaces 16, wherein the top frame surface 14 is opposite to the bottom frame surface 15, the side frame surfaces 16 connect the top frame surface 14 and the bottom frame surface 15, and the base 12 can be disposed on the side frame surfaces 16. The frame 11 has an attachment through hole 191, and the attachment through hole 191 penetrates the frame top surface 14 and the frame bottom surface 15. The connecting assembly 100 can be combined with the operating part 202 of the cradle head 1000 through the mounting through hole 191, i.e. the operating part 202 of the cradle head 1000 can be inserted into the mounting through hole 191 of the middle frame 10.

The frame side 16 may include a first side 160, a second side 161, and an inclined side 162, wherein the first side 160 is opposite to the second side 161, the inclined side 162 directly or indirectly connects the first side 160 and the second side 161, and the first side 160, the second side 161, and the inclined side 162 may connect the frame top 14 and the frame bottom 15, the inclined side 162 forms a certain inclination angle with respect to the frame top 14 and/or the frame bottom 15, for example, the inclined side 162 is inclined to make the frame 11 have a structure with a larger top and a smaller bottom, that is, the frame top 14 is larger than the frame bottom 15, the inclined side 162 may form an included angle α with the frame bottom 15 of 100 ° to 110 °, and the included angle α may be any one angle of 100 °, 101 °, 102 °, 103 °, 104 °, 105 °, 106 °, 107 °, 108 °, 109 °, and 110 °, or any angle therebetween.

Of course, in other embodiments, the first side surface 160 may also include an inclined side surface 162, that is, the first side surface 160 may also form a certain inclination angle with respect to the frame top surface 14 and/or the frame bottom surface 15, for example, the inclined side surface 162 in the first side surface 160 may form an included angle α of 100 ° to 110 ° with respect to the frame bottom surface 15. in other embodiments, the second side surface 161 may also include an inclined side surface 162, that is, the second side surface 161 also forms a certain inclination angle with respect to the frame top surface 14 and/or the frame bottom surface 15, for example, the inclined side surface 162 in the second side surface 161 may form an included angle α of 100 ° to 110 ° with respect to the frame bottom surface 15. in other embodiments, the first side surface 160 and the second side surface 161 may also each include an inclined side surface 162, and the inclined side surface 162 may form an included angle α of 100 ° to 110 ° with respect to the frame bottom surface 15, wherein the inclination angle formed by the first side surface 160 with respect to the frame top surface 14 and/or the frame bottom surface 15 may be the same as or different from the.

The frame 11 may include a first frame 17 and a second frame 18, the first frame 17 and the second frame 18 are independent structures, and the volumes of the first frame 17 and the second frame 18 may be equal or unequal, and the dimensions of the two frames may be equal or unequal. In the present embodiment, the volumes of the first frame 17 and the second frame 18 are not equal. It is understood that the top surface of the first frame 17 together with the top surface of the second frame 18 may be the frame top surface 14, the bottom surface of the first frame 17 together with the bottom surface of the second frame 18 may be the frame bottom surface 15, and the side surface of the first frame 17 and the side surface of the second frame 18 may be the frame side surface 16.

Referring to fig. 8, the first frame 17 and the second frame 18 are detachably connected to form the frame 11, for example, the frame side 16 has a mounting hole 190, the mounting hole 190 penetrates the second frame 18 from the second frame 18 and extends into the first frame 17, and the fastener 101 can be mounted in the mounting hole 190 to connect the first frame 17 and the second frame 18. In addition, the first frame 17 and the second frame 18 cooperate to form an installation through hole 191, specifically, the first frame 17 has a first installation groove 176, the second frame 18 has a second installation groove 180, and after the first frame 17 and the second frame 18 are connected by the fastening member 101, the first installation groove 176 and the second installation groove 180 jointly form the installation through hole 191. The center of the mounting through hole 191 may be offset from the center of the frame body 11, and the opening areas (or opening sizes) of the first mounting groove 176 and the second mounting groove 180 may be equal or unequal. In the present embodiment, the first mounting groove 176 and the second mounting groove 180 have the same area and together form a circular mounting through hole 191. After the operation portion 202 of the pan/tilt head 1000 is inserted into the installation through hole 191 of the middle frame 10, the middle frame 10 can rotate relative to the operation portion 202, and is fixed by the fastener 101 when the middle frame 10 rotates to a proper position relative to the operation portion 202, so that a user can conveniently and freely adjust the relative position between the connection assembly 100 and the pan/tilt head 1000 according to actual shooting requirements and shooting environments.

Referring to fig. 2, the first frame 17 includes a first frame body 170 and an extending wall 171. The first mounting groove 176 is opened on the first frame body 170. The number of the extension walls 171 may be two, the two extension walls 171 are respectively disposed at two opposite ends of the first installation groove 176 (or the first frame body 170) and both connect the frame bottom surface 15 and the frame top surface 14, and the two extension walls 171 and the first frame body 170 jointly enclose an installation space 175. The volume of the second frame 18 may be smaller than the volume of the first frame 17, and the second frame 18 may be at least partially installed in the installation space 175.

The side surface of the first frame 17 includes a first surface 172, a second surface 173 and an inclined surface 174, the first surface 172, the second surface 173 and the inclined surface 174 all connect the bottom surface (or the bottom surface 15) and the top surface (or the top surface 14) of the first frame 17, the first surface 172 and the second surface 173 are respectively located on two opposite sides of the first frame 17, or the first surface 172 and the second surface 173 are respectively sides of the extending wall 171 on two opposite sides, or the first surface 172 can be used as the first side surface 160 and the second surface 173 can be used as the second side surface 161, the inclined surface 174 can directly or indirectly connect the first surface 172 and the second surface 173, the inclined surface 174 and the bottom surface of the first frame 17 are inclined with each other, or the inclined surface 174 can also be used as the inclined side surface 162, that is, the inclined surface 174 and the bottom surface of the first frame 17 have an included angle α of 100 ° to 110 °.

The base 12 can be used for connecting with the element to be installed, thereby realizing the connection of the middle frame 10 with the element to be installed. It should be noted that the element to be mounted may be a support 20 (for example, in the case that the support 20 includes a side plate 26 as shown in fig. 3 and/or in the case that the support 20 includes a handle 27 as shown in fig. 6), and the support 20 is detachably mounted on the base 12. Alternatively, the component to be mounted may be other structures adapted to the base 12, for example, the component to be mounted may also be a camera, a mobile phone, a focus follower, a flashlight, etc.

The base 12 may be fixed at any position of the frame side 16, for example, when the number of the bases 12 is one, the base 12 may be fixed on the first side 160 (or the first side 172), or the base 12 may be fixed on the second side 161 (or the second side 173), or the base 12 may be fixed on the inclined side 162 (or the inclined surface 174). In other embodiments, the number of the bases 12 may be plural, and two of the plural bases 12 are formed on the first side 160 and the second side 161, respectively.

For example, the number of the bases 12 may be two, and when the number of the bases 12 is two, the two bases 12 may be fixed on the first side 160 and the second side 161, respectively, or the two bases 12 may be fixed on the first side 160 and the inclined side 162, respectively, or the two bases 12 may be fixed on the second side 161 and the inclined side 162, respectively, or both the two bases 12 may be fixed on the inclined side 162. The number of the bases 12 may also be three, two of the three bases 12 may be fixed on the first side 160 and the second side 161, respectively, and the remaining one base 12 may be fixed on the first side 160, the second side 161, or the inclined side 162. Of course, the three bases 12 may be fixed to the first side 160, the second side 161 and the inclined side 162.

In still another embodiment, the number of the bases 12 may be plural, in which case the plural bases 12 may be respectively disposed on the first frame body 170, or the plural bases 12 may be respectively disposed on the extension wall 171, or the plural bases 12 may be respectively disposed on the first frame body 170 and the extension wall 171, in the present embodiment, the number of the bases 12 includes plural, the plural bases 12 are disposed at intervals on the side surface of the first frame body 17, more specifically, the number of the bases 12 is three, and the three bases 12 are respectively fixed on the first surface 172, the second surface 173, and the inclined surface 174, and when the support 20 (or the member to be mounted) is mounted on the base 12 at a different position of the frame side surface 16, for example, when the support 20 (or the member to be mounted) is mounted on the base 12 of the first side surface 160 (or the first surface 172), the support 20 (or the member to be mounted) is mounted on the base 12 of the second side surface 161 (or the inclined surface 173), and the support 20 (or the member to be mounted) is mounted on the base 12 of the inclined surface 162 (or the inclined surface 174), and the like, the three cases, the support 20 (or the member to be mounted) may be changed in an angle α corresponding to the vertical axis of.

Referring to fig. 2 and 8, the base 12 includes a base body 120 and a protrusion 121, the base body 120 is fixed on the frame side 16, and the protrusion 121 protrudes from an edge of an end of the base body 120 away from the frame side 16. The protrusion 121 may be spaced from the frame 11 such that the protrusion 121 cooperates with the frame side 16 to form a groove 13 having at least two sliding directions, so that the support member 20 (or the component to be mounted) can be detachably mounted on the base 12 through the groove 13. Furthermore, the base body 120 may be provided with different shape structures to enable the support 20 (or the element to be mounted) to be mounted on the base 12 from different directions. For example, the base body 120 may have a rectangular block-shaped structure in which the supporters 20 (or the members to be mounted) can be mounted on the base 12 from two opposite directions, or the base body 120 may have a square block-shaped structure in which the supporters 20 (or the members to be mounted) can be mounted on the base 12 from four different directions (D1 to D4).

The base body 120 includes a base surface 122 remote from the frame side 16, i.e., the base surface 122 and the frame side 16 are located on opposite sides of the base body 120. The connecting assembly 100 further includes a limiting structure 30 for limiting the supporting member 20 (or the element to be mounted) to the middle frame 10. The position limiting structure 30 includes a receiving hole 124 opened on the base surface 122, and the receiving hole 124 can be used for cooperating with the supporting member 20 (or the element to be mounted) to fix the supporting member 20 (or the element to be mounted) on the middle frame 10. The number of the receiving holes 124 may be multiple, the multiple receiving holes 124 are distributed on the base surface 122 at intervals, and the multiple receiving holes 124 at different positions can adapt to the support member 20 (or the element to be mounted) being mounted on the base 12 from different directions, that is, the number of the receiving holes 124 corresponds to the number of the directions in which the support member 20 (or the element to be mounted) is mounted on the base 12. The base surface 122 may also be provided with a first reserved mounting portion 123, the first reserved mounting portion 123 being available for mounting a first reserved element. The first reserved element can be a soft light, a reflector, a flash lamp, a quartz lamp, a microphone and other shooting equipment or other devices. In one embodiment, the first reserved mounting portion 123 may be a first reserved hole 123, the first reserved hole 123 is opened on the base surface 122, the first reserved hole 123 and the receiving hole 124 are distributed at intervals, and specifically, a plurality of receiving holes 124 surround one first reserved hole 133. In another embodiment, the first reserved mounting portion 123 may be a structure capable of mounting and fixing the first reserved element on the base 12, such as a snap-fit structure or a screw structure.

Referring to fig. 3 to 7, the supporting member 20 includes a mounting portion 21, and the supporting member 20 can be detachably mounted on at least two different positions or components to be mounted on the middle frame 10 through the mounting portion 21. It should be noted that the component to be assembled may be the middle frame 10, or the component to be assembled may be the pan/tilt head 1000 including the middle frame 10, or the component to be assembled may be another structure adapted to the mounting portion 21. What position the supporting member 20 can be detachably mounted on the middle frame 10 through the mounting portion 21 depends on where the base 12 is disposed on the middle frame 10, as mentioned above, the base 12 can be fixed at any position on the frame side 16, and how to dispose is not described herein again, and correspondingly, the supporting member 20 can also be detachably mounted at any position on the middle frame 10 through the mounting portion 21. In addition, the mounting portion 21 is detachably mounted on the base 12 from at least two directions. Wherein, the at least two directions may include two directions, and the two directions are parallel or perpendicular to each other. The at least two directions may include three directions, two directions of the three directions being oppositely disposed; or two directions of the three directions are perpendicular to each other; alternatively, two of the three directions are disposed oppositely, while two of the three directions are disposed perpendicularly to each other. The at least two directions comprise four directions, the four directions comprise a first direction, a second direction, a third direction and a fourth direction, the first direction and the second direction are arranged oppositely, and the third direction and the fourth direction are arranged oppositely and are all perpendicular to the first direction.

The mounting portion 21 includes a fixed seat 210, a movable element 211 and a locking structure 212, the fixed seat 210 and the movable element 211 cooperate to form an accommodating groove 213, the movable element 211 can move relative to the fixed seat 210 to change the size of the accommodating groove 213, and the locking structure 212 cooperates with the movable element 211 to enable the mounting portion 21 to be detachably mounted on the base 12 from at least two directions. When the mounting portion 21 is mounted toward the base 12, the mounting portion 21 of the support 20 can move along the groove 13, and specifically, the mounting portion 21 of the support 20 can move along the projection 121; after the mounting portion 21 of the supporter 20 is mounted on the base 12, the base 12 is at least partially received in the receiving groove 213.

The holder 210 includes a holder end surface 2100 and a holder side surface 2101, and after the attachment portion 21 is attached to the base 12, the holder end surface 2100 faces the base 12. The receiving groove 213 penetrates the holder end surface 2100 and the holder side surface 2101, the receiving groove 213 may be a dovetail groove structure, and after the mounting portion 21 of the supporting member 20 is mounted on the base 12, the protrusion 121 and the base body 120 are both received in the receiving groove 213. A holder accommodating groove 2102 is formed in the holder side surface 2101 and penetrates through the holder end surface 2100, and the holder accommodating groove 2102 is communicated with the accommodating groove 213. A positioning groove 2103 (see fig. 7) is formed on the side surface of the fixing seat accommodating groove 2102. The movable element 211 is accommodated in the fixed seat accommodating cavity 2102, a positioning column 2110 is disposed on a surface of the movable element 211 facing the positioning slot 2103, and the movable element 211 is movably accommodated in the fixed seat accommodating cavity 2102 by combining the positioning column 2110 with the positioning slot 2103. When the movable element 211 moves in the fixed seat accommodating cavity 2102, the movable element 211 can change the size of the accommodating cavity 213.

Specifically, the moving direction of the movable element 211 toward the fixed seat 210 is a first moving direction M1 (see fig. 3 or fig. 6), the moving direction of the movable element 211 away from the fixed seat 210 is a second moving direction M2, and the first moving direction M1 and the second moving direction M2 are opposite directions. After the base 12 of the middle frame 10 (or the component to be assembled) is received in the receiving groove 213, when the movable element 211 moves in the first moving direction M1, the size of the receiving groove 213 decreases along the first moving direction M1, that is, the size of the receiving groove 213 decreases gradually, so that the side surface of the movable element 211 and the side surface of the fixed seat 210 abut against the base 12, thereby fixing the support 20 on the base 12. When the movable element 211 moves in the second moving direction M2, the size of the receiving slot 213 increases along the second moving direction M2, that is, the size of the receiving slot 213 gradually increases, and at this time, the side surface of the movable element 211 and the side surface of the fixed seat 210 are separated from the base 12, so that the supporting element 20 is detached from the base 12, or the supporting element 20 is slid to different positions on the base 12.

At least a portion of the locking structure 212 is rotatably disposed within the support member 20. Specifically, the locking structure 212 can be rotatably disposed on the movable member 211 and the fixed seat 210, when the locking structure 212 rotates, the locking structure 212 can drive the movable member 211 to move relative to the fixed seat 210, the distance between the movable member 211 and the fixed seat 210 is reduced when the locking structure 212 is locked, the locking structure 212 is released, and the distance between the movable member 211 and the fixed seat 210 is increased. The locking structure 212 includes a wrench 2120, a locking member 2121, and an elastic member 2122. The wrench 2120 is disposed on a side of the movable member 211 opposite to the fixed base 210, and the wrench 2120 is connected to the locking member 2121 and can drive the locking member 2121 to rotate. The locking member 2121 penetrates through the movable member 211, the elastic member 2122 and the fixed seat 210, and when the wrench 2120 drives the locking member 2121 to rotate, the locking member 2121 can drive the movable member 211 to move relative to the fixed seat 210. The locking member 2121 may be a screw. The elastic element 2122 is located between the fixed base 210 and the movable element 211 near the end of the fixed base 210, and the elastic element 2122 is always in a pressed state.

Specifically, after the base 12 of the middle frame 10 (or the component to be assembled) is received in the receiving groove 213, the locking structure 212, the fixed seat 210 and the movable member 211 cooperate with each other to fix or release the base 12. For example, when the locking structure 212 is locked, i.e. the wrench 2120 rotates and drives the locking member 2121 to rotate in the first rotation direction, the locking member 2121 drives the movable member 211 to move in the first moving direction M1, and the movable member 211 further compresses the elastic member 2122 and gradually approaches the fixed seat 210, so that the size of the accommodating groove 213 is gradually reduced, thereby fixing the supporting member 20 on the base 12. When the locking structure 212 is released, that is, the wrench 2120 rotates and drives the locking member 2121 to rotate towards the second rotation direction, the locking member 2121 drives the movable element 211 to move along the second moving direction M2, the locking member 2121 gradually retracts, so that the pressure of the elastic element 2122 is reduced, the elastic element 2122 gradually recovers to the original length and applies a pressing force to the movable element 211 along the second moving direction M2, and the pressing force presses the movable element 211 when the size of the accommodating groove 213 is gradually increased, so that the supporting element 20 can be detached from the base 12, or the supporting element 20 can be slid to different positions on the base 12. The first rotation direction may be a clockwise rotation direction, and the second rotation direction may be a counterclockwise rotation direction. Of course, the first rotation direction and the second rotation direction may be other directions, and are not limited herein.

Referring to fig. 5, when the supporting member 20 (or the component to be mounted) is mounted on the base 12 from different directions, the position-limiting structure 30 can limit the position of the supporting member 20 (or the component to be mounted) on the base 12, so as to prevent the supporting member 20 (or the component to be mounted) from being mounted on the base 12 in a misaligned manner. The position-limiting structure 30 further includes a position-limiting portion 22, a shift lever 24 and an elastic body 25. The position-limiting part 22, the shift lever 24 and the elastic body 25 are all disposed in the supporting member 20, and the position-limiting part 22 is retractable. Specifically, the bottom surface of the receiving groove 213 is provided with a pin hole 214. Support member 20 has seted up spout 23, and spout 23 can be seted up on fixing base side 2101, and spout 23 and fixing base holding tank 2102 can be seted up on different fixing base side 2101. For example, the sliding groove 23 and the holder accommodating groove 2102 may be opened on the adjacent holder side surfaces 2101, respectively. The slide groove 23 communicates with the pin hole 214. The stopper portion 22 may be a safety pin 22, the safety pin 22 is disposed in the pin hole 214, and the safety pin 22 can move in the pin hole 214 to selectively protrude into the receiving groove 213 or be completely received in the pin hole 214. After the mounting portion 21 is mounted on the base 12, the safety pin 22 extends into the receiving hole 124 to limit the movement of the supporting member 20 relative to the middle frame 10. When the mounting portion 21 is detached from the base 12, the safety pin 22 protrudes out of the receiving hole 124 so that the support member 20 is out of the limit of the middle frame 10. When the receiving holes 124 are plural in number, the safety pins 22 can be inserted into different receiving holes 124 to limit the movement of the supporting member 20 relative to the middle frame 10 when the mounting portion 21 is mounted on the base 12 from different directions. One end of the driving lever 24 passes through the sliding slot 23 and is connected to the safety pin 22, and the other end of the driving lever 24 extends out of the sliding slot 23 from the support 20, and the driving lever 24 can slide in the sliding slot 23 to drive the safety pin 22 to selectively extend out of the receiving slot 213 or be completely received in the pin hole 214. Elastomer 25 may be disposed within pin aperture 214, elastomer 25 being disposed on a side of shear pin 22 remote from base 12, elastomer 25 being capable of driving shear pin 22 to move and extend into receiving aperture 124. The elastic body 25 can always provide an elastic force to the safety pin 22, the elastic force makes the safety pin 22 extend into the receiving groove 213, and the elastic force also makes the shift lever 24 located at one end of the sliding groove 23 close to the receiving groove 213.

Specifically, when the support member 20 is mounted toward the base 12 of the center frame 10 (or the component to be assembled) in one of the mounting directions, the mounting portion 21 (or the side surface of the receiving groove 213) can slide along the groove 13 of the base 12, the shear pin 22 is retracted into the pin hole 214 by the pressing force of the base surface 122 and is completely received in the pin hole 214, and correspondingly, the shift lever 24 also slides to the end of the slide groove 23 away from the receiving groove 213 by the force; when the safety pin 22 slides to the position of the receiving hole 124 corresponding to the installation direction, the safety pin 22 loses the pressing force of the seat surface 122, and the safety pin 22 is driven by the elastic body 25 under the action of its own elastic force to extend into the receiving hole 124, at this time, the safety pin 22 limits the continuous sliding of the support member 20, so that the installation of the support member 20 and the seat 12 is prevented from being misaligned.

When a user needs to detach the supporting member 20 from the middle frame 10 (or the component to be assembled), the user can toggle the toggle lever 24 to one end of the sliding slot 23 away from the accommodating slot 213, the toggle lever 24 can drive the safety pin 22 to disengage from the accommodating hole 124 and move to be completely accommodated in the pin hole 214, and at this time, the user can slide the mounting portion 21 (or the side surface of the accommodating slot 213) along the groove 13 of the base 12 and gradually slide out of the base 12, so as to complete detachment of the supporting member 20 from the middle frame 10 (or the component to be assembled).

In some embodiments, support member 20 may further include a second premade mounting portion 28, and second premade mounting portion 28 may be used to mount a second premade element. The second reserved element can be a soft light, a reflector, a flash lamp, a quartz lamp, a microphone and other shooting equipment or other equipment. In other embodiments, the second reserved mounting portion 28 may be a second reserved hole 28, and the second reserved hole 28 is opened on the surface of the support member 20. The second preformed hole 28 may be a threaded hole of 1/8 imperial. The number of the second preformed holes 28 may be plural, and a plurality of the second preformed holes 28 are arranged at intervals along the length extension direction of the supporting member 20. Further, in the plurality of second prepared holes 28, the size of two adjacent second prepared holes 28 may be different. In another embodiment, the second pre-fixing portion 28 may be a snap structure, a screw structure, or the like capable of fixing the second pre-fixing member to the support 20.

In some embodiments, support 20 may further include side plate 26, or support 20 may further include handle 27, or support 20 may further include both side plate 26 and handle 27.

When the supporting member 20 further includes a side plate 26, referring to fig. 3 to 5, the side plate 26 may be a plate-shaped structure, and the mounting portion 21 may be located at one end of the side plate 26. The side plate 26 may further include a side plate body 263, a coupling block 264, a mounting structure 265, a coupling portion 266, and a pressing portion 267. One end of the side plate body 263 can be connected to the mounting portion 21, and the other end of the side plate body 263 can be connected to the coupling portion 266 and the pressing portion 267. The side plate body 263 includes a side plate top surface 260, a side plate bottom surface 261, and a side plate side surface 262, wherein the side plate top surface 260 and the side plate bottom surface 261 are disposed opposite to each other, and the side plate side surface 262 connects the side plate top surface 260 and the side plate bottom surface 261. The side plate body 263 has a plurality of coupling holes 2630 disposed at intervals, the coupling holes 2630 penetrate through the side plate bottom surface 261 from the side plate top surface 260, and the coupling holes 2630 can be used for matching with other shooting devices (e.g., a soft light, a reflector, a flashlight, a quartz lamp, a microphone, etc.) or other devices. The coupling hole 2630 may be a threaded hole of the english 1/4. The number of the coupling holes 2630 may be plural, and the plural coupling holes 2630 are arranged at intervals along the length extension direction of the side plate body 263. It is understood that the support 20 may be formed with the coupling hole 2630 instead of the second preformed hole 28. The supporting member 20 may be provided with the second preformed hole 28 instead of the combining block 2630. The supporting member 20 may also be provided with a combining block 2630 and a second preformed hole 28, the combining hole 2630 and the second preformed hole 28 are alternately arranged, so that the combining hole 2630 and the second preformed hole 28 can be adapted to shooting devices or other devices with different apertures.

The coupling block 264 and the mounting structure 265 may be located at the bottom of the side plate body 263, and the coupling block 264 extends from the mounting portion 21 toward the other end of the side plate body 263. The engagement block 264 includes a block 2640 and a flange 2641. The block 2640 is an annular structure surrounding the plurality of combining holes 2630 and the plurality of second preformed holes 28, and the convex edge 2641 protrudes from an edge of the block 2640 away from the end of the side plate body 263 toward a side away from the combining hole 2630 and is spaced from the side plate body 263. The mounting structure 265 may be used to mount a component to be mounted (or the support 20) and/or a pre-mounted component, that is, when the supports 20 are two or more, one of the supports 20 may be detachably mounted on the other support 20 through the mounting structure 265 (see fig. 13 and 14). The mounting structure 265 includes a mounting chute 265. the mounting chute 265 may be formed by a flange 2641 in spaced-apart engagement with the side plate body 263.

For example, when two support members 20 need to be joined, the mounting portion 21 of one of the support members 20 may be mounted on the mounting structure 265 of the other support member 20. Specifically, the mounting portion 21 (or the side surface of the receiving groove 213) of the support member 20 may slide along the mounting sliding groove 265 of the other support member 20, and the support member 20 may slide along the mounting sliding groove 265 of the other support member 20 and be fixed to any position on the mounting sliding groove 265 by the mounting portion 21 of the support member 20. Of course, in other embodiments, the mounting portion 21 of the supporting member 20 may not slide along the mounting sliding slot 265 of another supporting member 20, that is, the mounting portion 21 of the supporting member 20 may increase the size of the receiving slot 213 through the above embodiments, so that the mounting portion 21 of the supporting member 20 can be directly mounted at any position on the mounting sliding slot 265.

The coupling portion 266 defines a coupling slot 2660, and the coupling slot 2660 extends through the side plate top surface 260 and the side plate side surface 262. The coupling groove 2660 may be used to mate with other photographing devices (e.g., a soft light, a reflector, a flashlight, a quartz lamp, a microphone, etc.). The bottom surface of the coupling groove 2660 is further formed with a through hole 2661, and the through hole 2661 extends from the bottom of the coupling groove 2660 toward the coupling block 264 and penetrates through the coupling block 264.

The pressing portion 267 is disposed in the through hole 2661 and can move in the through hole 2661 to selectively protrude from the side of the bottom surface 261 of the side plate to the outside of the through hole 2661 or be accommodated in the through hole 2661. The pressing portion 267 includes a position-limiting head 2670, an elastic element 2671 and a pin body 2672. The stopper 2670 and the elastic element 2671 are received in the through hole 2661. One end of the elastic element 2671 is connected to the position-limiting head 2670, and the other end of the elastic element is abutted against the pin body 2672, so that a part of the pin body 2672 extends out of the through hole 2661. The position limiting head 2670 can prevent the elastic element 2671 and the pin body 2672 from completely separating from the through hole 2661. For example, when the mounting portion 21 of one of the supporters 20 slides in along the mounting sliding slot 265 of the other supporter 20 and passes the pressing portion 267, the bottom surface of the receiving groove 213 of the one supporter 20 generates a pressing force on the pin body 2672, and the pin body 2672 retracts into the through hole 2661, so that the one supporter 20 smoothly slides in the mounting sliding slot 265 of the other supporter 20. After the one support 20 slides over the pressing portion 267, the pin body 2672 loses the pressing force of the bottom surface of the receiving groove 213, and the elastic element 2671 drives the pin body 2672 to extend out of the through hole 2661 under the action of its own elastic force, and at this time, the pressing portion 267 prevents the one support 20 from sliding out of the other support 20 along the length extension direction of the side plate body 263 (see the connection manner in fig. 14 and 15), so that the two supports 20 can be prevented from being separated from each other due to an excessively large adjustment range when a user adjusts the position of the one support 20 on the other support 20.

When the supporting member 20 further includes a handle 27, referring to fig. 6 and 7, the handle 27 may be a column structure, and the mounting portion 21 may be located at one end of the handle 27. The handle 27 comprises a handle top surface 270, a handle bottom surface 271 and a handle side surface 272, wherein the handle top surface 270 and the handle bottom surface 271 are arranged oppositely, the handle side surface 272 connects the handle top surface 270 and the handle bottom surface 271, the mounting portion 21 is arranged on the handle top surface 270, and the handle bottom surface 271 is provided with an opening 276.

The handle 27 may include a first handle body 273, a second handle body 274, and a handle sleeve 275. The mounting portion 21 is provided on the first handle 273, and an external thread is formed on an end of the first handle 273 remote from the mounting portion 21. The second shank 274 has a cylindrical shape, an internal thread is formed at one end of the second shank 274, and the first shank 273 and the second shank 274 can be detachably connected by the external thread and the internal thread. The second handle body 274 has a hollow structure. As such, the hollow second handle body 274 not only facilitates reducing the weight of the handle 27, but also allows a user to receive associated accessories within the second handle body 274. The sleeve 275 has a ring-shaped structure, and the sleeve 275 is detachably fitted to the second handle body 274, so that a user can replace different types of sleeves 275 according to personal preference. In addition, the grip 275 can increase the grip friction, facilitating the grip.

In the case where the cradle head 1000 is not provided with the cradle 300, the cradle 300 may be provided in the attachment assembly 100, and the cradle 300 may be detachably mounted on the handle 27 through the opening 276 of the handle bottom surface 271. The stand 300 may be a tripod, and thus, the stand 300 can serve as a support structure of the coupling assembly 100 to provide assistance to a user's desired photographing effect.

When the supporting member 20 further includes the side plate 26 and the handle 27, the side plate 26 and the handle 27 may be independent structures, the mounting portion 21 is disposed at one end of each of the side plate 26 and the handle 27, and the specific structures of the side plate 26 and the handle 27 are the same as those described above, and are not described herein again. The side plates 26, the handle 27 and the middle frame 10 can be combined in various ways. That is, the mounting portions 21 on the side plates 26 are detachably mounted on the base 12 of the middle frame 10; the mounting part 21 on the handle 27 is detachably mounted on the base 12 of the middle frame 10; the mounting portion 21 on the handle 27 is also detachably mounted on the mounting structure 265 on the side plate 26; when the number of the supporting members 20 with the side plates 26 is plural, the mounting portion 21 on one of the side plates 26 is detachably mounted on the mounting structure 265 of the other side plate 26.

The number of the supporting members 20 in one connecting assembly 100 may be one, two or more, and hereinafter, for convenience of describing a combination manner of the connecting assembly 100, in the case that the supporting member 20 includes the side plate 26, the mounting portion 21 of the supporting member 20 is referred to as a mounting portion 21 on the side plate 26. Similarly, where support member 20 includes a handle 27, mounting portion 21 of support member 20 is referred to as mounting portion 21 on handle 27. The mounting part 21 on the side plate 26 is detachably mounted on the base 12 of the middle frame 10; the mounting part 21 on the handle 27 is detachably mounted on the base 12 of the middle frame 10; the mounting portion 21 of the handle 27 is also removably mounted to the mounting structure 265 of the side plate 26. When the number of the supporting members 20 in the connecting assembly 100 is one, the supporting members 20 may include a side plate 26 and a mounting portion 21 on the side plate 26; alternatively, the support member 20 may include a handle 27 and a mounting portion 21 on the handle 27. When the number of the supporting members 20 in the connecting assembly 100 is two, the supporting members 20 may include two side plates 26 and the mounting portions 21 on the two side plates 26, and at this time, the mounting portion 21 on one side plate 26 is detachably mounted on the mounting structure 265 of the other side plate 26; alternatively, the support member 20 may include one side plate 26, the mounting portion 21 on one side plate 26, one handle 27, and the mounting portion 21 on one handle 27, wherein the mounting portion 21 on the handle 27 is detachably mounted on the mounting structure 265 of the other side plate 26.

In the case where the connecting assembly 100 includes the middle frame 10, the support member 20 may further include the side plates 26 and/or the handles 27, and there are various combinations of the middle frame 10, the side plates 26, and/or the handles 27. To more clearly illustrate the various combinations of the connector assembly 100, eight of these combinations are listed below. Of course, the combination of the connecting assembly 100 is not limited to the following eight ways, and is not necessarily expanded here.

A first combination of: the number of the support members 20 is one, and the support members 20 include side plates 26. Reference may be made to fig. 9 to 12, fig. 19.

A second combination of: the number of the support member 20 is one, and the support member 20 includes a handle 27. Reference may be made to fig. 20.

In a third combination: the number of supports 20 is two, both supports 20 comprising side plates 26.

A fourth combination: the number of supports 20 is two, one support 20 comprising a side plate 26 and the other support 20 comprising a handle 27. Reference may be made to fig. 14 and 15.

A fifth combination: the number of supports 20 is three, and each of the three supports 20 includes a side plate 26. Wherein, two side plates 26 are connected on the middle frame 10, and the other side plate 26 is connected with any one side plate 26; the length extension directions of the three side plates 26 are different from the length extension direction of the operation portion 202 of the cradle head 1000, and the length extension directions of two side plates 26 are the same.

A sixth combination: the number of supports 20 is three, two supports 20 each comprising a side plate 26, the other support 20 comprising a handle 27. Wherein, the two side plates 26 are connected with each other, and the handle 27 is connected with one of the two side plates 26; one side plate 26 is connected to the middle frame 10, and the length extension direction of the other side plate 26, the length extension direction of the handle 27, and the length extension direction of the operation portion 202 of the pan/tilt head 1000 are the same.

Reference may be made to fig. 16.

A seventh combination: the number of supports 20 is three, one support 20 comprising a side plate 26 and two supports 20 each comprising a handle 27.

An eighth combination: the number of supports 20 is four, two supports 20 each comprising a side plate 26, and two other supports 20 each comprising a handle 27. Wherein, the length extension directions of the two handles 27 are the same as or opposite to the length extension direction of the operation part 201 of the tripod head 1000. Reference may be made to fig. 17, 22 to 26.

In the first combination, the mounting portion 21 of the side plate 26 is detachably mounted on the base 12 of the middle frame 10. Referring to fig. 8, the mounting portions 21 of the side plates 26 can be mounted on the base 12 of the middle frame 10 from four different directions, wherein the four directions include a first direction D1, a second direction D2, a third direction D3 and a fourth direction D4, the first direction D1 is opposite to the second direction D2, the third direction D3 is opposite to the fourth direction D4, the first direction D1 is perpendicular to the third direction D3 and the fourth direction D4, and the second direction D2 is also perpendicular to the third direction D3 and the fourth direction D4. The first direction D1 may be a direction from the side of the top surface 14 of the middle frame 10 toward the base 12; the second direction D2 may be installed from one side of the bottom surface 15 of the middle frame 10 toward the base 12; the third direction D3 and the fourth direction D4 may be installed from one side of the frame side surface 16 of the middle frame 10 toward the base 12. As shown in fig. 9, the mounting portions 21 of the side plates 26 are mounted on the base 12 of the middle frame 10 from the first direction D1. As shown in fig. 10, the mounting portions 21 of the side plates 26 are mounted on the base 12 of the middle frame 10 from the second direction D2. As shown in fig. 11, the mounting portion 21 of the side plate 26 is mounted on the base 12 of the middle frame 10 from the third direction D3. As shown in fig. 12, the mounting portion 21 of the side plate 26 is mounted on the base 12 of the middle frame 10 from the fourth direction D4. The mounting portions 21 of the side plates 26 can be mounted on the base 12 at different positions of the middle frame 10, wherein the mounting portions 21 of the side plates 26 can be mounted on the base 12 at the first side 160, the mounting portions 21 of the side plates 26 can be mounted on the base 12 at the second side 161, and the mounting portions 21 of the side plates 26 can be mounted on the base 12 at the inclined side 162. Therefore, the user can adjust different installation positions and installation directions according to actual conditions, and different shooting postures of the user can be adapted to. Moreover, when the mounting portion 21 of the side plate 26 is mounted on the base 12 located on the inclined side 162, the side plate 26 is inclined in a direction away from the cradle head 1000, so that a certain avoiding space is formed for the cradle head 1000 when the user holds the side plate 26 without making the length of the side plate 26 longer, and interference between the handle and the cradle head 1000 or interference of the user with rotation of the cradle head 1000 at the hand can be avoided. In addition, since the mounting portion 21 of the side plate 26 is mounted on the base 12 located on the inclined side 162, the center of gravity of the connecting assembly 100 is deviated, which is beneficial to the user to save more labor during holding the side plate 26.

In the second combination, the mounting portion 21 of the handle 27 is detachably mounted on the base 12 of the middle frame 10, the mounting portion 21 of the handle 27 can be mounted on the base 12 of the middle frame 10 from four different directions, and the mounting portion 21 of the handle 27 can be mounted on the base 12 located at different positions on the frame side surface 16. The specific installation direction and installation position can refer to the first combination, that is, the connection assembly 100 in the second combination can include twelve connection modes.

The first connection mode is as follows: the mounting portion 21 of the handle 27 is mounted to the base 12 on the first side 160 of the middle frame 10 from the first direction D1.

The second connection mode is as follows: the mounting portion 21 of the handle 27 is mounted to the base 12 on the first side 160 of the middle frame 10 from the second direction D2.

The third connection mode is as follows: the mounting portion 21 of the handle 27 is mounted to the base 12 on the first side 160 of the middle frame 10 from the third direction D3.

The fourth connection mode is as follows: the mounting portion 21 of the handle 27 is mounted on the base 12 of the first side 160 of the middle frame 10 from the fourth direction D4.

The fifth connection mode: the mounting portion 21 of the handle 27 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1.

The sixth connection mode: the mounting portion 21 of the handle 27 is mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D2.

The seventh connection mode: the mounting portion 21 of the handle 27 is mounted on the base 12 of the second side 161 of the middle frame 10 from the third direction D3.

The eighth connection mode: the mounting portion 21 of the handle 27 is mounted on the base 12 of the second side 161 of the middle frame 10 from the fourth direction D4.

Ninth connection mode: the mounting portion 21 of the handle 27 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1.

The tenth connection mode: the mounting portion 21 of the handle 27 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D2.

An eleventh connection mode: the mounting portion 21 of the handle 27 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the third direction D3.

The twelfth connection mode: the mounting portion 21 of the handle 27 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the fourth direction D4.

In the third combination, the mounting portion 21 of one side plate 26 is detachably mounted on the base 12 of the middle frame 10, and the mounting portion 21 of the other side plate 26 is detachably mounted on the mounting structure 265 of the one side plate 26. The specific installation direction and installation position may refer to the first combination, that is, the connection assembly 100 in the third combination may include twelve connection modes. It is to be understood that the connection manner of the connection assembly 100 in the third combination is not limited to the connection manner given below, and is not expanded one by one.

The first connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The second connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D2, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The third connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the third direction D3, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The fourth connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the fourth direction D4, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The fifth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The sixth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D2, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The seventh connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the third direction D3, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The eighth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the fourth direction D4, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

Ninth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The tenth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D2, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

An eleventh connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the third direction D3, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

The twelfth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the fourth direction D4, and the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26.

In the fourth combination, the mounting portion 21 of the side plate 26 is detachably mounted on the base 12 of the middle frame 10, and the mounting portion 21 of the handle 27 is detachably mounted on the mounting structure 265 of the side plate 26. The specific installation direction and installation position can refer to the first combination, that is, the connection assembly 100 in the fourth combination can include twelve connection modes. It is to be understood that the connection manner of the connection assembly 100 in the fourth combination is not limited to the connection manner given below, and is not expanded one by one.

The first connection mode is as follows: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The second connection mode is as follows: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D2, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The third connection mode is as follows: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the third direction D3, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The fourth connection mode is as follows: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the fourth direction D4, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The fifth connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The sixth connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D2, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The seventh connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the third direction D3, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The eighth connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the fourth direction D4, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

Ninth connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The tenth connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D2, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

An eleventh connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the third direction D3, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

The twelfth connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the fourth direction D4, and the mounting portion 21 of the handle 27 is mounted on the mounting structure 265 of the side plate 26.

In the fifth combination, the mounting portion 21 of one side plate 26 is detachably mounted on the base 12 of the middle frame 10, and the mounting portions 21 of the other two side plates 26 are detachably mounted on the mounting structure 265 of the one side plate 26. Alternatively, the mounting portions 21 of the two side plates 26 are detachably mounted on the base 12 of the middle frame 10, and the mounting portion 21 of the third side plate 26 is detachably mounted on the mounting structure 265 of any one of the side plates 26. The specific installation direction and installation position can refer to the first combination, that is, the connection assembly 100 in the fifth combination can include fourteen connection modes. It is to be understood that the connection manner of the connection assembly 100 in the fifth combination is not limited to the connection manner given below, and is not expanded one by one.

The first connection mode is as follows: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

The second connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D2, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structure 265 of the one side plate 26, respectively.

The third connection mode is as follows: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D3, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

The fourth connection mode is as follows: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the first side 160 of the middle frame 10 from the fourth direction D4, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

The fifth connection mode: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

The sixth connection mode: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D2, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

The seventh connection mode: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D3, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

The eighth connection mode: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the second side 161 of the middle frame 10 from the fourth direction D4, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

Ninth connection mode: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

The tenth connection mode: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D2, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

An eleventh connection mode: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D3, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

The twelfth connection mode: the mounting portions 21 of the one side plate 26 are mounted on the base 12 of the inclined side 162 of the middle frame 10 from the fourth direction D4, and the mounting portions 21 of the other two side plates 26 are mounted on the mounting structures 265 of the one side plate 26, respectively.

A thirteenth connection mode: the mounting portion 21 of the first side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, the mounting portion 21 of the second side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1, and the mounting portion 21 of the third side plate 26 is mounted on the mounting structure 265 of any one of the side plates 26 (the first side plate 26 or the second side plate 26). After the connection manner is connected to the cradle head 1000, the user can carry the connecting assembly 100 and the cradle head 1000, i.e. after the middle frame 10 is installed on the operating portion 202 of the cradle head 1000, the user can carry the handle 400 on the shoulder, hold the first side plate 26 with one hand, and hold the third side plate 26 with the other hand.

A fourteenth connection mode: the mounting portion 21 of the first side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of the second side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1, and the mounting portion 21 of the third side plate 26 is mounted on the mounting structure 265 of any one of the side plates 26 (the first side plate 26 or the second side plate 26). After the connection manner is connected to the cradle head 1000, the user can carry the connecting assembly 100 and the cradle head 1000, i.e. after the middle frame 10 is installed on the operating portion 202 of the cradle head 1000, the user can carry the handle 400 on the shoulder, hold the first side plate 26 with one hand, and hold the third side plate 26 with the other hand.

In the sixth combination, the mounting portion 21 of one side plate 26 is detachably mounted on the base 12 of the middle frame 10, the mounting portion 21 of the other side plate 26 is detachably mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also detachably mounted on the mounting structure 265 of the one side plate 26. Alternatively, the mounting portion 21 of one side plate 26 is detachably mounted on the base 12 of the middle frame 10, the mounting portion 21 of the other side plate 26 is detachably mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is detachably mounted on the other base 12 of the middle frame 10. The specific installation direction and installation position can refer to the first combination, that is, the connection assembly 100 in the sixth combination can include fourteen connection modes. It is to be understood that the connection manner of the connection assembly 100 in the sixth combination is not limited to the connection manner given below, and is not expanded one by one.

The first connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The second connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D2, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The third connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D3, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The fourth connection mode is as follows: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side surface 160 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The fifth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The sixth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D2, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The seventh connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D3, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The eighth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

Ninth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The tenth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D2, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

An eleventh connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D2, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

The twelfth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is also mounted on the mounting structure 265 of the one side plate 26.

A thirteenth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1.

A fourteenth connection mode: the mounting portion 21 of the one side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of the other side plate 26 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the handle 27 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1.

In the seventh combination, the mounting portion 21 of the side plate 26 is detachably mounted on the base 12 of the middle frame 10, the mounting portion 21 of one handle 27 is detachably mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also detachably mounted on the mounting structure 265 of the side plate 26. Alternatively, the mounting portion 21 of the side plate 26 is detachably mounted on the base 12 of the middle frame 10, the mounting portion 21 of one handle 27 is detachably mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is detachably mounted on the other base 12 of the middle frame 10. The specific installation direction and installation position can refer to the first combination, that is, the connection assembly 100 in the seventh combination can include fourteen connection modes. It is to be understood that the connection manner of the connection assembly 100 in the seventh combination is not limited to the connection manner given below, and is not expanded one by one.

The first connection mode is as follows: the mounting portions 21 of the side plates 26 are mounted to the base 12 on the first side 160 of the middle frame 10 from the first direction D1, the mounting portion 21 of one handle 27 is mounted to the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted to the mounting structure 265 of the side plate 26.

The second connection mode is as follows: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D2, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

The third connection mode is as follows: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D3, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

The fourth connection mode is as follows: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the first side 160 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

The fifth connection mode: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

The sixth connection mode: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D2, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

The seventh connection mode: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D3, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

The eighth connection mode: the mounting portion 21 of the side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

Ninth connection mode: the mounting portions 21 on the side plates 26 are mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1, the mounting portion 21 on one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 on the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

The tenth connection mode: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D2, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

An eleventh connection mode: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the inclined side 162 of the middle frame 10 from the second direction D3, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

The twelfth connection mode: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the inclined side 162 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is also mounted on the mounting structure 265 of the side plate 26.

A thirteenth connection mode: the mounting portions 21 on the side plates 26 are mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, the mounting portion 21 on one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 on the other handle 27 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1.

A fourteenth connection mode: the mounting portions 21 of the side plates 26 are mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1.

In the eighth combination, the mounting portions 21 of the two side plates 26 are detachably mounted on the base 12 of the middle frame 10, and the mounting portions 21 of the two handles 27 are detachably mounted on the mounting portion 21 of any one of the side plates 26. The specific installation direction and installation position can refer to the first combination, that is, the connection assembly 100 in the eighth combination can include eight connection modes. It is understood that the connection manner of the connection assembly 100 in the eighth combination is not limited to the connection manner given below, and is not expanded one by one.

The first connection mode is as follows: the mounting portion 21 of one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, the mounting portion 21 of the other side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the mounting structure 265 of the other side plate 26.

The second connection mode is as follows: the mounting portion 21 of one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D2, the mounting portion 21 of the other side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the mounting structure 265 of the other side plate 26.

The third connection mode is as follows: the mounting portion 21 of one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the third direction D3, the mounting portion 21 of the other side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the mounting structure 265 of the other side plate 26.

The fourth connection mode is as follows: the mounting portion 21 of one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of the other side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the mounting structure 265 of the other side plate 26.

The fifth connection mode: the mounting portion 21 of one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of the other side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the mounting structure 265 of the other side plate 26.

The sixth connection mode: the mounting portion 21 of one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the second direction D2, the mounting portion 21 of the other side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the second direction D2, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the mounting structure 265 of the other side plate 26.

The seventh connection mode: the mounting portion 21 of one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the third direction D3, the mounting portion 21 of the other side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the third direction D3, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the mounting structure 265 of the other side plate 26.

The eighth connection mode: the mounting portion 21 of one side plate 26 is mounted on the base 12 of the first side 160 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of the other side plate 26 is mounted on the base 12 of the second side 161 of the middle frame 10 from the fourth direction D4, the mounting portion 21 of one handle 27 is mounted on the mounting structure 265 of the one side plate 26, and the mounting portion 21 of the other handle 27 is mounted on the mounting structure 265 of the other side plate 26.

To more clearly show the combination of the connecting assembly 100, some of the drawings in the specification are described in further detail below.

In each of fig. 9 to 12, there are two connecting members 110, one of which is the middle frame 10 and the other of which is the supporting member 20. The support members 20 (i.e., the side plates 26) are mounted on the middle frame 10 from different directions. So, the user can select suitable installation orientation to be connected support piece 20 and center 10 according to actual conditions to make up different connected modes in order to adapt to user's shooting demand and shooting environment, for example, install the accessory additional on curb plate 26, richen cloud platform 1000's function, for example, the cloud platform 1000 is carried to the one hand again and shoots.

In fig. 14, there are three connecting members 110, one of which is the middle frame 10 and two of which are the supporting members 20. After the support member 20 (i.e., the side plate 26) is connected to the support member 20 (i.e., the handle 27), the support member 20 (i.e., the side plate 26) is mounted on the base 12 of the second side 161 of the middle frame 10 from the first direction D1. After the connection manner is connected to the cradle head 1000, a user can hold the support member 20 (i.e., the handle 27) with a single hand to horizontally photograph the cradle head 1000, which is beneficial for the user to photograph in a low-position situation, for example, the user can run and follow-up photograph the target object while carrying the connection assembly 100 and the cradle head 1000 with a single hand. Of course, such a connection mode can also realize the shooting by the holding handle 400 of the cradle head 1000 through the double-hand holding of the cradle head 1000.

In fig. 15, there are three connecting members 110, one of which is the middle frame 10 and two of which are the supporting members 20. After the support member 20 (i.e., the side plate 26) is connected to the support member 20 (i.e., the handle 27), the support member 20 (i.e., the side plate 26) is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1. After the connection manner is connected with the pan/tilt head 1000, a user can hold the position of the handle 27 of the support member 20 (i.e., the handle 27) with a single hand to horizontally photograph the pan/tilt head 1000, which is beneficial for the user to photograph in a low-position situation, for example, the user can run and follow-up photograph a target object while holding the connection assembly 100 and the pan/tilt head 1000 with a single hand. In addition, the connection of fig. 15 and the connection of fig. 14 can be used as a single-hand mode, and the center of gravity of the connection assembly 100 is deviated due to the base 12 on the inclined side 162 in the single-hand mode of fig. 15, which is beneficial to save more labor for a user in holding the handle 27.

In fig. 16, there are four connecting members 110, one of which is the middle frame 10 and three of which are the supporting members 20. After one of the supporting members 20 (i.e., the side plate 26) is mounted on the base 12 of the first side 160 of the middle frame 10 from the first direction D1, the other supporting member 20 (i.e., the side plate 26) is mounted on the one supporting member 20 (i.e., the side plate 26) together with the supporting member 20 (i.e., the handle 27). After the connection mode is connected with the cradle head 1000, a user can use the device in cooperation with various shooting devices, that is, after the middle frame 10 is installed on the operation portion 202 of the cradle head 1000, the user can hold the handle 27 position of the support member 20 (i.e., the handle 27) to shoot, and when various shooting devices need to be matched at the same time, the user can install the shooting devices at the one support member 20 (i.e., the side plate 26) and the other support member 20 (i.e., the side plate 26).

In fig. 17 there are three connectors 110, one of which is the middle frame 10, one of which comprises two side plates 26 forming one connector 110, and the other of which comprises two handles 27. After each side plate 26 is connected to each handle 27, the side plates 26 are respectively mounted on the base 12 of the first side 160 and the second side 181 of the middle frame 10 from the first direction D1. After the connection mode is connected with the holder 1000, the user can combine to use as a two-hand holding mode, and the user can respectively hold the handles at the two sides with two hands for use. The user can be more laborsaving in this two-handed form, and when the user moves, the user exerts more even force on the coupling assembling 100, is favorable to the user to shoot more steadily. In addition, the connection means can be combined to be used in a single hand-held mode, and the user can hold the support member (i.e., the handle 27) on either side with the hand.

In fig. 18, there is a connector 110, and the connector 110 is the middle frame 10. The middle frame 10 is mounted on the operation portion 202 of the pan/tilt head 1000. Under this kind of light connected mode, coupling assembling 100 and cloud platform 1000 can make up and use as the form of single hand-held, and the user can carry out simple auto heterodyne under the form of single hand-held, and the user also can install relevant shooting equipment on center 10 to as an auxiliary form, be favorable to the user to obtain better auto heterodyne effect.

Fig. 19 shows the connection of the middle frame 10 to the head 1000, and the connection of the support member 20 (i.e., the side plate 26) to the middle frame 10. In this connection, the connection assembly 100 and the head 1000 may be used in combination as a single-hand-held mode, where a user may hold the side plate 26 position of the support member 20 (i.e., the side plate 26) with a single hand for use. The user can mount the relevant photographing equipment on the side plate 26 of the support 20 (i.e., the side plate 26). In addition, the connection mode can also be combined to be used as a shoulder-carrying mode, and a user can carry the connecting component 100 and the pan-tilt head 1000, namely, the user can carry the handle 400 on the shoulder and hold the position of the side plate 26 of the supporting component (namely, the side plate 26) with one hand. Thus, the shoulder-carrying type connection mode is beneficial to the user that the fatigue degree of the connection assembly 100 and the cradle head 1000 on the body of the user is not too large under the condition of long shooting time, and is beneficial to the body of the user to be relaxed.

Fig. 20 shows the connection of the middle frame 10 to the head 1000, and the connection of the support member 20 (i.e., the handle 27) to the middle frame 10. In this connection, the connection assembly 100 and the head 1000 may be combined for use in a single-hand-held mode, wherein a user may use the support member 20 (i.e., the handle 27) in a single hand. Fig. 20 is different from fig. 19 in that the user may use the connection mode of fig. 20 when the user does not need the assistance of other photographing apparatuses, and may use the connection mode of fig. 19 when the user needs to match with other photographing apparatuses. In addition, the connection mode can be combined to be used as a shoulder-carrying mode, and a user can carry the connecting component 100 and the pan-tilt head 1000, namely, the user can carry the handle 400 on the shoulder and hold the supporting component (namely, the handle 27) with one hand.

In fig. 1, there are three connecting members 110, one of which is the middle frame 10 and two of which are the supporting members 20. The middle frame 10 is mounted on the operating portion 202 of the head 1000, one support 20 (i.e., the side plate 26) is mounted on the base 12 of the inclined side 162 of the middle frame 10 from the first direction D1, and the other support 20 (i.e., the handle 27) is mounted on the one support 20 (i.e., the side plate 26). In this manner of connection, the connection assembly 100 and the head 1000 may be used in combination as a hand-held mode, where a user may hold the position of the handle 27 of the support member 20 (i.e., the handle 27) with a single hand for use. The base 12 on the angled side 162 offsets the center of gravity of the connector assembly 100, which facilitates easier grasping of the handle 27 by a user.

Fig. 21 shows the connection assembly 100 connected to the cradle head 1000 in the combination manner of fig. 15. In this connection, the connecting assembly 100 and the cradle head 1000 can be combined to be used as a single-hand-held mode, and a user can hold the position of the handle 27 of the supporting member 20 (i.e., the handle 27) with a single hand to horizontally photograph the cradle head 1000, which is beneficial for photographing and using in a low-position situation, for example, the user can run and follow a target object while holding the connecting assembly 100 and the cradle head 1000 with a single hand. In addition, the base 12 on the inclined side 162 offsets the center of gravity of the connection assembly 100, which is beneficial for the user to save more effort during the process of holding the handle 27.

Fig. 22 shows the connection assembly 100 connected to the cradle head 1000 in the combination manner of fig. 17. In this connection, the connecting assembly 100 and the platform 1000 can be combined to be used in an upside-down mode (of course, a portable suspension mode is also possible) (a two-hand-held type), and a user can use the connecting assembly by holding the positions of the handles 27 of the supporting members 20 (including the handles 27) at both sides with both hands. The user can be more laborsaving in this two-handed form, and when the user moves, the user exerts more even force on the coupling assembling 100, is favorable to the user to shoot more steadily. In addition, the connection means can be combined to be used as a single hand-held mode, and a user can hold the handle 27 position of the support member (including the handle 27) on any side by hand.

In fig. 23, the middle frame 10 can be a connecting member 110, the two side plates 26 can be a connecting member 110, and the two handles can be a connecting member 110. The middle frame 10 is mounted on the operation portion 202 of the head 1000, and after each side plate 26 is connected to each handle 27, the side plates 26 are mounted on the base 12 of the first side 160 and the second side 181 of the middle frame 10 from the fourth direction D4. In this connection manner, the connecting assembly 100 and the cradle head 1000 can be combined to be used in a portable suspension mode (of course, an up-down inverted mode) (a two-hand holding mode), and a user can use the portable suspension mode by holding the positions of the handles 27 of the supporting members 20 (i.e., the handles 27) at two sides with two hands respectively, so that the hands of the user are not too tired due to the lower gravity center of the connecting assembly 100 and the cradle head 1000. In addition, the connection means can be combined to be used as a single hand-held mode, and a user can hold the handle 27 position of the support member (including the handle 27) on any side by hand.

In fig. 24, the middle frame 10 can be a connecting member 110, the two side plates 26 can be a connecting member 110, and the two handles can be a connecting member 110. The middle frame 10 is mounted on the operation portion 202 of the console 1000, and after each side plate 26 is connected to each handle 27, the side plates 26 are respectively mounted on the base 12 of the first side 160 and the second side 181 of the middle frame 10 from the first direction D1 and the fourth direction D4. In this connection, the connecting assembly 100 and the head 1000 can be used in a portable suspension mode (a two-handed type) in combination, and a user can use the assembly by holding the handles 27 on both sides with both hands. In addition, the connection means can be combined to be used in a single hand-held mode, and the user can hold the support member (i.e., the handle 27) on either side with the hand.

Fig. 25 shows that after the connecting assembly 100 of fig. 22 is connected to the pan/tilt head 1000, the supporting member (i.e., the handle 27) can move on the supporting member (i.e., the side plate 26), and the user can move the supporting member (i.e., the handle 27) to a proper position, and after moving to a position close to the operating portion 202, the user can hold the handle 27 and operate the operating portion 202.

Fig. 26 shows that after the connecting assembly 100 of fig. 22 is connected to the holder 1000, the holder 1000 can be used by detaching the handle 400 from the bracket 300, so that the space of the entire holder 1000 in the longitudinal direction can be reduced, which is beneficial to more flexible operation of a user.

The cloud platform equipment 2000 and the connection assembly 100 of this application embodiment can be connected with dismantling through setting up between arbitrary two connecting pieces 110, and have multiple connected mode between two connecting pieces 110 in order to support the multiple using-way of cloud platform 1000 and/or the multiple use gesture of adaptation cloud platform 1000 to be favorable to adapting to different shooting environment and provide supplementary, application scene pluralism for the required shooting effect of user. The connecting assembly 100 of the embodiment of the application further comprises the base 12 with a plurality of installation directions, so that the element to be installed can be installed on the base 12 from different installation directions according to actual conditions, the adaptability of the base 12 and the element to be installed is improved, the middle frame 10 and the element to be installed can be combined into a plurality of using postures, the using scenes of the connecting assembly 100 are enriched, a plurality of using modes and/or using postures can be formed by the middle frame and the element to be installed, and the diversification of the application scenes is facilitated. The connection assembly 100 of the embodiment of the present application further changes the size of the receiving groove 213 by setting the support member 20, so that the support member 20 is installed behind the cradle head 1000, the size of the receiving groove 213 can be reduced by a user to fix the support member 20 on the cradle head 1000, and when the support member 20 and the cradle head 1000 need to be detached, the size of the receiving groove 213 can be enlarged by the user to detach the support member 20 from the cradle head 1000, so the structure of the receiving groove 213 is simple, the operation of adjusting the size of the receiving groove 213 is convenient, it is beneficial to reducing the complexity of connecting the support member 20 and the cradle head 1000, and the assembly and disassembly. In addition, the position that coupling assembling 100 and cloud platform 1000 are connected has been increased to the storage tank 213 of equidimension not, and the user can be according to the different positions that the actual demand of shooing is connected coupling assembling 100 at cloud platform 1000 to make up into multiple use gesture with cloud platform 1000, make coupling assembling 100's application scene pluralism.

In the description herein, references to the description of the terms "certain embodiments," "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations of the above embodiments may be made by those of ordinary skill in the art within the scope of the present application, which is defined by the claims and their equivalents.

Claims (15)

1. A connecting assembly for a pan-tilt head is characterized by comprising a middle frame, wherein the middle frame is detachably connected with the pan-tilt head; the middle frame comprises a frame body and a base, wherein the base is fixed on the side face of the frame body, and the base is used for connecting an element to be installed and enabling the element to be installed to be detachably installed on the base from at least two directions.

2. The connection assembly according to claim 1, wherein the at least two directions comprise two directions, the two directions being parallel or perpendicular to each other; or

The at least two directions comprise three directions, two of the three directions are oppositely arranged, and/or two of the three directions are mutually and vertically arranged; or

The at least two directions include four directions, four the direction includes first direction, second direction, third direction and fourth direction, first direction with the second direction sets up relatively, the third direction with the fourth direction sets up relatively and all is perpendicular to first direction.

3. The connection assembly according to claim 1, wherein the frame includes a bottom frame surface and a top frame surface that are opposite to each other, wherein the side frame surfaces connect the bottom frame surface and the top frame surface, respectively, and include a first side surface and a second side surface that are opposite to each other, and wherein the first side surface and the second side surface connect the bottom frame surface and the top frame surface;

the number of the base is at least one, and at least one base is formed on the first side surface and/or the second side surface.

4. The connection assembly according to claim 3, wherein the frame side further includes an inclined side surface, the inclined side surface is disposed between the first side surface and the second side surface, the inclined side surface and the frame bottom surface are inclined to each other, the inclined side surface faces one side of the frame bottom surface, an included angle formed between the frame bottom surface and the inclined side surface is 100 ° -110 °, and at least one of the bases is formed on the inclined side surface.

5. The connecting assembly of claim 3, wherein the frame body is provided with a mounting through hole penetrating through the bottom surface of the frame body and the top surface of the frame body, and the connecting assembly is mounted on the holder; the frame body comprises a first frame body and a second frame body, and the first frame body and the second frame body are detachably connected; the first frame body is provided with a first mounting groove, the second frame body is provided with a second mounting groove, and when the first frame body is mounted on the second frame body, the first mounting groove and the second mounting groove jointly form the mounting through hole.

6. The connecting assembly according to claim 5, wherein the first frame body comprises a first frame body and two extending walls, the first mounting groove is formed in the first frame body, the two extending walls are respectively disposed at two opposite ends of the first mounting groove and are connected to the frame bottom surface and the frame top surface, the two extending walls and the first frame body jointly enclose a mounting space, and the second frame body is at least partially mounted in the mounting space; the number of the bases comprises a plurality of bases, and the plurality of bases are respectively arranged on the first frame body and/or the extension wall.

7. The connecting assembly according to claim 5, wherein the side surface of the first frame body comprises a first surface, a second surface and an inclined surface, the first surface and the second surface are respectively located on two opposite sides of the first frame body, the first surface and the second surface are both connected with the bottom surface of the first frame body, and the inclined surface and the bottom surface of the first frame body are inclined to each other;

the quantity of base is three, and three the base is fixed respectively first face, the second face with on the inclined plane.

8. The connection assembly according to claim 1, wherein the member to be mounted is provided with a receiving groove, the middle frame is provided with a groove, the member to be mounted can move along the groove when the member to be mounted is mounted toward the base, and the base is at least partially received in the receiving groove after the member to be mounted is mounted on the base.

9. The connection assembly according to claim 8, wherein the base includes a base body fixed to the frame side and a projection projecting from an edge of an end of the base body remote from the frame side and spaced apart from the frame;

the protruding part and the side face of the frame body are matched to form at least two grooves in the sliding direction, and the element to be mounted can move along the protruding part.

10. The connection assembly according to claim 9, further comprising a limiting structure for limiting the element to be mounted on the middle frame; the base body comprises a base surface far away from the side face of the frame body, the limiting structure comprises a containing hole formed in the base surface and a telescopic limiting part arranged on the element to be installed, and the limiting part can selectively stretch into or stretch out of the containing hole.

11. The connecting assembly according to claim 10, wherein the limiting portion is disposed in the receiving groove, and a pin hole is formed in a bottom surface of the receiving groove;

the limiting part comprises a safety pin, the safety pin is arranged in the pin hole and can move relative to the pin hole so as to selectively extend into the accommodating groove or be completely accommodated in the pin hole, and after the element to be installed is installed on the base, the safety pin extends into the accommodating hole so as to limit the element to be installed to move relative to the middle frame.

12. The connecting assembly according to claim 11, wherein the number of the receiving holes is at least two, the at least two receiving holes are distributed on the surface of the base at intervals, and the number of the receiving holes corresponds to the number of the directions in which the elements to be mounted are mounted on the base;

when the element to be installed is installed on the base from different directions, the safety pin can extend into different accommodating holes to limit the element to be installed to move relative to the middle frame.

13. The connecting assembly of claim 10, wherein a first reserved mounting portion is further disposed on the surface of the base, the first reserved mounting portion is used for mounting a first reserved element, and the first reserved mounting portion and the receiving hole are distributed at intervals.

14. The connecting assembly according to claim 1, wherein the element to be mounted is detachably mounted at least two different positions on the middle frame, and an included angle between the element to be mounted and the vertical direction can be changed when the position of the element to be mounted on the middle frame is changed.

15. A pan and tilt head apparatus, comprising:

the connection assembly of any one of claims 1 to 14; and

the cloud platform, the cloud platform with coupling assembling is connected.

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