CN210484510U - Counterweight assembly and holder assembly - Google Patents

Abstract

The utility model discloses a counter weight subassembly and cloud platform subassembly, cloud platform include axle construction and connecting seat, and the connecting seat is installed in axle construction, and counter weight subassembly includes counter weight structure and supporting structure, and supporting structure is used for the installation to shoot the device, and is configured to be can be connected with connecting seat detachably in different positions to make and shoot the device and catch the image with different orientations, the counter weight structure is configured to detachably linking bridge structure and/or axle construction and adjusts the focus of cloud platform. Above-mentioned counter weight subassembly through detachably installation counter weight structure on mounting structure and/or axial structure, adjusts the focus of cloud platform for even the cloud platform has assembled heavier shooting device, also can realize easily that increase of shooting device is steady and/or the gesture is adjusted.

Description

Counterweight assembly and holder assembly

Technical Field

The utility model relates to a cloud platform equipment technical field, in particular to counter weight subassembly and cloud platform subassembly.

Background

At present, a pan-tilt and a tripod are widely used for stability augmentation and posture adjustment of a shooting device so as to ensure the imaging quality of the shooting device and the requirements of users on shooting angles. However, when some heavy shooting devices are mounted on the pan/tilt head, the overall gravity center of the pan/tilt head is easily unstable, and it is difficult to stabilize and/or adjust the posture of the shooting device.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an embodiment provides a counter weight subassembly and cloud platform subassembly.

The embodiment of the utility model provides a pair of counterweight assembly for the cloud platform, the cloud platform includes axle construction and connecting seat, the connecting seat install in the axle construction, counterweight assembly includes:

a counterweight structure and a support structure;

the bracket structure is used for mounting a shooting device and is configured to be detachably connected with the connecting seat at different positions so that the shooting device captures images at different orientations;

the counterweight structure is configured to detachably connect the support structure and/or the axle structure to adjust the center of gravity of the head.

Above-mentioned counter weight subassembly through detachably installation counter weight structure on mounting structure and/or axial structure, adjusts the focus of cloud platform for even the cloud platform has assembled heavier shooting device, also can realize easily that increase of shooting device is steady and/or the gesture is adjusted.

In some embodiments, the counterweight structure comprises a counterweight block, the counterweight structure being configured to adjust the center of gravity of the pan/tilt head by detachably connecting the support structure and/or the axle structure with the counterweight block.

In some embodiments, the counterweight structure further comprises a counterweight track, the counterweight structure being configured to removably couple the counterweight track with the counterweight block to adjust the center of gravity of the pan/tilt head, and/or to removably couple the mounting structure with the counterweight track to adjust the center of gravity of the pan/tilt head.

In some embodiments, the counterweight structure is configured to adjust the center of gravity of the pan head by adjusting a position of the counterweight block on the counterweight track, a number of the counterweight blocks on the counterweight track, and/or a position of the counterweight track on the mounting structure.

In some embodiments, at least one first connection hole is formed on at least one surface of the counterweight track, and the first connection hole is used for connecting the counterweight block.

In certain embodiments, the weight track includes a first side panel opposite the second side panel, a second side panel opposite the third side panel, a fourth side panel connecting one end of the first side panel, the second side panel, the third side panel, and the fourth side panel, a fifth side panel connecting another end of the first side panel, the second side panel, the third side panel, and the fourth side panel, and a sixth side panel connecting another end of the first side panel, the second side panel, the third side panel, and the fourth side panel;

at least one first connecting hole is formed in the surface of at least one of the first side plate, the second side plate, the third side plate, the fourth side plate, the fifth side plate and the sixth side plate.

In some embodiments, the mounting structure is configured to capture an image of the camera in a first orientation or a second orientation;

the counterweight track is configured to be mounted at a first location of the mounting structure to adjust a center of gravity of the pan/tilt head while the camera captures images in the first orientation;

the counterweight track is configured to be mounted at a second location of the mounting structure to adjust a center of gravity of the pan/tilt head while the camera captures images in the second orientation;

wherein the first location and the second location are different.

In some embodiments, the mounting structure is configured to capture an image of the camera in a first orientation or a second orientation;

the support structure comprises a first plate and a second plate, and the first plate is used for mounting the shooting device;

the first plate is also for connecting the connection mount when the camera captures an image in the first orientation;

the second plate is for connecting the connection receptacle when the camera captures an image in the second orientation.

In some embodiments, the first plate defines a first position-limiting hole, and the counterweight assembly is configured to be detachably connected to the connecting seat by using the first position-limiting hole to adjust the center of gravity of the pan/tilt head; and/or the presence of a gas in the gas,

the second plate is provided with a second limiting hole, and the counterweight component is configured to be detachably connected with the connecting seat by utilizing the second limiting hole so as to adjust the gravity center of the holder; and/or

The first plate is further provided with a third limiting hole, and the first plate is configured to be detachably connected with the shooting device through the third limiting hole so as to adjust the position of the shooting device on the first plate.

In some embodiments, the first plate further has a third connecting hole, and the third connecting hole is used for connecting the counterweight structure.

In some embodiments, the first and third position-limiting holes are arranged in parallel;

the third limiting hole is long and comprises a first hole and a second hole which penetrate through the third limiting hole, and the size of the first hole is larger than that of the second hole.

In some embodiments, the first plate comprises first and second opposing faces, the first face for mounting the camera;

the first surface is provided with a first anti-slip part which is used for being in contact with the shooting device, and/or the second surface is provided with a second anti-slip part which is used for being in contact with the counterweight structure.

In some embodiments, the two outer side walls of the first plate and/or the two outer side walls of the second plate respectively extend outward to form a boss, and the boss is used for detachably mounting the bracket structure on the sliding groove of the external supporting device.

In some embodiments, the counterweight assembly further comprises an adapter plate, one end of the adapter plate being removably connected to the support structure and the other end of the adapter plate being removably connected to the counterweight structure.

In certain embodiments, the shaft structure comprises a first shaft structure comprising a first motor and a first shaft arm and a second shaft structure comprising a second motor and a second shaft arm;

one end of the first shaft arm is connected with the rotor of the first motor, and the other end of the first shaft arm is connected with the stator of the second motor;

one end of the second shaft arm is connected with the rotor of the second motor, and the other end of the second shaft arm is connected with the support structure;

the counterweight structure comprises a counterweight clamp and a counterweight block, the first shaft arm and/or the second shaft arm is/are used for being detachably connected with the counterweight clamp, the counterweight block is detachably installed on the counterweight clamp, and the counterweight clamp is configured to adjust the gravity center of the tripod head by adjusting the position of the counterweight clamp on the first shaft arm or the second shaft arm.

In some embodiments, the weight clip includes a weight clip body and a fastener provided on the weight clip body and capable of cooperating with the weight clip body to lock the weight clip on the first and/or second axle arm.

In some embodiments, the fastener comprises a tightening block and a knob, the tightening block can be pressed against the first shaft arm and/or the second shaft arm under the driving of the knob,

the counterweight clamp further comprises an elastic piece, and the elastic piece is connected with the jacking block;

when the counterweight clamp is mounted on the first shaft arm and/or the second shaft arm, the elastic piece is used for keeping the trend that the jacking block is far away from or close to the first shaft arm and/or the second shaft arm.

In some embodiments, the tightening block includes a first block and a second block connected to each other, the first block is at least partially accommodated in an accommodating space formed by the counterweight clamp body, and the knob can drive the second block to move so as to enable the second block to abut against the first shaft arm and/or the second shaft arm.

In some embodiments, a first groove is formed in a side surface of the second block facing the knob, the knob can be partially arranged in the first groove, a second groove for the first shaft arm and/or the second shaft arm to penetrate through is formed in the counterweight clamp body, the second block is located in the second groove, and the second block and the second groove are matched to form an accommodating groove;

the knob penetrates through the counterweight clamp body and can drive the abutting block to move, so that at least part of the inner surface of the accommodating groove is attached to and abutted against or far away from the outer side surface of the first shaft arm and/or the second shaft arm.

In some embodiments, the weight clamp body includes a first member and a second member connected to each other, the first member defines a first groove, the second member defines a second groove, and the first groove and the second groove are connected to form a receiving space for receiving the elastic member.

The embodiment of the utility model provides a cloud platform subassembly, cloud platform subassembly includes cloud platform and the counter weight subassembly of any above-mentioned embodiment;

the cloud platform includes axle construction and connecting seat, bearing structure installs on the connecting seat, counter weight structure installs bearing structure and/or on the axle construction.

Above-mentioned cloud platform subassembly through detachably installation counter weight structure on mounting structure and/or axial structure, adjusts the focus of cloud platform for even the cloud platform has assembled heavier shooting device, also can realize easily that increase of shooting device is steady and/or the gesture is adjusted.

In some embodiments, the connecting base is detachably connected with the shaft structure and can move relative to the shaft structure to adjust the gravity center of the holder.

Additional aspects and advantages of the invention 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 the invention.

Drawings

The above and/or additional aspects and advantages of the present invention 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 an exploded perspective view of a counterweight assembly according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a counterweight track according to an embodiment of the present invention;

fig. 3 is a side schematic view of a first plate of an embodiment of the invention;

FIG. 4 is another side schematic view of a first plate of an embodiment of the present invention;

fig. 5 is a side schematic view of a second plate of an embodiment of the invention;

fig. 6 is another side schematic view of a second plate of an embodiment of the present invention;

fig. 7 is a schematic perspective view of a counterweight assembly according to an embodiment of the present invention;

FIG. 8 is an enlarged schematic view of a portion X of the weight assembly of FIG. 1;

FIG. 9 is a side schematic view of a weight clip according to an embodiment of the present invention;

FIG. 10 is a cross-sectional view of the weight clip of FIG. 9 taken along the direction C-C;

fig. 11 is a schematic perspective view of a pan/tilt head assembly according to an embodiment of the present invention;

fig. 12 is a schematic side view of a pan/tilt head assembly according to an embodiment of the present invention;

fig. 13 is another side schematic view of a pan/tilt head assembly according to an embodiment of the present invention;

fig. 14 is another perspective view of a pan/tilt head assembly according to an embodiment of the present invention;

fig. 15 is a further schematic side view of a pan and tilt head assembly according to an embodiment of the present invention;

fig. 16 is a schematic view of another side of the pan/tilt head assembly according to an embodiment of the present invention;

fig. 17 is a schematic view of another side of the pan/tilt head assembly according to the embodiment of the present invention.

Description of the main element symbols:

the balance weight assembly 100, the holder 200, the shooting device 300 and the holder assembly 400;

the weight structure 110, the weight rail 112, the first side plate 1121, the second side plate 1122, the third side plate 1123, the fourth side plate 1124, the fifth side plate 1125, the sixth side plate 1126, the first connection hole 113, the second connection hole 114, the mounting hole 115, the first connector 116, the weight clip 117, the fastener 1171, the jacking block 11711, the first block 117111, the second block 117113, the first groove 1171131, the knob 11713, the rod portion 117133, the weight clip body 1173, the second groove 11731, the housing groove 11732, the first component 11733, the first groove 117331, the boss 117333, the second component 11735, the second groove 117351, the through hole 117353, the housing space 11737, the elastic component 1175, the weight 118, the weight body 1181, the fourth connector 1183, the bracket structure 130, the first plate 131, the first limiting hole 1311, the third connector 13111, the third limiting hole 1313, the first hole 13131, the second hole 13133, the first sliding prevention hole 1315, the first surface 13151, the first surface 13153, the housing groove 1317, and the second surface 1317, The second antiskid part 13171, the second receiving groove 13173, the first boss 1319, the second plate 132, the second limit hole 1321, the second boss 1323, and the adapter plate 150;

the handle 201, the shaft structure 210, the first shaft structure 211, the first motor 2111, the first shaft arm 2113, the second shaft structure 213, the second motor 2131, the second shaft arm 2133, the third shaft structure 214, the third motor 2141, the third shaft arm 2142, the connecting seat 230, and the second connecting member 231.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like 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 accompanying drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any 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 invention, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected. Either mechanically or electrically. Either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The disclosure of the present invention provides many different embodiments or examples for implementing different structures of the present invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or reference letters in the various examples, which have been repeated for purposes of simplicity and clarity and do not in themselves dictate a relationship between the various embodiments and/or arrangements discussed. In addition, the present disclosure provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1 to 11, a counterweight assembly 100 according to an embodiment of the present invention is provided for a holder 200, the holder 200 includes a shaft structure 210 and a connecting seat 230, the connecting seat 230 is mounted on the shaft structure 210, the counterweight assembly 100 includes a counterweight structure 110 and a supporting structure 130, the supporting structure 130 is used for mounting a camera 300 and is configured to be detachably connected with the connecting seat 230 at different positions, so that the camera 300 captures images in different orientations, and the counterweight structure 110 is configured to detachably connect the supporting structure 130 and/or the shaft structure 210 to adjust the center of gravity of the holder 200.

The counterweight assembly 100 adjusts the center of gravity of the pan/tilt head 200 by detachably mounting the counterweight structure 110 on the support structure 130 and/or the axle structure 210, so that the pan/tilt head 200 can easily achieve stability enhancement and/or attitude adjustment of the photographing apparatus 300 even if the heavy photographing apparatus 300 is mounted.

In particular, to meet the user's needs, other accessories are sometimes installed on the camera 300, such as when the camera 300 is a video camera, a longer lens needs to be installed for the camera 300 to improve the quality of the shot of the long shot, or the camera 300 is replaced with a better performing but overall heavier shooting device, so that when the camera 300 is used to capture images in different orientations, the center of gravity of the camera 300 is shifted with respect to the pan/tilt head 200, which may be detrimental to the stability of the camera 300 on the pan/tilt head 200. In this case, the counterweight structure 110 may be removably mounted to the support structure 130 and/or the axle structure 210 to rebalance the center of gravity of the camera 300, depending on the different orientations of the camera 300, ensuring stability enhancement and/or attitude adjustment of the camera 300.

It is understood that when the user operates with the cradle head 200 holding the camera 300, it is difficult for the user to maintain the balance of the cradle head 200 well if the camera 300 has a large weight and/or is mounted with a long lens, because the center of gravity of the cradle head 200 is too high and/or is located forward. The counterweight assembly 100 is installed and connected on the holder 200, and the gravity center of the holder 200 is adjusted through the counterweight assembly 100, so that the user can balance the gravity center of the holder 200 more easily, and the use effect of the user is improved.

The counterweight structure 110 is configured to be detachably coupled to the support structure 130 and/or the axle structure 210 to adjust the center of gravity of the head 200, either the counterweight structure 110 is configured to be detachably coupled to the support structure 130 or the axle structure 210 to adjust the center of gravity of the head 200, or the counterweight structure 110 is configured to be detachably coupled to the support structure 130 and the axle structure 210 to adjust the center of gravity of the head 200. It is to be noted that, in the following embodiments, similar descriptions, if any, should be interpreted similarly.

Referring to fig. 11, in the illustrated embodiment, the pan/tilt head 200 is a three-axis pan/tilt head 200, the pan/tilt head 200 includes a handle 201, and the axis structure 210 includes three axis structures, namely a YAW Axis (YAW) structure, a ROLL axis (ROLL) structure and a PITCH axis (PITCH) structure, which are sequentially connected from the handle 201 in an upward direction. Each shaft structure includes a motor and a shaft arm. The coupling socket 230 is mounted on the shaft arm of the pitch shaft structure.

In the embodiment of the present invention, the holder 200 is a three-axis holder 200 for illustration, and the rotation axis of the three-axis structure is a non-orthogonal structure. It will be appreciated that in other embodiments the order of the three axis arrangements may be adjusted, for example the yaw axis arrangement, the pitch axis arrangement and the roll axis arrangement are connected in series from the handle 201 in an upward direction and the axes of rotation of the three axis arrangements may be orthogonal. In further embodiments, the head 200 may also be a single-axis head 200 or a dual-axis head 200, the single-axis head 200 comprising one of a yaw axis configuration, a roll axis configuration, and a pitch axis configuration, and the dual-axis head 200 comprising two of the yaw axis configuration, the roll axis configuration, and the pitch axis configuration.

Specifically, in the illustrated embodiment, the cradle structure 130 is mounted with the counterweight structure 110, the camera 300 is mounted and fixed to the cradle structure 130, and the counterweight structure 110 is mountable and attachable to the second face 1317 of the cradle structure 130 for adjusting the center of gravity of the pan and tilt head 200 when the camera 300 is oriented in the state shown in fig. 11. Further, the camera 300 shown in fig. 11 is oriented in a lateral direction, and the counterweight structure 110 is attached at a first position on the second face 1317.

In addition, referring to fig. 14, when the photographing device 300 is oriented in the illustrated state, the weight structure 110 is mounted on the support structure 130 and can change the mounting position on the support structure 130, thereby adjusting the center of gravity of the pan/tilt head 200. Further, the camera 300 shown in fig. 14 is oriented vertically, and the weight structure 110 is attached to the second surface 1317 at a second position. In one example, the weight structure 110 may also be mounted in a first position on the second face 1317.

In certain embodiments, the counterweight structure 110 includes a counterweight 118, and the counterweight structure 110 is configured to adjust the center of gravity of the head 200 by detachably connecting the support structure 130 and/or the axle structure 210 via the counterweight 118. So, realize adjusting the focus of cloud platform 200 through detachable balancing weight 118, simple structure easily realizes.

Specifically, in one example, the weight 118 may be removably coupled to the frame structure 130 and the shaft structure 210 via a threaded connection, or the frame structure 130 and the shaft structure 210 may be removably coupled via clamping, snapping, or other means.

In embodiments of the present invention, the counterweight structure 110 further comprises a counterweight track 112, and the counterweight structure 110 is configured to detachably connect the counterweight track 112 to adjust the center of gravity of the cradle head 200 by using a counterweight 118, and/or detachably connect the support structure 130 to adjust the center of gravity of the cradle head 200 by using the counterweight track 112.

Specifically, referring to fig. 2, the counterweight rail 112 is provided with a structure for mounting the counterweight 118, such as a connection hole structure, and the counterweight 118 can be detachably connected with the counterweight rail 112 through the connection hole structure. More specifically, at least one surface of the counterweight rail 112 is provided with at least one first connection hole 113, and the first connection hole 113 is used for connecting the counterweight 118.

In the illustrated embodiment, the counterweight track 112 is rectangular parallelepiped, the counterweight track 112 includes a first side plate 1121, a second side plate 1122, a third side plate 1123, and a fourth side plate 1124, the first side plate 1121 is opposite to the second side plate 1122, the third side plate 1123 is opposite to the fourth side plate 1124, and at least one first connection hole 113 is formed in a surface of at least one of the first side plate 1121, the second side plate 1122, the third side plate 1123, and the fourth side plate 1124. In the example shown in the figure, a plurality of first connection holes 113 are formed in the surfaces of the first side plate 1121, the second side plate 1122 and the third side plate 1123. It is understood that in other embodiments, one or more first connection holes 113 may be formed in a surface of at least one of the first side plate 1121, the second side plate 1122, the third side plate 1123, and the fourth side plate 1124, as required. The first connecting holes 113 are formed in different side surfaces, so that the position of the balancing weight 118 can be configured more flexibly, and multiple modes of adjusting the gravity center of the holder 200 can be realized.

Further, the counterweight track 112 includes a fifth side plate 1125 and a sixth side plate 1126, the fifth side plate 1125 connects one ends of the first side plate 1121, the second side plate 1122, the third side plate 1123, and the fourth side plate 1124, the sixth side plate 1126 connects the other ends of the first side plate 1121, the second side plate 1122, the third side plate 1123, and the fourth side plate 1124, and at least one first connection hole 113 is opened in a surface of at least one of the fifth side plate 1125 and the sixth side plate 1126. Thus, the flexibility of the position of the counterweight 118 is further improved, and multiple modes of adjusting the gravity center of the holder 200 can be realized.

Specifically, referring to fig. 2, the fifth side plate 1125 and the sixth side plate 1126 are respectively connected to the first side plate 1121, the second side plate 1122, the third side plate 1123 and the fourth side plate 1124 at two ends of the counterweight track 112 in the length direction, the fifth side plate 1125 and the sixth side plate 1126 are respectively provided with a first connection hole 113, and the counterweight 118 can be connected to the fifth side plate 1125 and/or the sixth side plate 1126 through the first connection hole 113. In other embodiments, one or more first connection holes 113 may be opened in the fifth side panel 1125 or the sixth side panel 1126, or a plurality of first connection holes 113 may be opened in both the fifth side panel 1125 and the sixth side panel 1126.

In some embodiments, at least one pair of opposite side plates of the first side plate 1121, the second side plate 1122, the third side plate 1123, and the fourth side plate 1124 has an elongated second connecting hole 114 formed therein, and another one of the opposite side plates has an elongated mounting hole 115 formed therein, and the second connecting hole 114 corresponds to the mounting hole 115, so that the first connecting member 116 passes through the mounting hole 115 and the second connecting hole 114 in sequence to connect to the support structure 130, so as to fix the weight rail 112 on the support structure 130.

Referring to fig. 2, 7 and 11, the first side plate 1121 and the second side plate 1122 are a pair of opposite side plates, the third side plate 1123 and the fourth side plate 1124 are a pair of opposite side plates, wherein the third side plate 1123 is provided with a second connecting hole 114 having a long strip structure, correspondingly, the fourth side plate 1124 is provided with a mounting hole 115 having a long strip structure, the second connecting hole 114 and the mounting hole 115 are respectively corresponding to the third side plate 1123 and the fourth side plate 1124, the second connecting hole 114 and the mounting hole 115 are used for the first connecting piece 116 to pass through, when the counterweight rail 112 is mounted on the bracket structure 130, the counterweight rail 112 is connected and fixed on the bracket structure 130 in a manner that the first connecting piece 116 passes through the mounting hole 115 and the second connecting hole 114 and is connected to the bracket structure 130, and thus, the counterweight rail 112 is connected with the bracket structure 130 through the second connecting hole 114 and the mounting hole 115. In one example, the first connecting member 116 includes a head portion and a shaft portion connected to each other, the shaft portion has a threaded section, the supporting structure 130 has a threaded hole, the shaft portion of the first connecting member 116 sequentially penetrates through the mounting hole 115 and the second connecting hole 114, the threaded section is connected to the threaded hole, and the head portion abuts against the third side plate 1123 to mount the counterweight rail 112 on the supporting structure 130, so that the first connecting member 116 is connected to the supporting structure 130 by means of threaded connection, which is simple to implement and low in cost.

In certain embodiments, the counterweight structure 110 is configured to adjust the center of gravity of the pan and tilt head 200 by adjusting the position of the counterweight 118 on the counterweight track 112, the number of counterweight 118 on the counterweight track 112, and/or the position of the counterweight track 112 on the mounting structure 130. Thus, the method for adjusting the gravity center of the holder 200 is enriched.

Specifically, in combination with the structure of the counterweight track 112, the first side plate 1121, the second side plate 1122, the third side plate 1123, the fourth side plate 1124, the fifth side plate 1125, and the sixth side plate 1126 each have a first connection hole 113, and the counterweight 118 can be connected to one side plate or two side plates or more than two side plates of the first side plate 1121, the second side plate 1122, the third side plate 1123, the fourth side plate 1124, the fifth side plate 1125, and the sixth side plate 1126 through the first connection hole 113. One or more balancing weights 118 can be connected in different first connecting holes 113 of the same side plate, or the first connecting holes 113 of different side plates, so that the position adjustment of the balancing weights 118 is realized, the number of the balancing weights 118 on each side plate is increased or decreased according to the requirement, the number can be one, two or more, and the number adjustment of the balancing weights 118 is realized.

In addition, the second connecting holes 114 are connected with the support structure 130 through long strips, different connecting parts of the second connecting holes 114 are adjusted and fixed through the first connecting pieces 116, so that the gravity center of the holder 200 can be adjusted by installing the counterweight rails 112 at different positions on the support structure 130.

In some embodiments, the mounting structure 130 is configured to capture an image of the camera 300 in a first orientation or a second orientation, the counterweight track 112 is configured to be mounted at a first location of the mounting structure 130 to adjust the center of gravity of the head 200 when the camera 300 captures the image in the first orientation, and the counterweight track 112 is configured to be mounted at a second location of the mounting structure 130 to adjust the center of gravity of the head 200 when the camera 300 captures the image in the second orientation, wherein the first location and the second location are different. In this way, the counterweight track 112 can also adjust the gravity center of the pan/tilt head 200 when the photographing device 300 is oriented differently according to different use scenes.

Referring to fig. 11 to 14, wherein the camera 300 in fig. 11 to 13 is in a first orientation state, the camera 300 in fig. 14 is in a second orientation state, and when the camera 300 is in the first orientation state, the counterweight rail 112 is located at the lower side of the bracket structure 130, and the lower side refers to the lower side of the bracket structure 130 after being fixed when the camera 300 is in and maintains the first orientation state; when the camera 300 is in the second orientation, the counterweight track 112 is located on the left side of the mounting structure 130, which is the left side of the mounting structure 130 that is secured when the camera 300 is in and maintains the second orientation.

It should be noted that when the first connecting member 116 fixedly connects the counterweight track 112 to the support structure 130, the counterweight track 112 can be slidably connected to the support structure 130 through the mounting hole 115, and specifically, the sliding connection of the counterweight track 112 is realized by changing the specific position of the first connecting member 116 on the mounting hole 115, so that the counterweight track 112 has the gravity center for precisely adjusting the cradle head 200, and at the same time, the operation amount of the user is reduced as much as possible, which is convenient for the user to operate.

In addition, when the photographing device 300 is in the first orientation state, the mounting hole 115 of the weight rail 112 faces downward, and when the photographing device 300 is in the second orientation state, the mounting hole 115 of the weight rail 112 faces upward, so that the user can conveniently operate the first connecting member 116.

In some embodiments, the mounting structure 130 is configured to capture an image of the camera 300 in a first orientation or a second orientation, the mounting structure 130 including a first plate 131 and a second plate 132, the first plate 131 for mounting the camera 300, the first plate 131 also for connecting the connection socket 230 when the camera 300 captures an image in the first orientation, the second plate 132 for connecting the connection socket 230 when the camera 300 captures an image in the second orientation. Thus, application scenarios of the photographing apparatus 300 can be enriched.

Referring to fig. 3-6, the first plate 131 and the second plate 132 are fixedly connected, and the surfaces of the first plate 131 and the second plate 132 are respectively provided with a structure, such as a hole structure, for connecting the connecting socket 230, when the camera 300 captures an image in a first orientation, the first plate 131 is used for connecting the camera 300 and the connecting socket 230, when the camera 300 captures an image in a second orientation, the first plate 131 is used for connecting the camera 300, and the second plate 132 is used for connecting the connecting socket 230.

It is to be appreciated that the mounting structure 130 can take different or the same form for connecting the connecting sockets 230 when the camera 300 captures images in different orientations, and in the illustrated embodiment, the mounting structure 130 is mounted on the head 200 by connecting the first plate 131 or the second plate 132 to the connecting sockets 230 to accommodate different needs of a user, increasing the applicability of the counterweight assembly 100.

In addition, referring to fig. 11, the first position of the supporting structure 130 is the lower surface of the first plate 131, i.e. the second surface 1317, referring to fig. 14, the second position of the supporting structure 130 is located at the left side of the first plate 131 and close to the second plate 132, and the left side refers to the left side of the supporting structure 130 after being fixed when the photographing device 300 is in the state of maintaining the second orientation. In this manner, the mounting of counterweight rail 112 on mounting structure 130 is facilitated. That is, the first position and the second position may be both end portions of the first plate 131.

In certain embodiments, the first and/or second positions of the support structure 130 may also be disposed on the second plate 132.

In some embodiments, the first orientation is perpendicular to the second orientation.

It is understood that in actual use, the user has a requirement on the orientation of the camera 300, such as setting the camera 300 to shoot horizontally and/or vertically, or shoot diagonally. When the photographing device 300 is fixed on the cradle head 200 by connecting the weight assembly 100, the photographing device 300 can be set to a first orientation and a second orientation perpendicular to each other to capture an image, which satisfies the user's requirements in terms of the orientation of the photographing device 300.

In one example, the first orientation may set the camera 300 in a landscape orientation when the camera 300 captures an image in the first orientation, and the second orientation may set the camera 300 in a portrait orientation when the camera 300 captures an image in the second orientation, such that the first orientation and the second orientation are perpendicular to each other. The first plate 131 and the second plate 132 are vertically connected to form a bracket structure 130 having an L-shape.

In some embodiments, referring to fig. 4 and 7, the first plate 131 defines a first position-limiting hole 1311, the weight assembly 100 is configured to be detachably connected to the connecting base 230 by using the first position-limiting hole 1311 to adjust the center of gravity of the cradle head 200, and/or the second plate 132 defines a second position-limiting hole 1321, the weight assembly 100 is configured to be detachably connected to the connecting base 230 by using the second position-limiting hole 1321 to adjust the center of gravity of the cradle head 200. Thus, the connecting seat 230 is connected through the hole structure, so that the structure is simple and the cost is low.

Specifically, referring to fig. 3 and 4, the first plate 131 is formed with a first position-limiting hole 1311, the bracket structure 130 is fixed on the connecting base 230 by connecting the second connecting member 231 with the first position-limiting hole 1311, when the image capturing device 300 captures an image in the first orientation, the counterweight assembly 100 is connected to the pan/tilt head 200 by connecting the bracket structure 130 with the connecting base 230, similarly, the second plate 132 is formed with a second position-limiting hole 1321, the bracket structure 130 is fixed on the connecting base 230 by connecting the second connecting member 231 with the second position-limiting hole 1321, and when the image capturing device 300 captures an image in the second orientation, the counterweight assembly 100 is connected to the pan/tilt head 200 by connecting the bracket structure 130 with the connecting base 230. In this way, the counterweight assembly 100 can capture images of the camera 30 at different orientations or positions by detachably connecting the second connector 231 through the first position-limiting hole 1311 and/or the second position-limiting hole 1321, and can also adjust the center of gravity of the holder 200.

In addition, the first position-limiting hole 1311 and the second position-limiting hole 1321 are connected to the connecting seat 230 by at least one of a screw connection, a pin connection, and a snap connection, in one example, the second connecting member 231 is provided with a threaded section, the first position-limiting hole 1311 and/or the second position-limiting hole 1321 is provided with an internal thread, and the first position-limiting hole 1311 and/or the second position-limiting hole 1321 is connected to the connecting seat 230 by being in threaded connection with the threaded section of the second connecting member 231, so that a user can conveniently and quickly install and fix the weight component 100 to the connecting seat 230. Of course, in other embodiments, the manner in which the first plate 131 and/or the second plate 132 are connected to the connection seat may also be other manners, and is not particularly limited herein.

In addition, the surfaces of the first plate 131 and/or the second plate 132 are provided with a concave structure, so that the weight reduction of the first plate 131 and/or the second plate 132 is facilitated.

In some embodiments, the number of the first stopper holes 1311 is plural, the plurality of first stopper holes 1311 are arranged along the length direction of the first plate 131, the number of the second stopper holes 1321 is plural, and the plurality of second stopper holes 1321 are arranged along the length direction of the second plate 132.

Referring to fig. 4, the first plate 131 is arranged with a plurality of first limiting holes 1311 along the length direction a-a, and when the photographing device 300 captures an image in a first orientation, the first plate 131 realizes the lateral movement of the photographing device 300 on the cradle head 200 by transforming the first limiting holes 1311 for connecting the second connecting member 231, and similarly, referring to fig. 5, the second plate 132 is arranged with a plurality of second limiting holes 1321 along the length direction B-B, and when the photographing device 300 captures an image in a second orientation, the second plate 132 realizes the lateral movement of the photographing device 300 on the cradle head 200 by transforming the second limiting holes 1321 for connecting the second connecting member 231, and thus, the flexibility when using the weight assembly 100 is improved.

It can be understood that, since the counterweight assembly 100 is connected and fixed on the cloud deck 200 through the first limiting hole 1311 and/or the second limiting hole 1321, and the plurality of first limiting holes 1311 and/or second limiting holes 1321 are provided on the support structure 130 for mounting and connecting to the connection base 230, accordingly, the connection base 230 may be provided with connection holes (a plurality of or strip-shaped connection holes) corresponding to the plurality of first limiting holes 1311 and/or second limiting holes 1321, and the connection of the connection base 230 with the first plate 131 and the second plate 132 is achieved by the second connection member 231 penetrating the connection holes and being connected with the limiting holes.

In addition, the plurality of first limiting holes 1311 and the plurality of second limiting holes 1321 are respectively arranged along the length direction of the first plate 131 and the second plate 132, and in the illustrated embodiment, the user can adjust the first limiting holes 1311 and/or the second limiting holes 1321 for connecting the second connecting member 231, and thus, can adjust the position of the photographing device 300 on the balance weight assembly 100 to adjust the center of gravity of the pan/tilt head 200.

In addition, the first stopper hole 1311 and the second stopper hole 1321 are both of a through-hole structure.

In some embodiments, referring to fig. 3 and 4, the first plate 131 further has a third connecting hole 1312, and the third connecting hole 1312 is used for connecting the weight structure 110 (as shown in fig. 7).

It can be appreciated that when the third connecting hole 1312 is used for connecting the counterweight structure 110, the position on the surface of the support structure 130 for connecting the counterweight structure 110 can be increased, and meanwhile, the situation that the gravity center of the cradle head 200 cannot be effectively adjusted when the counterweight structure 110 is installed at other positions of the support structure 130 can be avoided, and the adaptability of the counterweight assembly 100 can be improved. In the illustrated embodiment, the number of the third connection holes 1312 is two.

Alternatively, in some embodiments, the inner wall of the third connecting hole 1312 may be provided with an internal thread, and accordingly, the weight 118 is provided with a threaded section, so that the weight 118 is connected to the inner wall of the third connecting hole 1312 by means of a threaded connection.

In addition, in one example, the second limiting hole 1321 is configured to have the same size as the first connection hole 113, such that when the camera 300 captures an image in the second orientation, the second limiting hole 1321 can be used to connect the weight structure 110, which improves the flexibility of the weight structure 110 during use.

In some embodiments, the first plate 131 further defines a third position-limiting hole 1313, and the first plate 131 is configured to detachably connect the camera 300 with the third position-limiting hole 1313 to adjust the position of the camera 300 on the first plate 131.

Referring to fig. 4 and 7, when the third position-limiting hole 1313 is used to connect the camera device 300, the camera device 300 is fixed to the first plate 131 by the third connecting member 13111 passing through the third position-limiting hole 1313 and connecting the camera device 300, and the position of the camera device 300 on the stand structure 130 can be adjusted by moving the position of the third connecting member 13111 passing through the third position-limiting hole 1313 back and forth. The two third connection holes 1312 are respectively located at both sides of the third stopper hole 1313 in the length direction a-a of the first plate 131.

In some embodiments, the first hole 1311 and the third hole 1313 are disposed in parallel, the third hole 1313 is elongated, and the third hole 1313 includes a first hole 13131 and a second hole 13133 therethrough, wherein the first hole 13131 is larger than the second hole 13133.

It can be understood that the first position-limiting hole 1311 and the third position-limiting hole 1313 are disposed in parallel, so that when the second connecting member 231 is used to connect the first position-limiting hole 1311 and/or the second position-limiting hole 1321, and the third connecting member 13111 is used to connect the third position-limiting hole 1313, the fixing operation of the camera 300 and the counterweight assembly 100 on the cradle head 200 can be facilitated.

Referring to fig. 4 and 7, the first plate 131 includes a first surface 1315 and a second surface 1317 opposite to each other, the second surface 1317 is provided with a first hole 13131, the first surface 1315 is provided with a second hole 13133, the second hole 13133 is included in an orthogonal projection of the first hole 13131 in an orthogonal projection of the first plate 131 in the height direction, and the first hole 13131 and the second hole 13133 are communicated to form a third limiting hole 1313 penetrating through the first plate 131. The first face 1315 is used for mounting the photographing device 300.

It is understood that the first hole 13131 and the second hole 13133 are provided on the first plate 131, and when the first plate 131 is used to mount the camera 300, the first hole 13131 can be used to receive other protruding structures on the connection holder 230 and a part of the structure of the third connection 13111, thus being advantageous to maintain the horizontal orientation of the camera 300 and to prevent the third connection 13111 from being worn. In addition, the provision of the second aperture 13133 also facilitates reducing the weight of the bracket structure 130.

In some embodiments, the first face 1315 is provided with a first non-slip portion 13151, the first non-slip portion 13151 for contacting the camera 300, and/or both faces are provided with a second non-slip portion 13171, the second non-slip portion 13171 for contacting the weight structure 110.

Referring to fig. 1, it can be understood that the first anti-slip part 13151 is disposed on the first surface 1315, and when the first plate 131 is used to mount the photographing device 300, the first anti-slip part 13151 may prevent a wear problem between the first plate 131 and the photographing device 300 due to a mounting connection. Likewise, when the second plate 132 is used to mount the weight structure 110, the second anti-slip portion 13171 may prevent a wear problem between the first plate 131 and the weight structure 110 due to the mounting connection.

In addition, the first non-slip portion 13151 and the second non-slip portion 13171 are made of soft and hard-to-wear material, and for example, the first non-slip portion 13151 and the second non-slip portion 13171 are made of silicone material. Since the silica gel material has a good wear-resistant effect and is not high in manufacturing cost, in this embodiment, the first non-slip portion 13151 and the second non-slip portion 13171 are silica gel pads having a non-slip function. Other embodiments are not specifically limited herein.

In addition, the first and second skids 13151, 13171 contact the camera 300 and the weight structure 110, respectively, when the first plate 131 is used to connect the camera 300 and/or the weight structure 110, having the effect of increasing friction and cushioning.

In some embodiments, referring to fig. 1 and 4, the first surface 1315 is provided with a first receiving groove 13153, the first receiving groove 13153 extends along a length direction of the first plate 131, the first anti-slip portion 13151 is provided on the first receiving groove 13153, the second surface 1317 is provided with a second receiving groove 13173, the second receiving groove 13173 extends along a width direction perpendicular to the first plate 131, and the second anti-slip portion 13171 is provided on the second receiving groove 13173.

Referring to fig. 1, 3 and 4, the first receiving groove 13153 is formed on the surface of the first surface 1315 along the length direction of the first plate 131, and the second receiving groove 13173 is formed on the surface of the second surface 1317 along the length direction perpendicular to the first plate 131, where the specific length is determined according to actual conditions.

Providing first and second receiving grooves 13153, 13173 may enhance the fixing of first non-slip portion 13151 to first surface 1315 and second non-slip portion 13171 to second surface 1317. Thus, the installation of the anti-slip part can be realized by providing the receiving groove, and in addition, the overall thickness of the first plate 131 can be reduced.

In some embodiments, the number of the second receiving grooves 13173 is two, and the first receiving groove 13153 is located between the two second receiving grooves 13173 on an orthogonal projection perpendicular to the longitudinal direction of the first plate 131.

Referring to fig. 1, 3 and 4, two second receiving grooves 13173 are disposed at different positions of the bracket structure 130, and the first receiving grooves 13153 are disposed at the sides of the third position-limiting holes 1313 along a direction perpendicular to the length direction of the first plate 131. It can be understood that the two second receiving grooves 13173 may be respectively disposed at two ends of the first plate 131 in the length direction, and the third position-limiting hole 1313 is disposed at a central position of the first plate 131 in the length direction, so that a space is effectively utilized, a sufficient operation space is provided during operation, and a process during manufacturing is facilitated.

In some embodiments, the second receiving grooves 13173 may be disposed on both end surfaces of the first plate 131 in the length direction thereof, and accordingly, the first and second positions may be disposed at corresponding positions on both end surfaces of the first plate 131 in the length direction thereof.

In some embodiments, the outer sidewalls of the first plate 131 and/or the outer sidewalls of the second plate 132 each have a boss extending outwardly therefrom for detachably mounting the bracket structure 130 to the slide channel of the external support device.

Referring to fig. 3-6, the two outer sidewalls of the first plate 131 respectively extend outward to form first bosses 1319 protruding from the first plate 131, the first bosses 1319 have a certain length along the length direction of the first plate 131, and the first plate 131 is left-right symmetrical along the first bosses 1319 on the two outer sidewalls with respect to the central axis of the first plate 131, such that when the bracket structure 130 is mounted to the external supporting device through the first plate 131, the first bosses 1319 of the first plate 131 are used for connecting with the sliding slots of the external supporting device, thereby increasing the applicability of the counterweight assembly 100.

Similarly, referring to fig. 3-6, the two outer sidewalls of the second plate 132 respectively extend outward to form second bosses 1323 protruding out of the second plate 132, the second bosses 1323 have a certain length along the length direction of the second plate 132, and the second plate 132 is left-right symmetrical along the second bosses 1323 on the two outer sidewalls with respect to the central axis of the second plate 132, such that when the bracket structure 130 is mounted to the external supporting device through the second plate 132, the second bosses 1323 of the second plate 132 are used for connecting with the sliding slots of the external supporting device, thereby also increasing the applicability of the counterweight assembly 100.

It should be noted that the first boss 1319 and the second boss 1323 are tenon-shaped, so that the stability of the connection between the first plate 131 and the external supporting device is increased.

Specifically, the external support device may be a tripod, a sliding groove structure for correspondingly connecting the first boss 1319 and the second boss 1323 is provided on the tripod, when the weight assembly 100 is used for connecting to the tripod, the first boss 1319 or the second boss 1323 is used for connecting to the sliding groove structure of the external support device in an interference limited manner, at this time, the weight assembly 100 is limited and fixed on the tripod, so that the weight assembly 100 may be installed to the external support device without additionally connecting a fixing member, and the adaptability of the weight assembly 100 is improved. The sliding groove of the external supporting device may be a dovetail groove.

In some embodiments, the weight assembly 100 further includes an adapter plate 150, one end of the adapter plate 150 being removably coupled to the mounting structure 130 and the other end of the adapter plate 150 being removably coupled to the weight structure 110.

Referring to fig. 1, a through hole structure for connecting the support structure 130 and the weight structure 110 is disposed on a surface of the adapter plate 150, the adapter plate 150 is mountable and connectable to the support structure 130, the second position is located on the adapter plate 150, the first connecting member 116 is also used for connecting to the adapter plate 150, when the adapter plate 150 is fixedly connected to the support structure 130, the adapter plate 150 is used for mounting the weight structure 110 in a detachable manner, when the adapter plate 150 is connected to the weight structure 110, the adapter plate 150 is connected to the weight structure 110 by mounting the first connecting member 116, and the adapter plate 150 is used for detachably connecting to the support structure 130.

It can be understood that, in order to satisfy the function of the counterweight assembly 100 for adjusting the center of gravity of the pan/tilt head 200, the adapter plate 150 is mounted on the support structure 130, so that the counterweight assembly 100 can be applied to the case of the photographing device 300 having a larger weight while expanding the mounting space of the counterweight structure 110.

In some examples, the adapter plate 150 may be used to mount the weight 118 directly, thus saving the user operating time.

In addition, the surface of the adapter plate 150 is provided with a plurality of through hole structures, so that the overall weight of the adapter plate 150 can be reduced.

In certain embodiments, the interposer 150 is L-shaped.

Referring to fig. 1, the adapter plate 150 has two end faces along the L-shaped structure, the two end faces of the adapter plate 150 are respectively used for connecting the counterweight rail 112 and the support structure 130, and when one end face of the adapter plate 150 is connected to the support structure 130, the other end face of the adapter plate 150 can be laterally connected to the first connecting member 116 to mount and fix the counterweight structure 110.

It should be noted that, the two outer side walls of the adapter plate 150 are also provided with a protrusion, and when the adapter plate 150 is connected to the support structure 130, the protrusion of the adapter plate 150 is connected to the second boss 1323 to form a protrusion as a whole, as shown in fig. 14, so that the length of the second boss 1323 is increased, which allows the counterweight assembly 100 to have a larger adjustment space when being connected to an external supporting device, and also enhances the connection stability.

In some embodiments, referring to fig. 11 and 12, the shaft structure 210 includes a first shaft structure 211 and a second shaft structure 213, the first shaft structure 211 includes a first motor 2111 and a first shaft arm 2113, the second shaft structure 213 includes a second motor 2131 and a second shaft arm 2133, one end of the first shaft arm 2113 is connected to the rotor of the first motor 2111, the other end is connected to the stator of the second motor 2131, one end of the second shaft arm 2133 is connected to the rotor of the second motor 2131, the other end is connected to the support structure 130, the counterweight structure 110 includes a counterweight clamp 117 and a counterweight block 118, the first shaft arm 2113 and/or the second shaft arm 2133 is detachably connected to the counterweight clamp 117, the counterweight block 118 is detachably mounted on the counterweight clamp 117, and the counterweight clamp 117 is configured to adjust the center of gravity of the pan-tilt head 200 by adjusting the position of the counterweight clamp 117 on the first shaft arm 2113 or the second shaft arm.

Referring to fig. 11-17, the first axis structure 211 is a roll axis structure of the pan/tilt head 200, the second axis structure 213 is a pitch axis structure of the pan/tilt head 200, the pan/tilt head 200 further includes a third axis structure 214, the third axis structure 214 includes a third motor 2141 and a third axis arm 2142, the third axis arm 2142 connects a rotor of the third motor 2141 and a stator of the first motor 2111, the third motor 2141 is installed on the top of the handle 201, the third axis structure 214 is a yaw axis structure of the pan/tilt head 200, and the axis structure 210 performs stabilization or attitude adjustment on the photographing device 300 by the way that the motors rotate with the axis arms. The first shaft structure 211, the second shaft structure 213 and the third shaft structure 214 respectively have two degrees of freedom, when the first shaft structure 211 starts to work, the first shaft arm 2113 is driven to rotate by the forward rotation and the reverse rotation of the first motor 2111 to generate two degrees of freedom, when the second shaft structure 213 starts to work, the second shaft arm 2133 is driven to rotate by the forward rotation and the reverse rotation of the second motor 2131 to generate two degrees of freedom, when the third shaft structure 214 starts to work, the third shaft arm 2142 is driven to rotate by the forward rotation and the reverse rotation of the third motor 2141 to generate two degrees of freedom, the rotation axes of the first shaft structure 211 and the second shaft structure 213 are non-orthogonal, and the rotation axes of the second shaft structure 213 and the third shaft structure 214 are orthogonal, so that the shooting device 300 can have six degrees of freedom, so that the pan-tilt head 200 has a better rotation effect during. It is understood that in other embodiments, the first shaft structure 211 and the second shaft structure 213 may be other shaft structures, and the rotation shafts of the first shaft structure 211 and the second shaft structure 213 may be orthogonal, and other manners.

In the illustrated embodiment, the first axle arm 2113 is removably coupled to the counterweight clamp 117. The position of the counterweight clamp 117 on the first axial arm 2113 is variable, so that the center of gravity of the head 200 can be adjusted. It is understood that in other embodiments, the second shaft arm 2133 may be detachably connected to the weight clamp 117, and the first shaft arm 2113 and the second shaft arm may be detachably connected to the weight clamp 117.

In some embodiments, referring to fig. 1, 8-10, the weight clip 117 includes a weight clip body 1173 and a fastener 1171 provided to the weight clip body 1173 and capable of mating with the weight clip body 1173 to lock the weight clip 117 to the first shaft arm 2113 or the second shaft arm 2133.

Specifically, the fastener 1171 comprises a jacking block 11711 and a knob 11713, and the jacking block 11711 can be driven by the knob 11713 to abut against the first shaft arm 2113 or the second shaft arm 2133.

Referring to fig. 10, the knob 11713 has a rod portion 117133, the rod portion 117133 is disposed inside the weight clamp body 1173, a part of the tightening block 11711 is disposed inside the weight clamp body 1173 and contacts with the rod portion 117133, when the knob 11713 is used to rotate back and forth, the rod portion 117133 is used to rotate in or out of the weight clamp body 1173, accordingly, the tightening block 11711 is configured to be driven to slide by the knob 11713, for example, when the knob 11713 is used to rotate in, the tightening block 11711 slides to one side inside the weight clamp body 1173, and the weight clamp 117 can be pressed against the first shaft arm 2113 or the second shaft arm 2133.

In addition, the corresponding connection part of the weight clamp body 1173 and the rod part 117133 is provided with a thread structure, so that the knob 11713 is fixedly connected to the weight clamp body 1173 through a thread connection mode, and when the knob 11713 is used for screwing, the knob 11713 can screw the rod part 117133 into the weight clamp body 1173 through the thread structure.

The jacking block 11711 comprises a first block 117111 and a second block 117113 connected with each other, the first block 117111 is at least partially accommodated in an accommodating space 11737 formed by the weight clamp body 1173, and the knob 11713 can drive the second block 117113 to move so that the second block 117113 abuts against the first shaft arm 2113 or the second shaft arm 2133.

Referring to fig. 10, the rod portion 117133 of the knob 11713 may be connected to the second block 117113, the first block 117111 is partially received in the receiving space 11737 formed inside the clip body 1173, the second block 117113 may also be partially disposed in the receiving space 11737, the first block 117111 and the second block 117113 may be formed as an integral structure, when the clip 117 is used to lock on the first shaft arm 2113 or the second shaft arm 2133, the second block 117113 abuts on the first shaft arm 2113 or the second shaft arm 2133, at this time, the knob 11713 is used to screw in, the second block 117113 drives the first block 117111 to slide in the receiving space 11737, and the second block 117113 slides towards the inside of the clip body 1173, so that the propping block 11711 finally abuts on the first shaft arm 2113 or the second shaft arm 2133.

In some embodiments, the side of the second piece 117113 facing the knob 11713 is provided with a first recess 1171131, and the knob 11713 can be partially disposed within the first recess 1171131.

Specifically, the stem portion 117133 of the knob 11713 is partially disposed within the first recess 1171131 such that the connection to the second block 117113 is positioned when rotated to prevent the knob 11713 from becoming misaligned when the puller block 11711 is driven in motion.

In some embodiments, the counterweight clamp body 1173 is provided with a second groove 11731 for the first shaft arm 2113 or the second shaft arm 2133 to pass through, the second block 117113 is located in the second groove 11731, the second block 117113 and the second groove 11731 cooperate to form a receiving groove 11732, and the knob 11713 passes through the counterweight clamp body 1173 and can drive the pushing block 11711 to move, so that at least part of the inner surface of the receiving groove 11732 abuts against or is away from the outer side surface of the first shaft arm 2113 or the second shaft arm 2133.

The knob 11713 moves the pushing block 11711 to change the size of the receiving slot 11732, so as to clamp or release the counterweight clamp 117 to the first shaft arm 2113 and/or the second shaft arm 2133.

Specifically, referring to fig. 10, the second groove 11731 is U-shaped, the second groove 11731 is communicated with the accommodating space 11737, and the second block 117113 is partially disposed in the second groove 11731. When the weight clip 117 is used to lock on the first shaft arm 2113 or the second shaft arm 2133, the knob 11713 is screwed in, the second block 117113 slides towards the inside of the weight clip body 1181 in the accommodating space 11737, and at this time, the second block 117113 is used to contract the space in the accommodating groove 11732, so that the surface of the accommodating groove 11732 abuts against the outer side surface of the first shaft arm 2113 or the second shaft arm 2133.

Similarly, when the clip 117 is used to unlock the first shaft arm 2113 or the second shaft arm 2133, the knob 11713 is rotated out, the second piece 117113 slides outward of the clip body 1181, and the size of the receiving slot 11732 is increased, such that the inner surface of the receiving slot 11732 is gradually away from the outer surface of the first shaft arm 2113 or the second shaft arm 2133, and the clip 117 can be completely removed from the first shaft arm 2113 or the second shaft arm 2133.

In some embodiments, the weight clip 117 further includes a resilient member 1175, the resilient member 1175 coupled to the jacking block 11711, the resilient member 1175 for maintaining the tendency of the jacking block 11711 to move away from or toward the first shaft arm 2113 or the second shaft arm 2133 when the weight clip 117 is mounted to the first shaft arm 2113 or the second shaft arm 2133.

It will be appreciated that the resilient member 1175 is configured to drive the jacking block 11711 to move as the weighted clamp 117 is transitioned between locked and unlocked, thus preventing the jacking block 11711 from wobbling when the weighted clamp 117 is unlocked from the first 2113 or second 2133 axle arms. In the illustrated embodiment, the resilient member 1175 maintains the tendency of the jacking block 11711 to move away from the first 2113 or second 2133 axle arm. When the knob 11713 is screwed in, the pushing block 11711 compresses the elastic member 1175, and when the knob 11713 is screwed out, the elastic member 1175 drives the pushing block 11711 to move away from the first shaft arm 2113 or the second shaft arm 2133. In other embodiments, the resilient member 1175 maintains the tendency of the jacking block 11711 to approach the first 2113 or second 2133 axle arm. When the knob 11713 is screwed in, the elastic component 1175 drives the jacking block 11711 to move towards the first shaft arm 2113 or the second shaft arm 2133, when the knob 11713 is screwed out, the jacking block can be driven to move away from the first shaft arm or the second shaft arm, and the elastic component 1175 is compressed by the jacking block.

Referring to fig. 10, the elastic member 1175 is disposed in the receiving space 11737, and the structure of the weight clamp body 1173 in the receiving space 11737 abuts against one end of the elastic member 1175.

In some embodiments, the weight clip body 1173 includes a first part 11733 and a second part 11735 connected, the first part 11733 defines a first groove 117331, the second part 11735 defines a second groove 117351, and the first groove 117331 and the second groove 117351 are connected to form a receiving space 11737 for receiving the elastic member 1175. In this manner, the mounting of the resilient member 1175 is facilitated.

Specifically, referring to fig. 8-10, the first member 11733 has a hollow protruding pillar 117333, the second member 11735 has a through hole 117353, the first member 11733 and the second member 11735 are fixedly connected to each other by a screw connection, at this time, the protruding pillar 117333 penetrates through the through hole 117353, and the weight 118 is partially connected in the protruding pillar 117333.

Referring to fig. 10, the protruding pillar 117333 corresponds to the through hole 117353 in structure, when the first member 11733 is connected to the second member 11735, the protruding pillar 117333 is inserted into the through hole 117353, the protruding pillar 117333 is flush with the outer edge of the through hole 117353, the protruding pillar 117333 is provided with a first connection hole 113 connected to the counterweight 118 at a hollow position, and the first member 11733 and the second member 11735 form a counterweight clamp body 1173, so that the counterweight clamp 117 can be used to connect to the counterweight 118, thereby enhancing the function of the counterweight clamp 117 in adjusting the center of gravity of the cradle head 200.

It can be understood that, since the elastic member 1175 is made of metal material in general, the elastic member 1175 has the problem of metal fatigue, and in actual use, the elasticity of the elastic member 1175 may be attenuated due to improper use, and at this time, the elastic member 1175 needs to be replaced with a new one to ensure the structural function of the weight clamp 117. With the weight clamp body 1173 arranged in the form that the first part 11733 is connected with the second part 11735, the elastic part 1175 and other parts inside the weight clamp 117 can be replaced conveniently, so that a user can directly maintain the weight component 100, and the use experience of the user is improved.

In some embodiments, referring to fig. 1, the weight 118 includes a weight body 1181 and a fourth connecting member 1183 mounted on the weight body 1181, wherein the fourth connecting member 1183 has a threaded section.

Referring to fig. 1 and 10, the overall weight member body 1181 is a cylindrical structure, the weight member body 1181 and the fourth connecting member 1183 may form an integral structure or a split structure, the fourth connecting member 1183 has a threaded section, and the inner wall of the first connecting hole 113 has a thread, so that the weight member 118 may be connected to any one of the first connecting holes 113 of the weight member 100 in a threaded connection manner, which is convenient for a user to quickly install and/or disassemble the weight member 118.

It should be noted that the weight member 1181 may have different types, and the weight member 118 of different types may be configured with corresponding weights, for example, the weight member 1181 may be configured with different weights of 10g, 20g, 50g, and 100g, so as to increase the diversity and flexibility of configuring the weight member 118 by the user, and improve the applicability of the weight member 100.

In addition, edging has been taken at the border of balancing weight body 1181 for the user is difficult to cut or the fish tail by the border of balancing weight body 1181 when operating balancing weight 118, simultaneously, has also avoided balancing weight body 1181 because the easy wearing and tearing of border lead to be not conform to the problem of setting for weight. The weight 118 may be made of metal or plastic.

The embodiment of the utility model provides a cloud platform subassembly 400, cloud platform subassembly 400 include cloud platform 200 and the counter weight subassembly 100 of any embodiment of the aforesaid, and cloud platform 200 includes axle construction 210 and connecting seat 230, and mounting structure 130 among the counter weight subassembly 100 is installed on connecting seat 230, and counter weight structure 110 among the counter weight subassembly 100 is installed on mounting structure 130 and/or axle construction 210.

Referring to fig. 11-17, the pan/tilt head assembly 400 includes a pan/tilt head 200 and a counterweight assembly 100, wherein the shaft structure 210 is used for adjusting and/or adjusting an angle of a captured image of the camera 300 fixed on the counterweight assembly 100, the connecting base 230 is used for installing the bracket structure 130 of the counterweight assembly 100, and the counterweight structure 110 includes a counterweight rail 112, a counterweight clamp 117 and a counterweight block 118, wherein the counterweight rail 112 is installed on the bracket structure 130, the counterweight clamp 117 is installed on the first shaft arm 2113, and the counterweight block 118 is installed on the surfaces of the counterweight rail 112 and the counterweight clamp 117.

It is understood that when the pan/tilt head assembly 400 is used to mount the camera 300, the pan/tilt head 200 can adjust the center of gravity of the pan/tilt head 200 by adjusting the counterweight assembly 100, and specifically, when the pan/tilt head assembly 400 adjusts the center of gravity of the pan/tilt head 200 by adjusting the counterweight assembly 100, the counterweight rail 112 can be mounted on the support structure 130 and the mounting position of the counterweight rail 112 can be changed, the counterweight 118 can be mounted on the support structure 130 and the position and number of the counterweight 118 can be configured, the counterweight 118 can be directly mounted on the first plate 131, and the counterweight clamp 117 can be fixed on the first axial arm 2113 and/or the second axial arm 2133, so that the center of gravity of the pan/tilt head 200 can be adjusted by the counterweight assembly 100.

Specifically, referring to fig. 11, the camera 300 is fixed on the first plate 131, the camera 300 captures an image in a first orientation, the counterweight assembly 100 is fixed on the second shaft arm 2133 by the first plate 131 being connected to the connecting seat 230, the first plate 131 fixes the counterweight rail 112 at a first position of the support structure 130 by the first connecting member 116 passing through the mounting hole 115 and the second connecting hole 114, the counterweight rail 112 is connected to the selected counterweight 118, and the counterweight clamp 117 connected to the counterweight 118 is mounted on the first shaft arm 2113. When the cradle head 200 is used for capturing an image through the photographing device 300, the lateral movement of the photographing device 300 on the cradle head 200 can be achieved by changing the position of the first position-limiting hole 1311 of the connection base 230.

In the illustrated embodiment, the camera 300 is in the first orientation, and when the camera 300 is switched from the first orientation to the second orientation, the connection between the first stopper hole 1311 and the connection holder 230 is released, and at this time, the connection between the bracket structure 130 and the connection holder 230 is also released. The second plate 132 is connected to the connecting seat 230 by connecting the second connecting member 231 through the second limiting hole 1321, and the supporting frame structure 130 is connected to the connecting seat 230 again, at this time, referring to fig. 14 again, at this time, the photographing device 300 is switched to be in the second orientation state, the counterweight rail 112 is connected to the second position from the first position, and the counterweight block 118 is reconfigured according to specific situations, so that the state switching of the photographing device 300 between the first orientation and the second orientation can be completed.

In one example, the camera 300 for the first orientation is in a landscape orientation and the camera 300 for the second orientation is in a portrait orientation.

In another example, the camera 300 for the first orientation is in a vertically disposed state and the camera 300 for the second orientation is in a horizontally disposed state.

In some embodiments, the attachment base 230 is detachably coupled to the shaft structure 210 and is capable of moving relative to the shaft structure 210 to adjust the center of gravity of the head 200.

It can be understood that the weight assembly 100 is integrally connected to the connection base 230 with the photographing device 300, and the weight assembly 100 has a larger adjustment range by adjusting the installation position of the connection base 230 on the shaft structure 210.

In some embodiments, the connecting seat 230 and the shaft structure 210 are in a sliding slot connection structure.

In the description of the present specification, reference to the terms "one embodiment", "some embodiments", "certain embodiments", "illustrative embodiments", "examples", "specific examples", or "some examples", etc., means 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 present invention. In this specification, schematic representations of the above terms 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.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (22)

1. The utility model provides a counterweight assembly for the cloud platform, the cloud platform includes axle construction and connecting seat, the connecting seat install in axle construction, its characterized in that, counterweight assembly includes:

a counterweight structure and a support structure;

the bracket structure is used for mounting a shooting device and is configured to be detachably connected with the connecting seat at different positions so that the shooting device captures images at different orientations;

the counterweight structure is configured to detachably connect the support structure and/or the axle structure to adjust the center of gravity of the head.

2. The counterweight assembly of claim 1 wherein said counterweight structure includes a counterweight block, said counterweight structure configured to adjust a center of gravity of said pan and tilt head by detachably connecting said support structure and/or said axle structure with said counterweight block.

3. The counterweight assembly of claim 2 wherein said counterweight structure further comprises a counterweight track, said counterweight structure configured to removably couple said counterweight track with said counterweight block to adjust the center of gravity of said pan and tilt head, and/or removably couple said mounting structure with said counterweight track to adjust the center of gravity of said pan and tilt head.

4. The counterweight assembly of claim 3 wherein said counterweight structure is configured to adjust the center of gravity of said pan head by adjusting the position of said counterweight blocks on said counterweight track, the number of said counterweight blocks on said counterweight track, and/or the position of said counterweight track on said mounting structure.

5. The counterweight assembly of claim 3 wherein at least one surface of said counterweight track defines at least one first connection aperture for connection to said counterweight.

6. The weight assembly of claim 5, wherein the weight track includes a first side plate opposite the second side plate, a second side plate opposite the third side plate opposite the fourth side plate, a fifth side plate connecting one end of the first side plate, the second side plate, the third side plate, and the fourth side plate, and a sixth side plate connecting the other end of the first side plate, the second side plate, the third side plate, and the fourth side plate;

at least one first connecting hole is formed in the surface of at least one of the first side plate, the second side plate, the third side plate, the fourth side plate, the fifth side plate and the sixth side plate.

7. The counterweight assembly of claim 3 wherein the mounting structure is configured to capture an image of the camera in a first orientation or a second orientation;

the counterweight track is configured to be mounted at a first location of the mounting structure to adjust a center of gravity of the pan/tilt head while the camera captures images in the first orientation;

the counterweight track is configured to be mounted at a second location of the mounting structure to adjust a center of gravity of the pan/tilt head while the camera captures images in the second orientation;

wherein the first location and the second location are different.

8. The counterweight assembly of claim 1 wherein the mounting structure is configured to capture an image of the camera in a first orientation or a second orientation;

the support structure comprises a first plate and a second plate, and the first plate is used for mounting the shooting device;

the first plate is also for connecting the connection mount when the camera captures an image in the first orientation;

the second plate is for connecting the connection receptacle when the camera captures an image in the second orientation.

9. The counterweight assembly of claim 8, wherein said first plate defines a first position-limiting hole, and said counterweight assembly is configured to removably couple said coupling seat with said first position-limiting hole to adjust the center of gravity of said pan/tilt head; and/or the presence of a gas in the gas,

the second plate is provided with a second limiting hole, and the counterweight component is configured to be detachably connected with the connecting seat by utilizing the second limiting hole so as to adjust the gravity center of the holder; and/or

The first plate is further provided with a third limiting hole, and the first plate is configured to be detachably connected with the shooting device through the third limiting hole so as to adjust the position of the shooting device on the first plate.

10. The counterweight assembly of claim 9 wherein said first plate further defines a third attachment aperture, said third attachment aperture configured to attach to said counterweight structure.

11. The counterweight assembly of claim 9 wherein said first position-limiting aperture is disposed parallel to said third position-limiting aperture;

the third limiting hole is long and comprises a first hole and a second hole which penetrate through the third limiting hole, and the size of the first hole is larger than that of the second hole.

12. The counterweight assembly of claim 8 wherein said first plate includes first and second opposed faces, said first face for mounting said camera;

the first surface is provided with a first anti-slip part which is used for being in contact with the shooting device, and/or the second surface is provided with a second anti-slip part which is used for being in contact with the counterweight structure.

13. The assembly of claim 8, wherein the outer sidewalls of the first plate and/or the second plate each have outwardly extending bosses for removably mounting the bracket structure to the channel of an external support device.

14. The counterweight assembly of claim 1 further including an adapter plate having one end removably connected to said support structure and another end removably connected to said counterweight structure.

15. The counterweight assembly of claim 1 wherein said shaft structure includes a first shaft structure including a first motor and a first shaft arm and a second shaft structure including a second motor and a second shaft arm;

one end of the first shaft arm is connected with the rotor of the first motor, and the other end of the first shaft arm is connected with the stator of the second motor;

one end of the second shaft arm is connected with the rotor of the second motor, and the other end of the second shaft arm is connected with the support structure;

the counterweight structure comprises a counterweight clamp and a counterweight block, the first shaft arm and/or the second shaft arm is/are used for being detachably connected with the counterweight clamp, the counterweight block is detachably installed on the counterweight clamp, and the counterweight clamp is configured to adjust the gravity center of the tripod head by adjusting the position of the counterweight clamp on the first shaft arm or the second shaft arm.

16. The weight assembly of claim 15, wherein the weight clip includes a weight clip body and a fastener disposed on the weight clip body and engageable with the weight clip body to lock the weight clip to the first and/or second axle arms.

17. The counterweight assembly of claim 16 wherein said fastener comprises a puller block and a knob, said puller block being adapted to be driven by said knob to abut said first and/or second axial arms,

the counterweight clamp further comprises an elastic piece, and the elastic piece is connected with the jacking block;

when the counterweight clamp is mounted on the first shaft arm and/or the second shaft arm, the elastic piece is used for keeping the trend that the jacking block is far away from or close to the first shaft arm and/or the second shaft arm.

18. The counterweight assembly of claim 17 wherein said tightening block comprises a first block and a second block connected to each other, said first block is at least partially received in a receiving space formed by said counterweight clamp body, and said knob is capable of driving said second block to move so as to make said second block abut against said first shaft arm and/or said second shaft arm.

19. The counterweight assembly of claim 18, wherein a first groove is formed in a side surface of the second block facing the knob, the knob can be partially disposed in the first groove, a second groove for the first shaft arm and/or the second shaft arm to pass through is formed in the counterweight clamp body, the second block is disposed in the second groove, and the second block and the second groove are matched to form a receiving groove;

the knob penetrates through the counterweight clamp body and can drive the abutting block to move, so that at least part of the inner surface of the accommodating groove is attached to and abutted against or far away from the outer side surface of the first shaft arm and/or the second shaft arm.

20. The counterweight assembly of claim 17 wherein said counterweight clamp body includes a first member and a second member connected to each other, said first member defining a first slot and said second member defining a second slot, said first slot and said second slot being connected to form a receiving space for receiving said resilient member.

21. A pan and tilt head assembly, comprising a pan and tilt head and a counterweight assembly as claimed in any one of claims 1 to 20;

the cloud platform includes axle construction and connecting seat, bearing structure installs on the connecting seat, counter weight structure installs bearing structure and/or on the axle construction.

22. A head assembly according to claim 21, wherein the attachment base is removably attached to the axle structure and is movable relative to the axle structure to adjust the centre of gravity of the head.

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