CN210050550U - Hand-held cloud platform - Google Patents

Abstract

The utility model provides a handheld cloud platform, which comprises a handle (1), a first shaft component (2) provided with a first motor (21) and a first shaft arm (22) which are connected with the top part (11) of the handle, a second shaft component (3) provided with a second motor (31) and a second shaft arm (32) which is fixedly connected with the second motor, a third shaft component (4) provided with a third motor (41) and a third shaft arm (42), a bearing object (5) which is fixedly connected with the rotor of the third motor and a rotating connecting piece (6); one end of the third shaft arm is fixedly connected with the second motor, and the other end of the third shaft arm is fixedly connected with the third motor; one end of the first shaft arm is fixedly connected with the first motor, and the other end of the first shaft arm is rotatably connected with the second shaft arm through a rotating connecting piece; when handheld cloud platform switches to the state of accomodating, first axostylus axostyle is folded along rotating connecting piece department with the second axostylus axostyle for the second axostylus axostyle pastes and establishes in the one side that first motor and first axostylus axostyle kept away from the top and the lateral wall of the at least partial butt handle of third motor.

Description

Hand-held cloud platform

Technical Field

The utility model relates to a cloud platform field especially relates to a handheld cloud platform.

Background

Among the prior art, the utility model with the grant publication number of CN208253098U discloses a handheld stabilizer, this handheld stabilizer is articulated through the upper end of first connecting portion one end and handle, the other end of first linking arm is articulated with the one end of second linking arm, it is when not using to have realized handheld stabilizer, first linking arm can fold down, the whole length of handheld stabilizer has been reduced after folding, after the second linking arm is folding simultaneously, the second linking arm keeps the parallel state with the handle, the clamping part is in between handle and the second linking arm, thereby the holistic volume of handheld stabilizer has been reduced, the mesh convenient to accomodate and carry has been reached.

When the traditional handheld stabilizer is stored, large gaps still exist between the first connecting arm and the first motor, between the first motor and the second motor, and between the second shaft arm and the holding part, and the storage of the handheld stabilizer is not compact enough; moreover, the shooting tool cannot be continuously clamped after the clamping part is folded, so that when a user stores the equipment, the handheld holder and the shooting device must be separately stored, and the storage steps of the traditional foldable handheld stabilizer are complicated.

SUMMERY OF THE UTILITY MODEL

The utility model provides a handheld cloud platform.

Specifically, the utility model discloses a realize through following technical scheme:

a handheld tripod head, comprising:

a handle having a rod-like structure with a top, a bottom, and a sidewall between the top and the bottom;

a first shaft assembly comprising a first motor and a first shaft arm connected to the top;

the second shaft assembly comprises a second motor and a second shaft arm fixedly connected with the second motor;

the third shaft assembly comprises a third motor and a third shaft arm, one end of the third shaft arm is fixedly connected with the second motor, and the other end of the third shaft arm is fixedly connected with the third motor;

the bearing object is fixedly connected with the rotor of the third motor; and

the rotating connecting piece is arranged between the first shaft arm and the second shaft arm;

one end of the first shaft arm is fixedly connected with the first motor, the other end of the first shaft arm is rotatably connected with the second shaft arm through the rotating connecting piece, and the handheld tripod head is switched between a storage state and a use state along with the relative rotation of the first shaft arm and the second shaft arm;

when the handheld cloud platform is switched to the storage state, the first shaft arm and the second shaft arm are folded along the rotating connecting piece, so that the second shaft arm is attached to one side, away from the top, of the first motor and the first shaft arm, and at least part of the third motor is abutted to the side wall of the handle;

when the handheld cloud platform switches to during the user state, first axis arm with the second axis arm becomes preset contained angle, first motor can rotate around first rotation axis, the second motor can rotate around the second rotation axis, the third motor can rotate around the third rotation axis, in order to control the gesture of bearing the thing changes.

Optionally, when the handheld tripod head is switched to the storage state, one end of the third motor, which is far away from the third shaft arm and fixedly connected with the second motor, abuts against the side wall of the handle.

Optionally, the third axis arm has an inflection point, and when the handheld tripod head is switched to the storage state, the shape of the third axis arm is adapted to the shape of the side wall of the handle so that the third axis arm at least partially abuts against the side wall of the handle.

Optionally, the side wall of the handle has a limiting surface;

when the handheld cloud platform switches to when accomodating the state, a part of third axle arm with spacing face butt to prevent the second motor for the handle rotates.

Optionally, the third axis arm is substantially V-shaped, and when the handheld tripod head is switched to the storage state, an opening of the V-shape faces a side wall of the handle.

Optionally, when the handheld tripod head is switched to the storage state, the load center of gravity of the second shaft assembly falls on the axis of the second motor.

Optionally, when the handheld cradle head is switched to the storage state, the first motor and the second motor are arranged side by side, and the first motor and the second motor are abutted against each other so that the first motor and the second motor are limited to each other.

Optionally, a step portion is formed at a connection position of the second motor and the third shaft arm;

when the handheld cloud platform switches to when accomodating the state, step portion deviates from the lateral wall setting of handle.

Optionally, when the handheld tripod head is switched to the storage state, the carrying object is located on one side of the third motor, which is far away from the side wall of the handle.

Optionally, the carrying object comprises a carrying part, and the carrying part is used for fixing the shooting device;

when the handheld cloud platform switches to when accomodating the state, the bearing part is located the third motor is kept away from one side of the lateral wall of handle.

Optionally, the bearing part is of a clamping structure;

when handheld cloud platform switch to when accomodating the state, press from both sides the opening that establishes the structure and deviate from the third motor setting.

Optionally, a first groove is formed in the top, a second groove is formed in the first motor, a locking piece is arranged in the second groove, and a locking protrusion is arranged on the second shaft arm;

the first groove is aligned with the second groove and used for indicating that the handheld cloud deck can be switched to the storage state;

when the first groove is aligned with the second groove, the second shaft arm is triggered to rotate towards the first shaft arm along the rotating connecting piece, so that the locking protrusion extends into the second groove, and the locking protrusion can trigger the locking piece in the second groove to move towards the first groove, so that a part of the locking piece enters the first groove to be matched with the first groove, so that the first shaft assembly and the second shaft assembly are prevented from rotating relative to the handle, and the handheld tripod head is maintained in the storage state.

Optionally, the rotor of the first motor is fixedly connected with the top;

the second groove is formed in the rotor of the first motor, the rotor of the first motor rotates relative to the handle to enable the first groove to be aligned with the first groove, and the locking protrusion is arranged on the second shaft arm.

Optionally, the rotating connecting piece has a supporting force, and when the handheld tripod head is switched to the use state, the first shaft arm and the second shaft arm are maintained at the preset included angle by virtue of the supporting force of the rotating connecting piece.

Optionally, the first rotation axis is a yaw axis, the second rotation axis is a pitch direction, and the third rotation axis is a roll direction; the extending direction of the handle inclines relative to the yaw axis, and the included angle between the extending direction of the handle and the yaw axis is greater than or equal to 5 degrees and less than or equal to 45 degrees.

According to the technical scheme provided by the embodiment of the utility model, the handheld cloud deck of the utility model changes the shape of the handheld cloud deck through the matching between different structures, so that when the handheld cloud deck is stored, the gaps between different structures are smaller, and the handheld cloud deck is more compact to store; and simultaneously, the utility model discloses a handheld cloud platform's the thing that bears can not tie between armshaft and handle after folding, is favorable to handheld cloud platform accomodate realize handheld cloud platform in the user state with accomodate the switching between the state, folding structure is compact, easy operation and accomodate the convenience.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a handheld pan/tilt head in an operating state according to an embodiment of the present invention;

fig. 2A is a schematic structural view of another direction of the handheld pan/tilt head in the use state according to an embodiment of the present invention;

FIG. 2B is an enlarged view of a portion of the handheld pan/tilt head of the embodiment shown in FIG. 2A;

fig. 3 is a schematic structural diagram of a further direction of the handheld tripod head in a use state according to an embodiment of the present invention;

fig. 4A is a schematic structural view of a handheld pan/tilt head in a storage state according to an embodiment of the present invention;

FIG. 4B is an enlarged view of a portion of the handheld pan/tilt head of the embodiment shown in FIG. 4A;

fig. 5A is a schematic structural diagram of the handheld cradle head in an operating state according to an embodiment of the present invention, which illustrates a positional relationship among the first groove, the second groove and the locking member when the handheld cradle head is in the operating state;

FIG. 5B is an enlarged view of a portion of the hand-held platform of the embodiment shown in FIG. 5A;

fig. 6A is a schematic structural view of the handheld cradle head in an accommodating state according to an embodiment of the present invention, which illustrates a positional relationship among the first groove, the second groove and the locking member when the handheld cradle head is in the accommodating state;

fig. 6B is a partially enlarged view of the handheld pan/tilt head in the embodiment shown in fig. 6A.

Reference numerals: 1: a handle; 11: a top portion; 111: a first groove; 12: a bottom; 13: a side wall; 131: a limiting surface; 2: a first shaft assembly; 21: a first motor; 211: a second groove; 22: a first shaft arm; 221: a locking projection; 3: a second shaft assembly; 31: a second motor; 311: a limiting bulge; 32: a second shaft arm; 4: a third shaft assembly; 41: a third motor; 42: a third shaft arm; 5: a support; 6: rotating the connecting piece; 7: a step portion; 8: a locking member; 100: a photographing device.

Detailed Description

The utility model discloses handheld cloud platform can include the handle and with the steady cloud platform mechanism that increases that the handle is connected should increase steady cloud platform mechanism and include primary shaft subassembly, secondary shaft subassembly, third shaft subassembly, bear the thing and rotate the connecting piece. This increase steady cloud platform not only can be connected with handle detachable, can also can dismantle with other carriers and be connected, for example, unmanned vehicles, vehicle, ground remote control carrier etc.. This increase steady cloud platform mechanism can with above-mentioned carrier high-speed joint for this increase steady cloud platform mechanism can change between the carrier of difference, for example, should increase steady cloud platform mechanism and can change between unmanned vehicles and handle, or should increase steady cloud platform and can change between ground remote control carrier and handle.

In this embodiment, the stability-enhancing pan-tilt mechanism is connected to a handle having a top, a bottom, and a sidewall between the top and the bottom. The first shaft assembly may include a first motor and a first shaft arm connected with the top, the second shaft assembly may include a second motor and a second shaft arm, and the third shaft assembly may include a third motor and a third shaft arm.

In the embodiment of the utility model provides an in, it locates to rotate the connecting piece first axle arm with between the second axle arm. One end of the first shaft arm is fixedly connected with the first motor, the other end of the first shaft arm is rotatably connected with the second shaft arm through the rotating connecting piece, and one end, far away from the first shaft arm, of the second shaft arm, which is rotatably connected with the second shaft arm is fixedly connected with the second motor; one end of the third shaft arm is fixedly connected with the second motor, and the other end of the third shaft arm is fixedly connected with the third motor. Further, the bearing object is fixedly connected with a rotor of the third motor.

Along with the relative rotation of first axis arm with the second axis arm makes handheld cloud platform cut between the state of accomodating and the user state, changes the position relation between first axis arm and the second axis arm through rotating the connecting piece, has realized handheld cloud platform and has accomodate the switching between the state at user state, and folding structure is simple, convenient operation and cost are lower.

When the handheld cloud platform is switched to the use state, the first shaft arm and the second shaft arm form a preset included angle, the first motor can rotate around the first rotating shaft, the second motor can rotate around the second rotating shaft, and the third motor can rotate around the third rotating shaft to control the posture change of the bearing object.

The compactness of the handheld tripod head during storage can be achieved based on different strategies, for example, in some embodiments, when the handheld tripod head is switched to the storage state, the first shaft arm and the second shaft arm are folded along the rotating connection part, so that the second shaft arm is attached to the side, away from the top, of the first motor and the first shaft arm, and the third motor is at least partially abutted to the side wall of the handle.

In some embodiments, when the handheld tripod head is switched from the use state to the storage state, the motor can be directly switched from the power-on mode to the power-off mode. On the contrary, when the handheld cloud platform switches to the expansion state from the state of accomodating, each motor can switch to the direct use of power up mode from the power down mode. For example, when the handheld holder is switched from the unfolding use state to the storage state, the first shaft arm and the second shaft arm rotate relatively at the moment, and when the first shaft arm and the second shaft arm rotate relatively to the state that the included angle between the extending direction of the first shaft arm and the extending direction of the second shaft arm is smaller than a certain angle, at least one of the first motor, the second motor and the third motor is switched from the power-on mode to the power-off mode.

An included angle between the extending direction of the first shaft arm and the extending direction of the second shaft arm may be smaller than 90 degrees, 80 degrees, 70 degrees, or 45 degrees, and the like, which is not specifically limited herein.

At least one of the first motor, the second motor and the third motor is switched from the power-on mode to the power-off mode, and only the first motor or only the second motor or only the third motor can be switched from the power-on mode to the power-off mode. Of course, two motors may be switched from a power-up mode to a power-down mode, such as the first motor and the second motor or the first motor and the third motor or the second motor and the third motor; of course, all three motors can be switched from the power-up mode to the power-down mode.

From this, when handheld cloud platform switches to folding state of accomodating from the expansion user state, the motor directly switches to the power down mode from the power up mode, perhaps when handheld cloud platform is converted to the expansion user state from folding state of accomodating, the motor directly switches to the power down mode from the power down mode, not only can save the battery power of handheld cloud platform, still more is favorable to the user to carry out convenient operation to handheld cloud platform simultaneously.

In some embodiments, when the handheld tripod head is switched to the storage state, the first shaft arm and the second shaft arm are folded along the rotating connection part, so that the second shaft arm is attached to one side of the first motor and the first shaft arm, which is far away from the top, the first motor and the second motor are arranged side by side, and the first motor and the second motor are abutted against each other so that the first motor and the second motor are limited mutually.

In some embodiments, the third shaft arm has an inflection point, when the handheld tripod head is switched to the storage state, the first shaft arm and the second shaft arm are folded along the rotation connection part, so that the second shaft arm is attached to a side of the first motor and the first shaft arm away from the top, and the third shaft arm has a shape matched with a shape of the side wall of the handle so that the third shaft arm at least partially abuts against the side wall of the handle.

In some embodiments, a stepped portion is formed at a connection portion of the second motor and the third shaft arm, and when the handheld tripod head is switched to the storage state, the first shaft arm and the second shaft arm are folded along the rotating connection piece, so that the second shaft arm is attached to one side of the first motor and the first shaft arm, which is far away from the top, and the stepped portion is arranged away from the side wall of the handle.

It can be understood that the strategies for realizing the compactness of the handheld holder during storage can be combined.

The handheld cloud platform provided by the embodiment of the utility model changes the shape of the handheld cloud platform through the matching of different structures, so that when the handheld cloud platform is stored, the gaps between the different structures are smaller, and the handheld cloud platform is more compact to store; and simultaneously, the utility model discloses a handheld cloud platform's the thing that bears can not tie between armshaft and handle after folding, is favorable to handheld cloud platform to accomodate, realizes handheld cloud platform in the user state and accomodates the switching between the state, and beta structure is compact, easy operation and accomodate the convenience.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The features of the following examples and embodiments may be combined with each other without conflict.

With reference to fig. 1, fig. 2A, fig. 3, fig. 4A, fig. 5A, and fig. 6A, an embodiment of the present invention provides a handheld tripod head, which may include a handle 1, a first shaft assembly 2, a second shaft assembly 3, a third shaft assembly 4, a carrying object 5, and a rotating connection member 6. Wherein the handle 1 has a top 11, a bottom 12 and a side wall 13, the side wall 13 being located between the top 11 and the bottom 12; optionally, the handle 1 is of a rod-shaped structure, and the handle 1 of the embodiment may be a non-telescopic rod with a fixed length, or a telescopic rod with a variable length; of course, the handle 1 may have other shapes, and the shape of the handle 1 is not particularly limited in the present invention.

The first shaft assembly 2 may include a first motor 21 and a first shaft arm 22 connected to the top 11, the second shaft assembly 3 may include a second motor 31 and a second shaft arm 32, and the third shaft assembly 4 may include a third motor 41 and a third shaft arm 42. In this embodiment, the motor types of the first motor 21, the second motor 31, and the third motor 41 are not specifically required, and may be a direct current motor or an alternating current motor; the motor can be a single-phase motor, a three-phase motor or the like. The first, second and third arms 22, 32, 42 may be rod-like structures, or may have other shapes. Alternatively, the first shaft arm 22, the second shaft arm 32, and the third shaft arm 42 may be rod-shaped structures, and the first shaft arm 22, the second shaft arm 32, and the third shaft arm 42 of this embodiment may be non-telescopic rods with fixed lengths, or telescopic rods with variable lengths. Of course, the first axle arm 22, the second axle arm 32 and the third axle arm 42 may have other shapes, and the shape of the first axle arm 22, the second axle arm 32 and the third axle arm 42 is not particularly limited.

In the present embodiment, the rotational joint 6 is provided between the first and second shaft arms 22 and 32. One end of the first shaft arm 22 is fixedly connected with the first motor 21, the other end of the first shaft arm 22 is rotatably connected with the second shaft arm 32 through the rotating connecting piece 6, and one end, far away from the first shaft arm 22, of the second shaft arm 32, which is rotatably connected with the second shaft arm 32, is fixedly connected with the second motor 31; one end of the third shaft arm 42 is fixedly connected with the second motor 31, and the other end of the third shaft arm 42 is fixedly connected with the third motor 41.

Further, the carrying object 5 is fixedly connected with the rotor of the third motor 41, and optionally, the carrying object 5 may carry an imaging lens, and the imaging lens is directly or indirectly fixedly connected with the rotor of the third motor 41. Optionally, the carrying object 5 may further include a carrying portion for fixing the photographing device 100 (as shown in fig. 5A and fig. 6A), and the photographing device 100 may be a camera, a smart terminal (such as a mobile phone, a tablet computer, etc.) with a photographing function, or another device with a photographing function.

Alternatively, the first shaft arm 22 is fixedly connected to the rotor of the first motor 21, the second shaft arm 32 is fixedly connected to the stator of the second motor 31, and the third shaft arm 42 is fixedly connected to the stator of the third motor 41. It is to be understood that the structures of the first shaft assembly 2, the second shaft assembly 3, and the third shaft assembly 4 are not limited to the above-described structures, and for example, the first shaft arm 22 may be a part of the rotor of the first motor 21; the second shaft arm 32 may be part of the stator of the second electric machine 31; the third shaft arm 42 may be part of the stator of the third motor 41.

The structure of the handheld tripod head will be described in detail below by taking as an example that the first shaft assembly 2 includes the first motor 21 and the first shaft arm 22, the second shaft assembly 3 includes the second motor 31 and the second shaft arm 32, and the third shaft assembly 4 includes the third motor 41 and the third shaft arm 42.

Along with the relative rotation of first axis arm 22 and second axis arm 32, make handheld cloud platform cut between the state of accomodating and the user state, the embodiment of the utility model provides a only through a rotation connecting piece 6, can change the position relation between first axis arm 22 and the second axis arm 32, realized handheld cloud platform and in the user state (as shown in fig. 1, fig. 2A, fig. 3, fig. 5A) and accomodate the switching between the state (as shown in fig. 4A, fig. 6A), folding structure is simple, convenient operation and cost are lower.

As shown in fig. 1, fig. 2A, fig. 3 and fig. 5A, when the handheld tripod head is switched to the use state, the first shaft arm 22 and the second shaft arm 32 form a preset included angle, the first motor 21 can rotate around the first rotation shaft, the second motor 31 can rotate around the second rotation shaft, and the third motor 41 can rotate around the third rotation shaft, so as to control the posture change of the carried object 5. The size of the preset included angle can be set according to needs, and optionally, the preset included angle is greater than 90 degrees and less than 180 degrees, such as 120 degrees and 135 degrees. In this embodiment, when the first motor 21 rotates around the first rotation axis, the load of the first motor 21 (the load of the first motor 21 includes the first axle arm 22, the second axle assembly 3, the third axle assembly 4, and the load 5) is driven to rotate around the first rotation axis; when the second motor 31 rotates around the second rotation axis, the load of the second motor 31 (the load of the second motor 31 includes the third shaft assembly 4 and the carrying object 5) is driven to rotate around the second rotation axis; when the third motor 41 rotates around the third rotation axis, the carrying object 5 is driven to rotate around the third rotation axis. To achieve a change in the attitude of the load 5, at least one of the following control strategies can be used: the first motor 21 is controlled to rotate about the first rotation axis, the second motor 31 is controlled to rotate about the second rotation axis, and the third motor 41 is controlled to rotate about the third rotation axis.

As shown in fig. 4A and fig. 6A, when the handheld tripod head is switched to the storage state, the first shaft arm 22 and the second shaft arm 32 are folded along the rotation connection 6, so that the second shaft arm 32 is attached to the first motor 21 and the first shaft arm 22 on the side away from the top portion 11. After the handheld tripod head of the present embodiment is folded, there is no gap between the second shaft arm 32 and the first shaft arm 22 and the side of the first motor 21 far away from the top portion 11, so that the handheld tripod head is more compact to store.

On the basis that the first shaft arm 22 and the second shaft arm 32 are folded along the rotating connecting piece 6, the handheld tripod head can be further compactly stored based on the cooperation between other structures of the handheld tripod head. It should be noted that, in the embodiment of the present invention, after the first shaft arm 22 and the second shaft arm 32 are folded along the rotating connection member 6, other structures of the handheld tripod head are automatically matched to form a folded state.

In the following, the handheld cradle head housing is further compacted and detailed based on the cooperation between other structures of the handheld cradle head.

In some embodiments, when the handheld tripod head is switched to the storage state, the first motor 21 and the second motor 31 are arranged side by side, and the first motor 21 and the second motor 31 are abutted to each other so that the first motor 21 and the second motor 31 are limited to each other. After the handheld tripod head of the embodiment is folded, no gap exists between the first motor 21 and the second motor 31, so that the handheld tripod head is further compact in storage; meanwhile, the first motor 21 and the second motor 31 are effectively limited to rotate relatively when being folded through the abutting surfaces between the first motor 21 and the second motor 31, and the handheld tripod head is favorably and stably stored.

Optionally, when the handheld tripod head is switched to the storage state, the axis of the first motor 21 intersects with the axis of the second motor 31, which is beneficial to the cooperation of the third shaft arm 42 and the third motor 41 with the side wall 13 of the handle 1. Further, the second shaft arm 32 has an inflection point, and when the handheld tripod head is switched to the storage state, the inflection point of the second shaft arm 32 protrudes from an end of the first motor 21 away from the rotational connection between the first shaft arm 22 and the second shaft arm 32 (i.e. an end of the first motor 21 farthest from the first shaft arm 22), so as to facilitate the oblique abutment between the first motor 21 and the second motor 31. Optionally, the second shaft arm 32 is substantially V-shaped, and when the handheld tripod head is switched to the storage state, the V-shaped opening of the second shaft arm 32 is substantially downward. In this embodiment, when the handheld tripod head is switched to the storage state, the bottom 12 of the handle 1 faces downward, and the upward direction of the handle 1 is used as a reference for "up" and "down". It is understood that when the handheld tripod head is switched to the storage state, the axis of the first motor 21 and the axis of the second motor 31 may also be parallel to each other.

In some embodiments, when the handheld tripod head is switched to the storage state, the third motor 41 at least partially abuts against the side wall 13 of the handle 1, and after the handheld tripod head of this embodiment is folded, a gap between the third motor 41 and the side wall 13 of the handle 1 is reduced, so that the handheld tripod head storage is further compact; meanwhile, the third motor 41 is abutted against the side wall 13 of the handle 1, so that when the handheld tripod head is stored, the bearing object 5 cannot be located between the third motor 41 and the side wall 13 of the handle 1, the collision risk between the bearing object 5 and the side wall 13 of the handle 1 when the handheld tripod head is stored is reduced, and when the handheld tripod head is stored, the bearing object 5 can still be used.

Optionally, when the handheld tripod head is switched to the storage state, one end of the third motor 41 away from the fixed connection between the third shaft arm 42 and the second motor 31 (i.e. the end of the third motor 41 farthest from the second motor 31) abuts against the side wall 13 of the handle 1. In general, the shape of the side wall 13 of the handle 1 needs to be designed to conform to the hand-holding habit of the user, so the side wall 13 of the handle 1 has a recessed portion (not shown), and when the hand-holding platform is switched to the storage state, the end of the third motor 41 away from the fixed connection between the third shaft arm 42 and the second motor 31 abuts against the side of the recessed portion close to the bottom 12.

In some embodiments, the third shaft arm 42 has an inflection point, when the handheld tripod head is switched to the storage state, the shape of the third shaft arm 42 is matched with the shape of the side wall 13 of the handle 1 so that the third shaft arm 42 at least partially abuts against the side wall 13 of the handle 1, and after the handheld tripod head of the present embodiment is folded, since the shape of the third shaft arm 42 is matched with the shape of the side wall 13 of the handle 1 and the third shaft arm 42 at least partially abuts against the side wall 13 of the handle 1, the gap between the third shaft arm 42 and the side wall 13 of the handle 1 can be reduced, so that the handheld tripod head storage is further compact.

Optionally, the side wall 13 of the handle 1 has a limiting surface 131, and when the handheld tripod head is switched to the storage state, a part of the third shaft arm 42 abuts against the limiting surface 131 to prevent the second motor 31 from rotating relative to the handle 1, which is beneficial to the handheld tripod head being stably in the storage state. Wherein, the spacing surface 131 is arranged between the concave part and the top part 11. It is to be understood that the manner of abutment between the third shaft arm 42 and the side wall 13 of the handle 1 is not limited to the above-described surface contact manner, and a point contact manner may be selected. Of course, when the second motor 31 is prevented from rotating relative to the handle 1, other manners may also be adopted, as shown in fig. 4B, when the handheld tripod head is switched to the storage state, a part of the third shaft arm 42 is parallel to the limiting surface 131, and the gap between the third shaft arm 42 and the limiting surface 131 is smaller than the preset threshold, so that the second motor 31 can also be prevented from rotating relative to the handle 1, which is beneficial to the handheld tripod head being stably in the storage state.

Optionally, the third shaft arm 42 is substantially V-shaped, and when the handheld tripod head is switched to the storage state, the V-shaped opening of the third shaft arm 42 faces the side wall 13 of the handle 1, which is beneficial to the cooperation between the third motor 41 and the side wall 13 of the handle 1. Further alternatively, the V-shaped opening of the third axle arm 42 is adjacent the side of the recess remote from the base 12.

Optionally, when the handheld tripod head is switched to the storage state, the center of gravity of the load of the second shaft assembly 3 falls on the axis of the second motor 31, so that the handheld tripod head can be kept balanced when being stored. It should be noted that, in the embodiment of the present invention, the load of the second shaft assembly 3 is the load carried on the second motor 31, and specifically includes the third shaft assembly 4 and the carrying object 5, and if the carrying object 5 includes the carrying portion for fixing the shooting device 100, the load of the second shaft assembly 3 further includes the shooting device 100 fixed on the carrying portion.

In some embodiments, a step portion 7 (as shown in fig. 4A) is formed at the connection between the second motor 31 and the third shaft arm 42, and when the handheld tripod head is switched to the storage state, the step portion 7 is disposed away from the side wall 13 of the handle 1. If the handheld tripod head is stored, the step portion 7 is arranged towards the side wall 13 of the handle 1, and a larger gap exists between the third shaft arm 42 and the side wall 13 of the handle 1 due to the existence of the step portion 7, and when the handheld tripod head is stored, the step portion 7 is arranged away from the side wall 13 of the handle 1, so that the gap between the third shaft arm 42 and the side wall 13 of the handle 1 is reduced, and the handheld tripod head is further compact in storage. Referring to fig. 4A again, the step portion 7 of the present embodiment is "L" shaped.

It can be understood that the compact matching modes of the handheld tripod head during storage can be combined.

In addition, whether the second shaft arm 32 is folded relative to the first shaft arm 22 along the position of the rotating connecting piece 6 can be controlled based on a manual control mode or an automatic control mode, so that the switching of the handheld cloud deck before the use state and the storage state is realized, wherein the automatic control mode can select a key trigger control mode or other automatic trigger modes.

When the handheld tripod head of the present embodiment is stored, the carrying object 5 cannot be located between the third motor 41 and the side wall 13 of the handle 1, so that the carrying object 5 can still be used when the handheld tripod head is stored. For example, if the carrying object 5 includes an imaging lens, when the handheld cradle head is stored, the imaging lens can be continuously used for shooting, and the difference of shooting by using the imaging lens when the handheld cradle head is in the use state is as follows: when the handheld tripod head is in the storage state and uses the imaging lens to shoot, the posture of the imaging lens cannot be switched based on the first motor 21 and the second motor 31, but the third motor 41 can be controlled to switch the posture of the imaging lens. Meanwhile, in this embodiment, since the carrying object 5 is located on the side of the open step portion after being stored, the size and shape of the imaging lens are not limited by the narrow space, and can be selected and replaced according to the shooting requirements of the user. For example, in one of the cases, a circular imaging lens may be used, in another case, a square imaging lens may be used, and in other cases, imaging lenses with other sizes or shapes may be used, which is not limited herein.

If the carrying object 5 includes a carrying portion for fixing the photographing apparatus 100, the photographing apparatus 100 can be continuously used for photographing, the photographing apparatus 100 can be operated, and the photographing apparatus 100 can be carried for storage. Correspondingly, use this shooting device 100 to shoot under handheld cloud platform is in the state of accomodating, and the difference that uses this shooting device 100 to shoot under being in the user state with handheld cloud platform lies in: when the handheld tripod head is in the storage state and the photographing device 100 is used for photographing, the posture of the photographing device 100 cannot be switched based on the first motor 21 and the second motor 31, but the third motor 41 can be controlled to switch the posture of the photographing device 100. When the shooting device 100 is carried to be stored, the shooting device 100 can be stored in the handheld holder together without being stored separately, so that the storage space is saved, and the portable outdoor shooting device is more favorable for users to use.

Referring to fig. 4A and fig. 6A again, when the handheld cradle head is switched to the storage state, the carrying object 5 is located on a side of the third motor 41 away from the side wall 13 of the handle 1, so that the carrying object 5 can still be used when the handheld cradle head is stored.

Next, the positional relationship of the carrying object 5 when the holder is stored will be described in detail with the carrying object 5 including a carrying portion for fixing the imaging device 100.

When present handheld cloud platform that has folding function is in the state of accomodating, a bearing structure clamp for bearing shooting device is established between axle subassembly and handle, needs take off shooting device from bearing structure, just can accomplish and accomodate the function, uses inconveniently. In this embodiment, when the handheld tripod head is switched to the storage state, the bearing portion is located on a side of the third motor 41 away from the side wall 13 of the handle 1. Compared with the existing handheld cloud deck, the handheld cloud deck of the embodiment of the utility model can carry the shooting device 100 for storage, and is more convenient to use; meanwhile, when the handheld tripod head is stored, the shooting device 100 can be continuously used for shooting; the photographing apparatus 100 can also be operated for video playback and the like.

The structure of the carrying portion can be designed as required, for example, in an embodiment, the carrying portion is a clamping structure. When handheld cloud platform switches to the state of accomodating, press from both sides the opening of establishing the structure and deviate from the setting of third motor 41, press from both sides the opening setting mode of establishing the structure and can ensure that handheld cloud platform when accomodating, shooting device 100 can the outside that faces, convenience of customers uses shooting device 100.

Further, the clamping structure of the present embodiment has a locked state and an unlocked state, and when the clamping structure is in the unlocked state, the shooting device 100 can be clamped and fixed, and the third motor 41 can rotate around the third rotation axis; when the clamp structure is in the locked state, the clamp structure is locked on the third shaft arm 42, and the third motor 41 is restricted from rotating. Optionally, when the handheld cradle head is switched to the storage state, the clamping structure is automatically switched to the locking state; optionally, when the handheld cradle head is switched to the storage state, the clamping structure is still in the unlocking state, and a user is required to switch the clamping structure to the locking state through a manual operation mode. In addition, when the clamping structure is in the locked state, the clamping structure can be switched from the locked state to the unlocked state based on an automatic unlocking (key/button unlocking) or manual unlocking manner. The structure for locking the third shaft arm 42 with the clamping structure may be a conventional structure, which is not described in this embodiment.

It is understood that the structure of the bearing part is not limited to the design mode of the clamping structure, and other structures can be adopted.

In the above embodiment, when the handheld cloud platform is switched to the storage state, the rotating connecting piece 6 is relatively easy to rotate under the action of external force, so that the handheld cloud platform cannot be maintained in the storage state, and the handheld cloud platform is not beneficial to storage and carrying. In this embodiment, a locking mode is adopted to maintain the handheld holder in the storage state.

For example, in one embodiment, referring to fig. 2B and fig. 5A to 6B, the top 11 has a first groove 111, the first motor 21 has a second groove 211, the second groove 211 has a locking member 8, and the second arm 32 has a locking protrusion 221. In this embodiment, if the first groove 111 is aligned with the second groove 211, it is indicated that the handheld cradle head can be switched to the storage state, that is, the handheld cradle head can be switched from the use state to the storage state only when the first groove 111 is aligned with the second groove 211; if the first recess 111 and the second recess 211 are not aligned, the handheld tripod head cannot be switched from the use state to the storage state.

When the first groove 111 is aligned with the second groove 211, the second shaft arm 32 is triggered to rotate towards the first shaft arm 22 along the rotating connection piece 6, so that the locking protrusion 221 extends into the second groove 211; during the process that the locking protrusion 221 extends into the second groove 211, the locking protrusion 221 can trigger the locking member 8 in the second groove 211 to move towards the first groove 111, so that a part of the locking member 8 enters the first groove 111 to be matched with the first groove 111, as shown in fig. 6A and 6B, so as to prevent the first shaft assembly 2 and the second shaft assembly 3 from rotating relative to the handle 1, and maintain the handheld tripod head in the storage state. In the embodiment, the first motor 21 cannot rotate relative to the handle 1 due to the locking piece 8 being matched with the first groove 111, so that the first shaft assembly 2 is prevented from rotating relative to the handle 1; at the same time, the second shaft arm 32 is fixed to the first motor 21 based on the engagement of the locking projection 221 with the second recess 211, thereby preventing the second shaft assembly 3 from rotating relative to the handle 1. The locking piece 8 and the first groove 111, and the locking protrusion 221 and the second groove 211 can be fixed by interference fit, or can be fixed by other fit methods.

In some examples, the stator of the first motor 21 is fixedly connected to the top portion 11, and the relative positions of the first groove 111 and the second groove 211 are always unchanged, i.e., the first groove 111 and the second groove 211 are always aligned.

In other examples, the rotor of the first motor 21 is fixedly connected to the top 11, the second recess 211 is formed in the rotor of the first motor 21, and the locking protrusion 221 is formed on the second shaft arm 32. During the rotation of the rotor of the first motor 21, the position of the second groove 211 relative to the first groove 111 changes, and the rotor of the first motor 21 can rotate relative to the handle 1 to align the first groove 111 with the first groove 111, as shown in fig. 5A and 5B.

The locking member 8 of the present embodiment may be an elastic member, such as an elastic member made of an elastic material or an elastic member with a spring. Of course, the locking element 8 may also be a non-elastic element.

When the handheld cloud platform is maintained in the storage state, the handheld cloud platform can be controlled to be switched from the storage state to the use state based on different modes.

For example, in some examples, the second shaft arm 32 is manually operated (e.g., pushed or pulled) by the user to rotate along the rotational connection 6 relative to the first shaft arm 22 such that the second shaft arm 32 is gradually moved away from the first motor 21. During the process that the second shaft arm 32 gradually moves away from the first motor 21, the locking protrusion 221 moves away from the second groove 211. In the process of gradually separating the locking protrusion 221 from the second groove 211, the locking member 8 may move away from the first groove 111 by the elastic restoring force. When the locking protrusion 221 is completely separated from the second recess 211, the locking member 8 may be restored by the elastic restoring force to be completely received in the second recess 211. Therefore, the first motor 21 and the second shaft arm 32 can rotate relative to the handle 1, and the handheld tripod head is switched to the use state.

In other examples, the side wall 13 of the handle 1 is provided with an unlocking portion that can cooperate with the locking member 8. When the unlocking part is operated, the locking part 8 can move towards the direction away from the first groove 111 to be separated from the first groove 111 under the ejecting and holding force of the unlocking part, and when the locking part 8 ejects the locking protrusion 221 out of the second groove 211, the handheld tripod head can be switched to the using state from the storage state. The unlocking means may be operated by a pressing means, a pulling means, a pushing means or other operation means. The unlocking part can be an electronic unlocking structure or a mechanical unlocking structure, and the type of the unlocking part is specifically selected according to the requirement.

Further, in some embodiments, the second motor 31 rotates to a preset position, so as to indicate that the handheld cradle head can be switched to the storage state, that is, the handheld cradle head can be switched from the use state to the storage state only when the second motor 31 rotates to the preset position; if the second motor 31 is not rotated to the predetermined position, that is, the first shaft arm 22 and the second shaft arm 32 are folded, it is likely that the second motor 31 and/or the third shaft assembly 4 cannot be folded in place because the second motor 31 is not rotated in place, and the handheld tripod head cannot be switched from the use state to the storage state.

Optionally, the preset position is a limit position of the second motor 31, and based on the limit of the second motor 31, the user can conveniently identify whether the handheld cradle head can be switched to the storage state from the use state. Further, the stator of the second motor 31 is provided with a limit protrusion 311 for limiting the rotation of the rotor of the second motor 31, and the limit protrusion 311 is disposed adjacent to the locking protrusion 221. Before the handheld tripod head needs to be switched from the use state to the storage state, the user needs to control the second motor 31 to rotate to the position of the limiting protrusion 311.

It is understood that the preset position is not limited to the limit position of the second motor 31, and may be other rotation positions of the second motor 31.

The operation process of switching the handheld cloud platform from the use state to the storage state can include: the first motor 21 is controlled to rotate relative to the handle 1 so that the first groove 111 is aligned with the second groove 211, and the second motor 31 is controlled to rotate to a limiting position, wherein the two steps can be executed synchronously or sequentially; after controlling the first motor 21 to rotate relative to the handle 1 to align the first groove 111 with the second groove 211 and controlling the second motor 31 to rotate to the limit position, the first shaft arm 22 and the second shaft arm 32 are operated to fold along the rotation connecting member 6 so that the locking protrusion 221 extends into the second groove 211; when the locking protrusion 221 extends into the second groove 211, the locking protrusion 221 will press the locking member 8 in the second groove 211 downward, so that the locking member 8 moves toward the first groove 111, and when a portion of the locking member 8 enters the first groove 111 and matches with the first groove 111, the handheld tripod head is switched from the use state to the storage state, and can be maintained in the storage state.

The rotating connecting piece 6 can be a hinge piece, and can also be other rotating pieces.

In some embodiments, the rotational connection member 6 has a supporting force, and when the handheld tripod head is switched to the use state, the supporting force of the rotational connection member 6 is relied on to maintain the preset included angle between the first shaft arm 22 and the second shaft arm 32. This embodiment relies on the holding power of rotating 6 self of connecting pieces, can maintain handheld cloud platform in user state. Optionally, the rotating connection member 6 includes a damping structure, and when the handheld tripod head is switched to the use state, the first shaft arm 22 and the second shaft arm 32 are maintained at the preset included angle by virtue of the supporting force of the damping structure. Wherein, the damping structure is one of the following structures: spring plate, cam, elastic pin, torsion spring, but not limited to the above listed configurations. Of course, the rotating connection member 6 may also include other structures having supporting force to maintain the handheld tripod head in the use state.

In other embodiments, the rotational connection 6 comprises a rotating shaft without supporting forces. When the handheld cloud platform switches to the user mode, the pivot self can't maintain the handheld cloud platform in the user mode, needs the cooperation of other structures for the handheld cloud platform maintains the user mode. Optionally, the first shaft arm 22 is provided with a locking mechanism, and the second shaft arm 32 is provided with a locking groove; optionally, the first shaft arm 22 is provided with a locking recess and the second shaft arm 32 is provided with a locking mechanism. When the second shaft arm 32 rotates along the rotation axis relative to the first shaft arm 22 until the first shaft arm 22 and the second shaft arm 32 form a preset included angle, the locking mechanism is matched with the locking groove, so that the preset included angle is maintained between the first shaft arm 22 and the second shaft arm 32, and the handheld tripod head is maintained in a use state. In this embodiment, when the first shaft arm 22 and the second shaft arm 32 are rotated along the rotation axis until the first shaft arm 22 and the second shaft arm 32 form a preset included angle, the first shaft arm 22 and the second shaft arm 32 are maintained at the preset included angle through the locking cooperation of the locking mechanism and the locking groove, so that the handheld tripod head is maintained in the use state. The locking engagement of the locking mechanism with the locking recess may be selected from conventional locking engagement.

Further alternatively, the lock mechanism can be switched to each other between the unlocked state and the locked state by a pressing operation. When the second shaft arm 32 rotates along the rotating shaft relative to the first shaft arm 22 until the first shaft arm 22 and the second shaft arm 32 form a preset included angle, the trigger locking mechanism is in a locking state; when the locking mechanism is in the unlocked state, the second shaft arm 32 is able to rotate along the axis of rotation relative to the first shaft arm 22. Optionally, when the second shaft arm 32 rotates along the rotation axis relative to the first shaft arm 22 until the first shaft arm 22 and the second shaft arm 32 form a preset included angle, the locking mechanism automatically enters the locking groove to be in locking fit with the locking groove; alternatively, when the second arm 32 is rotated along the axis of rotation relative to the first arm 22 until the first arm 22 is at a predetermined angle to the second arm 32, the user manually operates the locking mechanism so that the locking mechanism enters the locking recess and is in locking engagement with the locking recess.

In some examples, when the handheld tripod head is in the use state, the first rotation axis, the second rotation axis and the third rotation axis are orthogonal two by two; in other examples, when the handheld cloud deck is in a use state, at least two axes of the first rotation axis, the second rotation axis and the third rotation axis are mutually oblique, and the intersecting mode of the first rotation axis, the second rotation axis and the third rotation axis when the handheld cloud deck is in use can be selected according to needs.

In this embodiment, the first rotation axis is a yaw axis, the second rotation axis is a pitch direction, and the third rotation axis is a roll direction. When the handheld cloud platform is in a use state, the yaw axis is approximately parallel to the vertical direction; optionally, the yaw axis is parallel to the vertical direction. Of course, the rotation directions of the first, second, and third rotation axes may be in other forms, for example, the first rotation axis may be a yaw axis, the second rotation axis may be a roll axis, and the third rotation axis may be a pitch axis.

Conventional cloud platform is under the user state, and handheld direction is parallel with vertical direction, leads to the user to hold handheld cloud platform harder, and handheld experience is relatively poor. In this respect, in the present embodiment, when the handheld tripod head is in the use state, the extending direction of the handle 1 (which may refer to a line from the center point of the top 11 to the center point of the bottom 12 of the handle 1, or parallel to the line) is inclined with respect to the yaw axis. Because handheld cloud platform is under the user state, the direction of gripping that the user gripped handle 1 is the same direction with the extending direction of handle 1, so grip the direction and also incline relatively the driftage axle, and the user grips handle 1 more laborsaving, convenient. This embodiment is in under the user state at handheld cloud platform, and the extending direction of handle 1 is favorable to the user to grip the setting mode of yaw axis slope relatively, has improved the experience degree that the user gripped handle 1 under the user state for the user uses handheld cloud platform more conveniently. Optionally, the handle 1 extends at an angle greater than or equal to 5 degrees and less than or equal to 45 degrees with respect to the yaw axis, such as 5 degrees, 10 degrees, 15 degrees, 20 degrees, 30 degrees, 40 degrees, 45 degrees, or other angles between 5 degrees and 45 degrees.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The handheld cradle head provided by the embodiment of the present invention is described in detail above, and the principle and the implementation of the present invention are explained by applying a specific example, and the description of the above embodiment is only used to help understanding the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (15)

1. A handheld cloud platform, its characterized in that, handheld cloud platform includes:

a handle having a rod-like structure with a top, a bottom, and a sidewall between the top and the bottom;

a first shaft assembly comprising a first motor and a first shaft arm connected to the top;

the second shaft assembly comprises a second motor and a second shaft arm fixedly connected with the second motor;

the third shaft assembly comprises a third motor and a third shaft arm, one end of the third shaft arm is fixedly connected with the second motor, and the other end of the third shaft arm is fixedly connected with the third motor;

the bearing object is fixedly connected with the rotor of the third motor; and

the rotating connecting piece is arranged between the first shaft arm and the second shaft arm;

one end of the first shaft arm is fixedly connected with the first motor, the other end of the first shaft arm is rotatably connected with the second shaft arm through the rotating connecting piece, and the handheld tripod head is switched between a storage state and a use state along with the relative rotation of the first shaft arm and the second shaft arm;

when the handheld cloud platform is switched to the storage state, the first shaft arm and the second shaft arm are folded along the rotating connecting piece, so that the second shaft arm is attached to one side, away from the top, of the first motor and the first shaft arm, and at least part of the third motor is abutted to the side wall of the handle;

when the handheld cloud platform switches to during the user state, first axis arm with the second axis arm becomes preset contained angle, first motor can rotate around first rotation axis, the second motor can rotate around the second rotation axis, the third motor can rotate around the third rotation axis, in order to control the gesture of bearing the thing changes.

2. A handheld tripod head according to claim 1, wherein when the handheld tripod head is switched to the stowed position, an end of the third motor remote from the third shaft arm and fixedly connected to the second motor abuts against a side wall of the handle.

3. A hand-held pan and tilt head according to claim 1, wherein the third axis arm has an inflection point, the shape of the third axis arm being adapted to the shape of the side wall of the handle so that the third axis arm at least partially abuts the side wall of the handle when the hand-held pan and tilt head is switched to the stowed condition.

4. A handheld holder according to claim 3, wherein the side wall of the handle has a limit surface;

when the handheld cloud platform switches to when accomodating the state, a part of third axle arm with spacing face butt to prevent the second motor for the handle rotates.

5. A hand-held head according to claim 3, wherein the third axis arm is substantially V-shaped, the opening of the V being directed towards the side wall of the handle when the hand-held head is switched to the stowed condition.

6. A hand-held head according to claim 3 or 5, wherein the centre of gravity of the load of the second shaft assembly lies on the axis of the second motor when the hand-held head is switched to the stowed condition.

7. The handheld tripod head according to claim 1, wherein when the handheld tripod head is switched to the storage state, the first motor and the second motor are arranged side by side, and the first motor and the second motor are abutted against each other so that the first motor and the second motor are mutually limited.

8. A handheld holder according to claim 1 or 3, wherein a step is formed at a connection between the second motor and the third shaft arm;

when the handheld cloud platform switches to when accomodating the state, step portion deviates from the lateral wall setting of handle.

9. A handheld tripod head according to claim 1, wherein when the handheld tripod head is switched to the stowed condition, the load bearing member is located on a side of the third motor remote from the side wall of the handle.

10. A handheld tripod head according to claim 9, wherein said support comprises a support portion for fixing a camera;

when the handheld cloud platform switches to when accomodating the state, the bearing part is located the third motor is kept away from one side of the lateral wall of handle.

11. A handheld tripod head according to claim 10, wherein said carrying portion is of a sandwich construction;

when handheld cloud platform switch to when accomodating the state, press from both sides the opening that establishes the structure and deviate from the third motor setting.

12. A handheld tripod head according to claim 1, wherein the top portion is provided with a first groove, the first motor is provided with a second groove, a locking member is provided in the second groove, and a locking protrusion is provided on the second shaft arm;

the first groove is aligned with the second groove and used for indicating that the handheld cloud deck can be switched to the storage state;

when the first groove is aligned with the second groove, the second shaft arm is triggered to rotate towards the first shaft arm along the rotating connecting piece, so that the locking protrusion extends into the second groove, and the locking protrusion can trigger the locking piece in the second groove to move towards the first groove, so that a part of the locking piece enters the first groove to be matched with the first groove, so that the first shaft assembly and the second shaft assembly are prevented from rotating relative to the handle, and the handheld tripod head is maintained in the storage state.

13. A handheld holder according to claim 12, wherein the rotor of the first motor is fixedly connected to the top portion;

the second groove is formed in the rotor of the first motor, the rotor of the first motor rotates relative to the handle to enable the first groove to be aligned with the first groove, and the locking protrusion is arranged on the second shaft arm.

14. A handheld head according to claim 1,

the rotating connecting piece is provided with a supporting force, and when the handheld tripod head is switched to the using state, the first shaft arm and the second shaft arm are maintained at the preset included angle by means of the supporting force of the rotating connecting piece.

15. A handheld head according to claim 1, wherein the first axis of rotation is a yaw axis, the second axis of rotation is a pitch direction, and the third axis of rotation is a roll direction; the extending direction of the handle inclines relative to the yaw axis, and the included angle between the extending direction of the handle and the yaw axis is greater than or equal to 5 degrees and less than or equal to 45 degrees.

Images