CN213542019U - External device, handheld cloud platform and handheld cloud platform subassembly - Google Patents

Abstract

The application discloses external device. The external device is used for being detachably connected with the handheld cloud platform. The handheld cloud platform is provided with a clamping groove. The external device comprises a body, a hook and an elastic piece. The hook can be in a locking position and a releasing position relative to the body. When the external device is connected to the handheld cloud platform, the clamping hook is in the locking position and is matched with the clamping groove. When the hook is at the release position, the hook is separated from the slot. The catch is closer to the center of the body in the locked position than in the released position. The elastic piece is used for providing restoring force for the clamping hook to keep in the locking position. The clamping hook is switched from the locking position to the releasing position under the pushing of external force, and when the external force is removed, the clamping hook is switched from the releasing position to the locking position under the action of restoring force. The application also discloses a handheld cloud platform and handheld cloud platform subassembly. The connection state of the external device and the handheld cloud deck is convenient to switch so as to meet different use requirements of users.

Description

External device, handheld cloud platform and handheld cloud platform subassembly

Technical Field

The application relates to the technical field of handheld cloud platforms, in particular to external device, handheld cloud platform and handheld cloud platform subassembly.

Background

Generally, in handheld devices such as a handheld cradle head, if extended functions such as wireless bluetooth and a speaker are fixedly arranged on the handheld device, the size and the weight of the handheld device are large, and the handheld device is inconvenient for a user to hold and carry, and for the handheld device without the extended functions, the functions of the handheld device are too single, so that how to use the extended functions when needed is realized, and the handheld device can be restored to a small size when not needed, which becomes a problem to be solved.

SUMMERY OF THE UTILITY MODEL

The application provides an external device, handheld cloud platform and handheld cloud platform subassembly.

The external device is used for being detachably connected with the handheld cloud deck, the handheld cloud deck is provided with a clamping groove, the external device comprises a body, a clamping hook and an elastic piece, the clamping hook can be located at a locking position and a releasing position relative to the body, and when the external device is connected to the handheld cloud deck, the clamping hook is located at the locking position and is matched with the clamping groove; when the clamping hook is at the release position, the clamping hook is separated from the clamping groove; the catch is closer to the center of the body in the locked position than in the released position; two ends of the elastic piece are respectively connected with the body and the hook, and the elastic piece is used for providing restoring force for the hook to keep at the locking position; the clamping hook is switched from the locking position to the releasing position under the pushing of external force, and when the external force is cancelled, the clamping hook is switched from the releasing position to the locking position under the action of the restoring force.

In some embodiments, the external device further comprises a driving member movably disposed on the body, the driving member being capable of being in a first position and a second position relative to the body; when the driving piece is at the first position, the clamping hook is at the locking position; when the driving piece is switched from the first position to the second position, the driving piece drives the clamping hook to be switched from the locking position to the releasing position.

In some embodiments, a first direction of movement of the driver when switching between the first position and the second position is different from a second direction of movement of the catch when switching between the locked position and the released position.

In some embodiments, the first direction of motion is perpendicular to the second direction of motion.

In some embodiments, the hook includes a first abutting inclined surface, the driving member includes an abutting portion, the abutting portion includes a second abutting inclined surface, the first abutting inclined surface and the second abutting inclined surface are matched with each other, and the driving member applies a thrust to the first abutting inclined surface through the second abutting inclined surface to drive the hook to move relative to the body.

In some embodiments, the driving member further comprises a base portion and a force application portion, and the abutting portion is connected to the base portion; the force application part is connected to the base part, and at least part of the force application part is exposed out of the body.

In some embodiments, the force application portion and the abutting portion are located on opposite sides of the base portion.

In some embodiments, the number of the abutting portions is two, the two abutting portions are symmetrically arranged relative to the force application portion, the number of the hooks and the elastic member is two, and the two abutting portions and the two hooks abut one to one.

In some embodiments, the external device further includes a limiting member, the limiting member is fixedly connected to the body, the limiting member includes a first limiting portion, and the first limiting portion and the body are respectively attached to two opposite sides of the base portion, so as to limit the movement track of the base portion.

In some embodiments, the limiting member further includes a second limiting portion, and the second limiting portion and the body are respectively attached to two opposite sides of the hook to limit the movement track of the hook.

In some embodiments, the external device further includes an elastic member, two ends of the elastic member are respectively connected to the driving member and the body, and the elastic member is configured to provide a resilient force for the driving member to return to the first position.

In some embodiments, the hook has a receiving groove, one end of the elastic member extends into the receiving groove and abuts against the hook, and the other end of the elastic member abuts against the body.

In some embodiments, the body is provided with a sound outlet hole, and the sound outlet hole is used for sending out a sound signal from the body; and/or the body is provided with a connecting hole, and the connecting hole is used for external equipment to penetrate and fix the external device and the handheld cloud deck; and/or the body is provided with a data hole, and the data hole is used for electrically connecting the external device with external equipment.

In some embodiments, the external device further includes a connector disposed on the body, and the connector is configured to connect with the handheld cradle head to transmit data.

In some embodiments, the body includes an outer frame and a cover, the outer frame forms a receiving space, the elastic element and at least a portion of the hook are received in the receiving space, and at least a portion of the hook is located outside the receiving space and exposed from the outer frame; the cover body is connected with the outer framework and covers the accommodating space.

The handheld cloud platform assembly comprises a handheld cloud platform and an external device in any embodiment of the application; the handheld cloud deck is provided with a clamping groove; the external device and the handheld cloud platform are detachably connected through the clamping hook and the clamping groove.

In some embodiments, the external device is detachably connected to the bottom and/or the side of the handheld holder.

The handheld cloud platform of this application embodiment is used for and this application any embodiment the external device detachably connect.

The external device of this application embodiment, in handheld cloud platform and handheld cloud platform subassembly, the restoring force exerted through the elastic component makes the trip be located latched position and with the draw-in groove cooperation, and bayonet socket and bayonet lock cooperation, can be with external device and handheld cloud platform fixed connection with extended functionality, promote the trip to move to release position and with the draw-in groove separation through external force, and bayonet socket and bayonet lock separation, can be with external device and handheld cloud platform separation, therefore, the connection status of external device and handheld cloud platform is convenient for switch, in order to satisfy the user demand that the user is different.

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

Drawings

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

FIG. 1 is a perspective assembly view of a handheld pan and tilt head assembly according to an embodiment of the present application;

FIG. 2 is a perspective assembly view of a handheld pan and tilt head assembly according to an embodiment of the present application;

FIG. 3 is a perspective assembly view of a handheld pan and tilt head assembly according to an embodiment of the present application;

FIG. 4 is an exploded perspective view of a handheld holder assembly according to an embodiment of the present application;

FIG. 5 is an exploded perspective view of a handheld holder assembly according to an embodiment of the present application;

FIG. 6 is a schematic cross-sectional view of a handheld pan and tilt head assembly according to an embodiment of the present application;

FIG. 7 is an exploded perspective view of a handheld holder assembly according to an embodiment of the present application;

FIG. 8 is an enlarged schematic view of portion VIII of the handheld pan and tilt head assembly shown in FIG. 6;

FIG. 9 is an exploded perspective view of an external device according to an embodiment of the present disclosure;

FIG. 10 is a plan view of the external device of the present application;

FIG. 11 is a schematic cross-sectional view of the peripheral device shown in FIG. 10, taken along line XI-XI;

fig. 12 to 14 are exploded perspective views of an external device according to an embodiment of the present disclosure;

FIG. 15 is a perspective assembly view of an external device according to an embodiment of the present application;

FIG. 16 is an exploded perspective view of a handheld holder assembly according to an embodiment of the present application;

FIG. 17 is a cross-sectional schematic view of a handheld pan and tilt head assembly according to an embodiment of the present application;

FIG. 18 is an enlarged schematic view of a portion XVIII of the handheld pan and tilt head assembly shown in FIG. 17;

FIG. 19 is a perspective view of the body of the embodiment of the present application;

fig. 20 and 21 are schematic perspective views of a hook and a driving member according to an embodiment of the present disclosure;

fig. 22 and 23 are schematic cross-sectional views of a portion corresponding to portion XVIII of the handheld pan and tilt head assembly shown in fig. 17;

FIG. 24 is a schematic perspective view of a bayonet of an embodiment of the present application;

FIG. 25 is an exploded perspective view of a handheld holder assembly according to an embodiment of the present application;

FIG. 26 is a cross-sectional schematic view of a handheld pan and tilt head assembly according to an embodiment of the present application;

fig. 27 is an enlarged schematic view of portion XXVII of the handheld pan and tilt head assembly shown in fig. 26;

fig. 28 is a perspective assembly view of an external device according to an embodiment of the present application.

Detailed Description

Embodiments of the present application will be further described below with reference to the accompanying drawings. The same or similar reference numbers in the drawings identify the same or similar elements or elements having the same or similar functionality throughout.

In addition, the embodiments of the present application described below in conjunction with the accompanying drawings are exemplary and are only for the purpose of explaining the embodiments of the present application, and are not to be construed as limiting the present application.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Referring to fig. 1 to 3, the present embodiment provides a handheld cloud deck assembly 100, 200, 300, where the handheld cloud deck assembly 100 includes a handheld cloud deck 20 and an external device 10, the handheld cloud deck assembly 200 includes a handheld cloud deck 40 and an external device 30, and the handheld cloud deck assembly 300 includes a handheld cloud deck 60 and an external device 50.

The handheld pan/tilt head assemblies 100, 200, and 300 may further include a load 1a (as shown in fig. 4), where the load 1a may be any functional device such as a camera, a flash, a smart wearable device, and a mobile phone. The user can hold the handheld tripod head assembly 100, 200, 300 by hand, and control the load 1a through an operation button or a touch screen on the handheld tripod head assembly 100, 200, 300.

As shown in fig. 1, the load 1a is a camera, and the handheld tripod head assembly 100 can shoot images through the mounted camera, but of course, the handheld tripod head assemblies 200 and 300 in the examples shown in fig. 2 and 3 can also be mounted with the load 1a, and the details are not repeated here.

The handheld cloud platforms 20, 40, and 60 may be provided with the above-mentioned operation buttons or touch screens. The handheld cloud deck 20, 40, 60 may be connected to the load 1a at one end and the external device 10, 30, 50 at the other end.

The external devices 10, 30 and 50 are detachably connected with the handheld cloud platforms 20, 40 and 60. Wherein, the external device 10, 30, 50 can be detachably connected to the bottom of the handheld cloud deck 20, 40, 60; alternatively, the external device 10, 30, 50 may be detachably connected to the side of the handheld cradle head 20, 40, 60; alternatively, the number of the external devices 10, 30, and 50 may be multiple, a part of the external devices 10, 30, and 50 may be detachably connected to the bottom of the handheld cloud deck 20, 40, and 60, and a part of the external devices 10, 30, and 50 may be detachably connected to the side of the handheld cloud deck 20, 40, and 60.

When the external device 10, 30, 50 is connected to the handheld cradle head 20, 40, 60, the external device 10, 30, 50 may be only mechanically connected to the handheld cradle head 20, 40, 60, or the external device 10, 30, 50 may be simultaneously mechanically and electrically connected to the handheld cradle head 20, 40, 60, and at this time, the external device 10, 30, 50 may transmit an electrical signal to the handheld cradle head 20, 40, 60.

In one example, when the external device 10, 30, 50 is installed on the handheld cradle head 20, 40, 60, the external device 10, 30, 50 can be used to expand the functions of the handheld cradle head 20, 40, 60, such as wifi function, bluetooth function, speaker function, etc., so as to enrich the functions of the handheld cradle head assembly 100, 200, 300 and increase the interest of the handheld cradle head assembly 100, 200, 300. The user can also hold the handheld cloud deck 20, 40, 60 and the external device 10, 30, 50 at the same time, so that the user can hold the handheld cloud deck assembly 100, 200, 300.

In another example, when the external device 10, 30, 50 is separated from the handheld cradle head 20, 40, 60, the handheld cradle head 20, 40, 60 and the external device 10, 30, 50 can be separated to facilitate carrying the handheld cradle head assembly 100, 200, 300. It should be noted that, when the external device 10, 30, 50 is separated from the handheld cradle head 20, 40, 60, the handheld cradle head 20, 40, 60 can still realize the functions of the handheld cradle head 20, 40, 60 itself, such as the function of controlling the load 1 a.

The following description will exemplarily take the handheld tripod head assemblies 100, 200 and 300 shown in fig. 1 to 3 as an example.

Fig. 4 to 15 are used to focus on the description of the handheld tripod head assembly 100 shown in fig. 1.

Referring to fig. 4 to 6, the handheld cradle head assembly 100 includes a handheld cradle head 20 and an external device 10. The handheld cloud platform 20 is detachably connected with the external device 10.

The handheld cradle head 20 is provided with a clamping groove 21, and the clamping groove 21 can be detachably connected with the external device 10.

In one example, the card slots 21 are formed on two opposite sides of the handheld cradle head 20, so that the handheld cradle head 20 is connected to the external device 10 through the card slots 21 with high reliability. Of course, the specific position of the card slot 21 may also be other arrangements, for example, the card slot 21 is disposed around the handheld cradle head 20, or the card slot 21 is disposed on one side of the handheld cradle head 20, and the like, which is not limited herein.

As an example shown in fig. 7, the handheld head assembly 100 may further include a bottom cover 1 b. The bottom cover 1b can be detachably connected with the handheld cloud platform 20, and the bottom cover 1b can be connected with the handheld cloud platform 20 and cover the clamping groove 21.

Specifically, the bottom cover 1b may be detachably connected to the handheld cradle head 20 in an interference fit manner, and when the bottom cover 1b is connected to the handheld cradle head 20, the bottom cover 1b may be separated from the handheld cradle head 20 by a slight force applied by the user. It should be noted that the bottom cover 1b in fig. 6 can also be applied to the handheld pan/ tilt head assemblies 200 and 300 shown in fig. 2 and 3.

Referring to fig. 8 and 9, the external device 10 includes a body 11, a hook 12 and an elastic member 13. The hook 12 can be in a locked position and a released position with respect to the body 11. When the external device 10 is connected to the handheld cradle head 20, the hook 12 is in the locking position and is matched with the slot 21. When the hook 12 is in the release position, the hook 12 is separated from the slot 21.

The elastic member 13 has two ends respectively connected to the body 11 and the hook 12, and the elastic member 13 is used for providing a restoring force to the hook 12 to maintain the locking position. The hook 12 is pushed by external force to switch from the locking position to the releasing position, and when the external force is removed, the hook 12 is switched from the releasing position to the locking position under the action of restoring force.

Restoring force exerted through the elastic piece 13 makes the trip 12 be located latched position and with the cooperation of draw-in groove 21, can with external device 10 and handheld cloud platform 20 fixed connection with extended functionality, promote trip 12 through external force and move to release position and with draw-in groove 21 separation, can separate external device 10 and handheld cloud platform 20, consequently, the connected state of external device 10 and handheld cloud platform 20 is convenient for switch to satisfy the user demand that the user is different.

Referring to fig. 9 to 11, the body 11 may be used as a housing of the external device 10, and the body 11 may be used as a mounting carrier for the hook 12, the elastic element 13, and the like. Meanwhile, the body 11 may be further provided with holes with various functions to realize the expansion function of the external device 10.

For example, the external device 10 further includes a connector 17, and the connector 17 is disposed on the body 11. The connector 17 may be any Type of connector such as a USB connector, a Type-C connector, a lightning connector, a Micro USB connector, etc. When external device 10 is connected with handheld cloud platform 20, connect 17 and handheld cloud platform 20 and be connected in order to transmit data, for example connect 17 can with handheld cloud platform 20 on the interface match to make external device 10 and handheld cloud platform 20 carry out the data interaction, perhaps, external device 10 can be through the electric energy of receiving handheld cloud platform 20 in order to realize relevant function, for example wifi function, bluetooth function, shooting function, recording function, light emitting function etc..

For example, the body 11 further has a sound outlet 113, and the sound outlet 113 is used for sending out the sound signal from the body 11. At this time, a speaker may be provided in the body 11, and the speaker is directed to the sound outlet 113. The driving signal of the handheld tripod head 20 can be transmitted to the speaker through the connector 17, and the speaker emits sound in response to the driving signal, so that the handheld tripod head assembly 100 has the function of emitting sound.

For example, the body 11 further has a connection hole 114, and the connection hole 114 is used for external equipment to penetrate and fix the external device 10 and the handheld cradle head 20. The connection hole 114 may be opened at the bottom of the body 11, and the external device for fixing the external device 10 and the handheld cradle head 20 may be a tripod, a handheld bracket, or the like. Specifically, an internal thread may be formed on a sidewall of the connection hole 114, and an external thread may be formed on an external device, which may be detachably connected with the body 11 by a threaded connection.

For example, the body 11 further has a data hole 115, and the data hole 115 is used for electrically connecting the external device 10 with an external device. For example, the external device may be connected to the external device 10 through the data hole 115, so as to transmit data to the external device 10 and the handheld cradle head 20, charge the external device 10 or the handheld cradle head 20, and the like.

It should be noted that the structure of the connector 17 provided in the body 11, the sound outlet 113, the connection hole 114, the data hole 115, and the like provided in the body 11 may also be applied to the external device 30, 50 shown in fig. 2 and 3.

Referring to fig. 9 and 11, the main body 11 includes an outer frame 111 and a cover 112. The outer frame 111 is formed with a housing space 1111. The receiving space 1111 may be used for receiving the elastic member 13 and at least a portion of the hook 12. The cover 112 is connected to the outer frame 111 and covers the receiving space 1111, so that the cover 112 and the outer frame 111 form a relatively sealed space, thereby improving the dust-proof and water-proof capabilities of the external device 10.

Referring to fig. 8 and 9, the hook 12 is mounted on the body 11, and specifically, at least a portion of the hook 12 is received in the receiving space 1111, so that the hook 12 can be mounted on the body 11, and at least a portion of the hook 12 is located outside the receiving space 1111 and exposed from the outer frame 111, so that the hook 12 can be engaged with the slot 21.

The hook 12 can be in a locked position and a released position with respect to the body 11. When the external device 10 is connected to the handheld cradle head 20, the hook 12 is in the locking position and is matched with the slot 21 (as shown in fig. 8), and when the hook 12 is in the releasing position, the hook 12 is separated from the slot 21, and at this time, the external device 10 can be separated from the handheld cradle head 20.

The two ends of the elastic element 13 are respectively connected with the body 11 and the hook 12. For example, two ends of the elastic element 13 respectively abut against the body 11 and the hook 12. The elastic member 13 may be a spring or the like.

The elastic member 13 is used to provide a restoring force to the hook 12, which is maintained at the locking position, for example, the elastic member 13 is compressed between the hook 12 and the body 11, the elastic member 13 always maintains a tendency to return to its original shape and applies the restoring force to the hook 12, and for example, the elastic member 13 is elongated by the hook 12 and the body 11, and the elastic member 13 always maintains a tendency to return to its original shape and applies the restoring force to the hook 12.

The hook 12 is pushed by external force to switch from the locking position to the releasing position, and when the external force is removed, the hook 12 is switched from the releasing position to the locking position under the action of restoring force. The hook 12 is closer to the center of the body 11 in the locking position than in the releasing position. In the example shown in fig. 8, the left hook 12 can move to the left under the action of the external force, i.e. the locking position is switched to the releasing position, in the process, the left hook 12 overcomes the restoring force of the left elastic element 13, and the external device 10 can be separated from the handheld cradle head 20. When the left external force is removed, the hook 12 moves to the right under the restoring force of the left elastic member 13, that is, the hook 12 is switched from the release position to the locking position.

Further, referring to fig. 8 and 9, the hook 12 is provided with a receiving groove 121, one end of the elastic element 13 extends into the receiving groove 121 and abuts against the hook 12, and the other end of the elastic element 13 abuts against the body 11. One end of the elastic element 13 extends into the receiving groove 121, the relative position between the elastic element 13 and the hook 12 is stable, and the elastic element 13 is not easy to separate from the hook 12.

In one example, the external force acting on the hook 12 may be an external force applied to the hook 12 by a user directly contacting the hook 12. In another example, the external force applied to the hook 12 may be the user directly contacting the force applying element and applying the external force to the force applying element, which then pushes the hook 12 to move.

In the example shown in fig. 8 and 9, the external device 10 further includes a driving member 14, and the driving member 14 is movably disposed on the body 11. The driver 14 is capable of assuming a first position and a second position relative to the body 11. When the driving member 14 is at the first position, the hook 12 is at the locking position. When the driving member 14 is switched from the first position to the second position, the driving member 14 drives the hook 12 to switch from the locking position to the releasing position.

Because when the external device 10 is connected to the handheld cradle head 20, the hook 12 may be blocked, the user cannot directly press the hook 12, and the driving member 14 is disposed to indirectly apply an external force to the hook 12 to drive the hook 12 to move, so that the user can switch the position of the hook 12.

In particular, the driving member 14 and the hook 12 may be abutted against each other, or the driving member 14 and the hook 12 may be an integral structure, so that the driving member 14 and the hook 12 can move synchronously.

For example, when the external device 10 is connected to the handheld cradle head 20, the hook 12 is in the locking position, and the driving member 14 is in the first position; when the external device 10 needs to be separated from the handheld cradle head 20, the driving member 14 can be switched from the first position to the second position to drive the hook 12 to be switched from the locking position to the releasing position, and the hook 12 at the releasing position is separated from the slot 21; after the external device 10 is separated from the handheld cradle head 20, the hook 12 is switched from the release position to the locking position under the restoring force of the elastic element 13, and the hook 12 drives the driving element 14 to be switched from the second position to the first position.

When the external device 10 and the handheld cradle head 20 which are separated from each other need to be connected again, the external device 10 can be gradually close to the handheld cradle head 20, the hook 12 is supported by the handheld cradle head 20, the hook 12 is gradually pushed to the release position from the locking position, when the hook 12 reaches the release position and the hook 12 is aligned with the slot 21, the hook 12 is switched to the locking position under the action of restoring force and is clamped into the slot 21, and connection between the external device 10 and the handheld cradle head 20 is achieved.

In the example shown in fig. 8 and 9, the first movement direction D1 in switching the driving member 14 between the first position and the second position is different from the second movement direction D2 in switching the hook 12 between the locking position and the releasing position. Because the hook 12 is at least partially accommodated in the body 11, a clearance area extending along the second moving direction D2 needs to be reserved for the hook 12 in the body 11, and a clearance area extending along the first moving direction D1 needs to be reserved for the driving member 14 in the body 11, and by arranging the first moving direction D1 to be different from the second moving direction D2, when the clearance areas are arranged for the hook 12 and the driving member 14 in the body 11, the clearance areas do not occupy too much space in the same direction, which is convenient for arranging the hook 12 and the driving member 14 on the body 11.

For example, as shown in the example of fig. 8, the first movement direction D1 is perpendicular to the second movement direction D2. Of course, the first moving direction D1 and the second moving direction D2 may have any non-zero angle, and are not limited herein.

With continued reference to fig. 8 and 9, in some examples, the hook 12 includes a first abutting inclined surface 122. The driving member 14 includes an abutting portion 141, and the abutting portion 141 includes a second abutting inclined surface 1411. The first abutting inclined surface 122 and the second abutting inclined surface 1411 are matched with each other, and the driving member 14 applies a pushing force to the first abutting inclined surface 122 through the second abutting inclined surface 1411 to drive the hook 12 to move relative to the body 11.

The first abutting inclined surface 122 and the second abutting inclined surface 1411 cooperate with each other, so that the moving direction of the driving member 14 and the moving direction of the hook 12 can be different. Specifically, the inclination angle of the first abutting slope 122 may be the same as the inclination angle of the second abutting slope 1411. The first abutting inclined surface 122 and the second abutting inclined surface 1411 may both be polished to reduce the friction between the first abutting inclined surface 122 and the second abutting inclined surface 1411.

Referring to fig. 9 and 11, the driving member 14 further includes a base portion 142 and a force application portion 143. The abutting portion 141 is connected to the base portion 142. The biasing portion 143 is connected to the base portion 142, and the biasing portion 143 is at least partially exposed from the body 11. The force application portion 143 is at least partially exposed from the body 11, and a user can directly contact the force application portion 143 and apply an external force to the force application portion 143, and the external force is transmitted to the base portion 142 and the force application portion 143, and then transmitted to the hook 12 through the force application portion 143.

The base 142 may have a flat plate shape. The urging portion 143 and the abutting portion 141 may be located on opposite sides of the base portion 142, so that the urging portion 143 abuts against the hook 12 installed in the body 11 while the urging portion 143 is exposed from the body 11.

Further, the external device 10 further includes an elastic member 16, and two ends of the elastic member 16 are respectively connected to the driving member 14 and the body 11. The resilient member 16 is arranged to provide a resilient force to the driving member 14 to return to the first position. When the external force applied to the driving member 14 by the user is removed, the driving member 14 can return to the first position by the resilient force, so that the hook 12 can return to the locking position from the releasing position. The resilient member 16 may be a spring. The spring 16 may be attached to the base 142.

Referring to fig. 8 and 9, in an example, the number of the supporting portions 141 is two, the two supporting portions 141 are symmetrically disposed relative to the force applying portion 143, the number of the hooks 12 and the elastic member 13 is two, and the two supporting portions 141 and the two hooks 12 are supported in a one-to-one correspondence manner. In this way, by applying an external force to the driving element 14, the two abutting portions 141 can simultaneously drive the two hooks 12 to move relative to the body 11, without providing a plurality of driving elements 14.

For example, the two elastic members 13 have opposite directions of restoring forces to the hook 12. In the example shown in fig. 8, the restoring force of the left-side elastic member 13 to the left-side hook 12 is directed to the right, and the restoring force of the right-side elastic member 13 to the right-side hook 12 is directed to the left.

For example, when the two hooks 12 are held by the holding portion 141, the moving directions of the two hooks 12 are opposite, and as shown in fig. 8, when the left hook 12 moves to the left, the right hook 12 moves to the right, and when the left hook 12 moves to the right, the right hook 12 moves to the left.

For example, both the hooks 12 include the first abutting inclined surface 122, both the abutting portions 141 include the second abutting inclined surfaces 1411, and one first abutting inclined surface 122 is matched with one corresponding second abutting inclined surface 1411.

Referring to fig. 8 and 9, in some examples, the external device 10 further includes a limiting member 15, and the limiting member 15 is fixedly connected to the body 11. The limiting member 15 includes a first limiting portion 151, and the first limiting portion 151 and the body 11 respectively attach to two opposite sides of the base 142 to limit the movement track of the base 142.

The first limiting portion 151 and the body 11 are attached to two sides of the base portion 142, so that a motion track of the base portion 142 is limited, that is, a motion track of the driving member 14 is limited, when a user applies an external force to the driving member 14, the driving member 14 can move along a unique track, and the user can control the driving member 14 to move conveniently.

Further, the limiting member 15 further includes a second limiting portion 152, and the second limiting portion 152 and the body 11 are respectively attached to two opposite sides of the hook 12 to limit the movement track of the hook 12. Under the limiting action of the second limiting portion 152 and the body 11, the hook 12 moves more stably when the position is switched.

Referring to fig. 12 to 15, fig. 12 to 15 are schematic views illustrating an assembly process of the external device 10. Here, for convenience of illustration, a part of the side wall of the outer frame 111 is hidden, and is not to be construed as limiting the present application.

Fig. 12 shows the state where the body 11, the hook 12, the elastic element 13, the driving element 14, the limiting element 15 and the elastic element 16 of the external device 10 are separated, wherein the elastic element 13 can be first partially accommodated in the accommodating groove 121.

Fig. 13 shows a state that the hook 12 and the elastic element 13 are first mounted on the body 11, specifically, the hook 12 is partially located in the receiving space 1111 and partially exposed from the receiving space 1111, and the elastic element 13 abuts against the outer frame 111 and the hook 12. The driving member 14 is installed in the receiving space 1111, and the elastic member 16 is abutted against the driving member 14 and the outer frame 111.

Fig. 14 shows a state in which the limiting member 15 is further installed in the accommodating space 1111, in which the first limiting portion 151 of the limiting member 15 is attached to the base 142, and the second limiting portion 152 is attached to the hook 12, so as to limit the movement tracks of the driving member 14 and the hook 12.

Fig. 15 shows a state in which the cover 112 is attached to the outer frame 111.

Fig. 16-24 are provided to focus on the description of the handheld pan and tilt head assembly 200 shown in fig. 2.

Referring to fig. 16 to 18, the handheld cradle head assembly 200 includes a handheld cradle head 40 and an external device 30. The handheld cradle head 40 is detachably connected with the external device 30.

The handheld cradle head 40 is provided with a clamping slot 411, and the clamping slot 411 can be used for being detachably connected with the external device 30.

In one example, the slots 411 are formed on two opposite sides of the handheld cradle head 40, so that the handheld cradle head 40 is connected to the external device 30 through the slots 411 with high reliability. Of course, the specific position of the card slot 411 may be other, for example, the card slot 411 is disposed around the handheld cradle head 40, or the card slot 411 is disposed on one side of the handheld cradle head 40, and the like, which is not limited herein.

The external device 30 includes a body 31, a hook 32 and an elastic member 33. The hook 32 can be in a locked position and a released position with respect to the body 31. When the external device 30 is connected to the handheld cradle head 40, the hook 32 is in the locking position and is engaged with the slot 411. When the hook 32 is in the release position, the hook 32 is separated from the slot 411.

The elastic member 33 has two ends respectively connected to the body 31 and the hook 32, and the elastic member 33 is used for providing a restoring force to the hook 32 to maintain the locking position. The hook 32 is pushed by an external force to switch from the locking position to the releasing position, and when the external force is removed, the hook 32 is switched from the releasing position to the locking position by a restoring force.

Restoring force exerted through the elastic piece 33 makes the hook 32 be located the latched position and cooperate with the draw-in groove 411, can with external device 30 and handheld cloud platform 40 fixed connection with extended functionality, promote the hook 32 through external force and move to the release position and separate with draw-in groove 411, can separate external device 30 and handheld cloud platform 40, consequently, the connection status of external device 30 and handheld cloud platform 40 is convenient for switch to satisfy the user demand that the user is different.

Referring to fig. 16 and 19, the main body 31 may be used as a housing of the external device 30, and the main body 31 may be used as a mounting carrier for the hook 32, the elastic element 33, and the like. The body 31 includes an outer frame 311 and an inner frame 312. The outer frame 311 defines a receiving space 3111, and the inner frame 312 is connected to the outer frame 311 and located in the receiving space 3111. The main body 31 may further include a cover 313, and the cover 313 is connected to the outer frame 311 and covers the receiving space 3111, so that the cover 313 and the outer frame 311 form a relatively sealed space, thereby improving the dust-proof and water-proof capabilities of the external device 30.

Referring to fig. 16, 20 and 21, the hook 32 is mounted on the body 31. The hook 32 can be in a locked position and a released position with respect to the body 31. When the external device 30 is connected to the handheld cradle head 40, the hook 32 is in the locking position and is engaged with the slot 411 (as shown in fig. 18), and when the hook 32 is in the releasing position, the hook 32 is separated from the slot 411 (as shown in fig. 22), so that the external device 30 can be separated from the handheld cradle head 40.

The two ends of the elastic member 33 are connected to the body 31 and the hook 32, respectively. For example, two ends of the elastic element 33 respectively abut against the body 31 and the hook 32. Specifically, two ends of the elastic element 33 respectively abut against the outer frame 311 and the hook 32, the side wall of the outer frame 311 may be provided with a blind hole 3112, and the elastic element 33 is at least partially accommodated in the blind hole 3112 and abuts against the outer frame 311, so that the elastic element 33 is not easily separated, and meanwhile, the elastic element 33 is partially embedded in the outer frame 311, thereby reducing the accommodation space 3111 occupied by the elastic element 33. The elastic member 33 may be a spring or the like.

The elastic member 33 is used to provide a restoring force to the hook 32, which is maintained in the locking position, for example, the elastic member 33 is compressed between the hook 32 and the body 31, the elastic member 33 always maintains a tendency to return to its original shape and applies the restoring force to the hook 32, and for example, the elastic member 33 is elongated by the hook 32 and the body 31, and the elastic member 33 always maintains a tendency to return to its original shape and applies the restoring force to the hook 32.

The hook 32 is pushed by an external force to switch from the locking position to the releasing position, and when the external force is removed, the hook 32 is switched from the releasing position to the locking position by a restoring force. In the example shown in fig. 18, the hook 32 is able to move to the right under the action of the external force, i.e. to switch from the locking position to the release position, in the process, the hook 32 overcomes the restoring force of the elastic member 33, and the external device 30 can be separated from the handheld cradle head 40. When the external force to the right is removed, the hook 32 moves to the left by the restoring force of the elastic member 33, that is, the hook 32 is switched from the release position to the lock position.

Further, referring to fig. 16 and 20, the hook 32 is provided with a receiving groove 321, one end of the elastic element 33 extends into the receiving groove 321 and abuts against the hook 32, and the other end of the elastic element 33 abuts against the body 31. One end of the elastic element 33 extends into the receiving groove 321, the relative position between the elastic element 33 and the hook 32 is stable, and the elastic element 33 is not easy to separate from the hook 32.

In one example, the external force acting on the hook 32 may be an external force applied to the hook 32 by a user directly contacting the hook 32. In another example, the external force applied to the hook 32 may be the user directly contacting and applying an external force to a force applying element, which in turn pushes the hook 32 to move.

In the example shown in fig. 16 and 20, the external device 30 further includes a driving member 34, and the driving member 34 is movably disposed on the body 31. The driver 34 is capable of assuming a first position and a second position relative to the body 31. When the driving member 34 is at the first position, the hook 32 is at the locking position. When the driving member 34 is switched from the first position to the second position, the driving member 34 drives the hook 32 to switch from the locking position to the releasing position.

Because when the external device 30 is connected with the handheld cradle head 40, the hook 32 may be blocked, the user cannot directly press the hook 32, and the driving member 34 is arranged to indirectly apply an external force to the hook 32 to drive the hook 32 to move, so that the user can switch the position of the hook 32 conveniently.

Specifically, the driving member 34 and the hook 32 may abut against each other, or the driving member 34 and the hook 32 may be an integral structure, so that the driving member 34 and the hook 32 can move synchronously.

For example, when the external device 30 is connected to the handheld cradle head 40, the hook 32 is in the locking position, and the driving member 34 is in the first position (as shown in fig. 18); when the external device 30 needs to be separated from the handheld cradle head 40, the driving member 34 can be switched from the first position to the second position to drive the hook 32 to be switched from the locking position to the releasing position, and the hook 32 at the releasing position is separated from the slot 411 (as shown in fig. 22); after the external device 30 is separated from the handheld cradle head 40, the hook 32 is switched from the release position to the locking position under the restoring force of the elastic element 33, and the hook 32 drives the driving element 34 to be switched from the second position to the first position.

When the separated external device 30 needs to be connected with the handheld cradle head 40 again, the external device 30 can be gradually close to the handheld cradle head 40, the hook 32 is gradually pushed to the release position (as shown in fig. 23) from the locking position under the abutting of the handheld cradle head 40, and when the hook 32 reaches the release position and the hook 32 is aligned with the slot 411, the hook 32 is switched to the locking position under the action of restoring force and is clamped into the slot 411, so that the connection between the external device 30 and the handheld cradle head 40 is realized (as shown in fig. 18).

In the example shown in fig. 16 and 18, the first moving direction D3 when the driver 34 is switched between the first position and the second position is the same as the second moving direction D4 when the hook 32 is switched between the locking position and the releasing position. The first moving direction D3 is the same as the second moving direction D4, so that the driving member 34 and the hook 32 can be conveniently arranged into an integral structure without a complex transmission structure.

Referring to fig. 16, 20 and 21, the driving member 34 includes a transmission rod 341 and a protrusion 342. One end of the transmission rod 341 is connected to the hook 32. A projection 342 is attached to the transmission rod 341, the projection 342 being at least partially exposed from the body 31. The protrusion 342 is at least partially exposed from the body 31, and a user can directly contact the protrusion 342 and apply an external force to the protrusion 342, and the external force is transmitted to the protrusion 342 and then transmitted to the hook 32 through the transmission rod 341.

Wherein, the hook 32 and the transmission rod 341 can be an integral structure. The projection 342 may be exposed through the cover 313, such as by the projection 342 being exposed near a centerline of the cover 313. The protrusion 342 and the hook 32 may be located on opposite sides of the transmission rod 341 so that the hook 32 can be disposed inside the body 31 while the protrusion 342 is exposed from the body 31.

Further, referring to fig. 16 and 18, the driving member 34 further includes a reset block 343. The reset block 343 is connected to the opposite ends of the transmission rod 341 with the hooks 32. The external device 30 further includes a resilient member 35, two ends of the resilient member 35 are respectively connected to the reset block 343 and the body 31, and the resilient member 35 is configured to provide a resilient force to the reset block 343 to return to the first position.

Through setting up reset block 343 and rebound piece 35 for being promoted to the second position under the exogenic action when driving piece 34, and when external force cancels, driving piece 34 can reply to the first position automatically, drives trip 32 promptly and replies to latched position, takes place to become flexible when avoiding trip 32 to be in latched position.

The resilient member 35 may be a spring, a tension spring, or other elastic devices.

Both ends of the resilient member 35 may be connected to the reset block 343 and the inner frame 312, for example, both ends of the resilient member 35 may respectively abut against the reset block 343 and the inner frame 312. The direction of the resilient force of the resilient member 35 on the reset block 343 may be the same as the direction of the resilient force of the resilient member 33 on the hook 32. At this time, because the hook 32, the transmission rod 341 and the reset block 343 are of an integral structure, the resilient force and the restoring force act on the hook 32 together, when the hook 32 is engaged with the slot 411, the engagement relationship between the hook 32 and the slot 411 is stable under the condition that no external force is applied to the driving member 34, and the reliability of the connection between the external device 30 and the handheld cradle head 40 is high.

As shown in fig. 20 and 21, the driving member 34 further includes a positioning block 344, the positioning block 344 is connected to the reset block 343, and the positioning block 344 at least partially extends into the resilient member 35 to fix the position of the resilient member 35. Under the limiting action of the positioning block 344, the relative position relationship between the resilient member 35 and the reset block 343 is relatively fixed, and the resilient member 35 is not easy to be disengaged. Further, referring to fig. 16, when the resilient member 35 is installed in the body 31, the inner frame 312 and the cover 313 can also define the resilient member 35 in a smaller space, so as to prevent the resilient member 35 from falling out of the body 31.

Referring to fig. 16 and 18, in some examples, the body 31 is formed with a notch 3113. The handheld tripod head 40 includes a base 41, a latch 42, and an elastic body 43. The base 41 is provided with the above-mentioned slot 411. The bayonet pin 42 is movably connected with the base body 41. The elastic body 43 has both ends connected to the base 41 and the latch 42, respectively. The elastic body 43 is used to provide the returning force to the click pin 42 protruding from the base body 41.

When the handheld cradle head 40 is connected to the external device 30, the latch 42 extends out of the base 41 and into the notch 3113, and the slot 411 is engaged with the hook 32. When the handheld cradle head 40 is separated from the external device 30, the bayonet 42 is separated from the bayonet 3113, and the slot 411 is separated from the hook 32. Through setting up bayonet lock 42 and bayonet 3113 cooperation, combine the cooperation of trip 32 with draw-in groove 411, stability when making handheld cloud platform 40 be connected with external device 30 is higher.

Specifically, the base 41 may include a protruding fitting portion 413, the latch slot 411 may be opened at one side of the fitting portion 413, and the latch pin 42 may be coupled to the other side of the fitting portion 413. When the handheld cradle head 40 is connected to the external device 30, the hook 32 extends into the slot 411 from one side of the matching portion 413, and the detent 42 extends from the other side of the matching portion 413 and extends into the notch 3113.

The bayonet pin 42 is movably connected with the base body 41. The latch 42 can extend from one side of the matching part 413, and the latch 42 can also extend into the matching part 413 under the pushing of an external force. Specifically, in the example shown in fig. 16 and 18, the base 41 is provided with a receiving groove 412, the elastic body 43 and at least a part of the bayonet pin 42 are received in the receiving groove 412, one end of the elastic body 43 abuts against the matching portion 413, the other end abuts against the bayonet pin 42, and when the bayonet pin 42 is in different states, the amount of the bayonet pin 42 received in the receiving groove 412 is different.

Referring to fig. 18 and 24, the locking pin 42 includes a locking portion 421 and a stopping portion 422. The engaging portion 421 is connected to the elastic body 43, and the engaging portion 421 is partially protruded from the base 41 and is engaged with the notch 3113. The stopping portion 422 is connected to the engaging portion 421, and the stopping portion 422 is used for abutting against the base 41 to limit the limit length of the engaging portion 421 extending from the base 41.

When the bayonet pin 42 is installed, the bayonet pin 42 can be installed into the base body 41 from the side opposite to the matching part 413, so that the clamping part 421 is at least partially received in the receiving groove 412, and the stopping part 422 is located in the base body 41. When the engaging portion 421 extends out of the base 41 to a limit length, the stopping portion 422 abuts against the base 41, so as to prevent the detent 42 from being completely separated from the base 41 under the action of the restoring force.

Further, the inner wall of the receiving groove 412 may cooperate with the outer wall of the catching portion 421 to define the moving track of the catching portion 421, so that the latch 42 is stable during the moving process.

Referring to fig. 21 and 22, when the handheld cradle head 40 needs to be separated from the external device 30, the driving member 34 is pushed, the reset block 343 of the driving member 34 is pushed into the notch 3113, and the reset block 343 pushes out the detent 42 extending into the notch 3113, so that the detent 42 is separated from the notch 3113. Meanwhile, the hook 32 extending into the slot 411 extends out of the slot 411 under the driving of the driving part 34, so that the handheld holder 40 can be separated from the external device 30.

Referring to fig. 18 again, when the handheld cradle head 40 is connected to the external device 30, the hook 32 extends into the slot 411 under the action of the restoring force and the restoring force, and the restoring block 343 is pushed away from the notch 3113, and the detent 42 extends into the notch 3113 under the action of the restoring force, so that the detent 42 is engaged with the notch 3113, and the hook 32 is engaged with the slot 411.

Fig. 25-28 are provided to focus on the description of the handheld pan and tilt head assembly 300 shown in fig. 3.

Referring to fig. 25 to 27, the handheld cradle head assembly 300 includes a handheld cradle head 60 and an external device 50. The handheld cradle head 60 is detachably connected to the external device 50.

The handheld cradle head 60 is provided with a clamping groove 61, and the clamping groove 61 can be used for being detachably connected with the external device 50.

In one example, the slots 61 are formed on two opposite sides of the handheld cradle head 60, so that the handheld cradle head 60 is connected to the external device 50 through the slots 61 with high reliability. Of course, the specific position of the card slot 61 may also be other arrangements, for example, the card slot 61 is disposed around the handheld cradle head 60, or the card slot 61 is disposed on one side of the handheld cradle head 60, and the like, which is not limited herein.

The external device 50 includes a body 51, a hook 52 and an elastic member 53. The hook 52 can be in a locked position and a released position with respect to the body 51. When the external device 50 is connected to the handheld cradle head 60, the hook 52 is in the locking position and is engaged with the slot 61. When the hook 52 is in the release position, the hook 52 is separated from the notch 61.

The elastic member 53 has two ends connected to the body 51 and the hook 52, respectively, and the elastic member 53 is used for providing a restoring force to the hook 52 to maintain the locking position. The hook 52 is pushed by external force to switch from the locking position to the releasing position, and when the external force is removed, the hook 52 is switched from the releasing position to the locking position under the action of restoring force.

Restoring force exerted by the elastic piece 53 enables the hook 52 to be located at the locking position and to be matched with the clamping groove 61, the external device 50 and the handheld cloud platform 60 can be fixedly connected to expand functions, the hook 52 is pushed to move to the releasing position through external force and to be separated from the clamping groove 61, the external device 50 and the handheld cloud platform 60 can be separated, therefore, the connection state of the external device 50 and the handheld cloud platform 60 is convenient to switch, and different use requirements of users can be met.

Referring to fig. 25 and 28, the main body 51 may be a housing of the external device 50, and the main body 51 may be a mounting carrier for the hook 52 and the elastic element 53. The body 51 includes an outer frame 511 and an inner frame 512. The outer frame 511 surrounds a receiving space 5111, and the inner frame 512 is connected to the outer frame 511 and is located in the receiving space 5111. The main body 51 may further include a cover 513, and the cover 513 is connected to the outer frame 511 or the inner frame 512 and covers the accommodating space 5111, so that the cover 513 and the outer frame 511 form a relatively sealed space together, thereby improving the dust-proof and water-proof capabilities of the external device 50.

The hook 52 is mounted on the body 51. The hook 52 can be in a locked position and a released position with respect to the body 51. When the external device 50 is connected to the handheld cradle head 60, the hook 52 is in the locking position and is engaged with the slot 61 (as shown in fig. 27), and when the hook 52 is in the releasing position, the hook 52 is separated from the slot 61, so that the external device 50 can be separated from the handheld cradle head 60.

The two ends of the elastic member 53 are connected to the body 51 and the hook 52, respectively. For example, the two ends of the elastic element 53 respectively abut against the body 51 and the hook 52. Specifically, the hook 52 is located between the inner frame 512 and the outer frame 511, and both ends of the elastic member 53 connect the inner frame 512 and the hook 52, respectively. The elastic member 53 may be specifically a spring or the like.

The elastic member 53 is used to provide a restoring force to the hook 52, which is maintained at the locking position, for example, the elastic member 53 is compressed between the hook 52 and the body 51, the elastic member 53 always maintains a tendency to restore and applies the restoring force to the hook 52, and for example, the elastic member 53 is elongated by the hook 52 and the body 51, and the elastic member 53 always maintains a tendency to restore and applies the restoring force to the hook 52.

The hook 52 is pushed by external force to switch from the locking position to the releasing position, and when the external force is removed, the hook 52 is switched from the releasing position to the locking position under the action of restoring force. The hook 52 is closer to the center of the body 51 in the release position than in the lock position. In the example shown in fig. 27, the left hook 52 is capable of moving to the right under the action of the external force, i.e. switching from the locking position to the releasing position, and in the process, the left hook 52 overcomes the restoring force of the left elastic member 53, and the external device 50 can be separated from the handheld cradle head 60. When the external force to the right is removed, the hook 52 moves to the left by the restoring force of the elastic member 53 on the left side, that is, the hook 52 is switched from the release position to the lock position.

Further, referring to fig. 25 and 27, the hook 52 has a receiving groove 521, one end of the elastic element 53 extends into the receiving groove 521 and abuts against the hook 52, and the other end of the elastic element 53 abuts against the body 51. One end of the elastic member 53 extends into the receiving slot 521, the relative position between the elastic member 53 and the hook 52 is stable, and the elastic member 53 is not easily separated from the hook 52.

In one example, the external force acting on the hook 52 may be an external force that a user directly contacts the hook 52 and applies to the hook 52. In another example, the external force applied to the hook 52 may be the user directly contacting the force-applying element and applying the external force to the force-applying element, which then pushes the hook 52 to move.

As shown in fig. 25 and 27, the external device 50 further includes a driving member 54, and the driving member 54 is movably disposed on the body 51. The driver 54 is capable of assuming a first position and a second position relative to the body 51. When the driving member 54 is at the first position, the hook 52 is at the locking position. When the driving member 54 is switched from the first position to the second position, the driving member 54 drives the hook 52 to switch from the locking position to the releasing position.

Because the hook 52 may be blocked when the external device 50 is connected to the handheld cradle head 60, the user cannot directly press the hook 52, and the driving member 54 is disposed to indirectly apply an external force to the hook 52 to drive the hook 52 to move, so that the user can switch the position of the hook 52.

Specifically, the driving member 54 and the hook 52 may abut against each other, or the driving member 54 and the hook 52 may be an integral structure, so that the driving member 54 and the hook 52 can move synchronously.

For example, when the external device 50 is connected to the handheld cradle head 60, the hook 52 is in the locking position, and the driving member 54 is in the first position (as shown in fig. 27); when the external device 50 needs to be separated from the handheld holder 60, the driving member 54 can be switched from the first position to the second position to drive the hook 52 to be switched from the locking position to the releasing position, and the hook 52 at the releasing position is separated from the slot 61; after the external device 50 is separated from the handheld cradle head 60, the hook 52 is switched from the release position to the locking position under the restoring force of the elastic element 53, and the hook 52 drives the driving element 54 to be switched from the second position to the first position.

When the separated external device 50 needs to be connected with the handheld cradle head 60 again, the external device 50 can be gradually close to the handheld cradle head 60, the hook 52 is gradually pushed to the release position from the locking position under the abutting of the handheld cradle head 60, and when the hook 52 reaches the release position and the hook 52 is aligned with the slot 61, the hook 52 is switched to the locking position under the action of the restoring force and is clamped into the slot 61, so that the connection (the state shown in fig. 27) between the external device 50 and the handheld cradle head 60 is realized.

In the example shown in fig. 27, the first movement direction D5 when the driver 54 is switched between the first position and the second position is the same as the second movement direction D6 when the hook 52 is switched between the locked position and the released position. The first moving direction D5 is the same as the second moving direction D6, so that the driving member 54 and the hook 52 can be conveniently arranged into an integral structure without a complicated transmission structure.

Referring to fig. 27 and 28, a through hole 5112 is formed in the sidewall of the outer frame 511, and the driving member 54 is at least partially exposed from the through hole 5112. The user can press the driving member 54 exposed from the through hole 5112 to apply an external force to the hook 52 to switch from the locking position to the releasing position.

Specifically, the number of the through holes 5112 may be two, two through holes 5112 being opened on the opposite side walls of the outer frame 511. The number of the hooks 52, the elastic members 53 and the driving members 54 is two, and the two driving members 54 respectively penetrate through the two through holes 5112.

Two hooks 52 and two elastic pieces 53 corresponding to each other one by one are arranged, so that the two hooks 52 can be matched with the clamping groove 61, and the connection stability and reliability of the external device 50 and the handheld cradle head 60 are improved. The two driving members 54 respectively penetrate through the two opposite through holes 5112, so that a user can press the driving members 54 from two sides simultaneously to apply an external force to the two hooks 52 simultaneously, and simultaneously switch the states of the two hooks 52, thereby improving the smoothness of dismounting the external device 50.

Further, the two driving members 54 may be symmetrically disposed with respect to the center line of the outer frame 511, so that when the user presses the two driving members 54 from both sides, the force of the external device 50 is balanced and the external device does not deflect.

Referring to fig. 25 and 27, in some examples, the hook 52 includes a stop 522, and when the hook 52 is in the locking position, the stop 522 abuts against the outer frame 511 to limit the limit position of the hook 52 moving in one direction. When the stopper 522 abuts against the outer frame 511, the hook 52 cannot move outward any more, so as to prevent the hook 52 from coming off the body 51.

In addition, when the hook 52 is at the release position, the hook 52 abuts against the inner frame 512 to define an extreme position where the hook 52 moves in one direction. One side of the hook 52 may be used to cooperate with the slot 61, and the other side of the hook 52 may be used to support the inner frame 512 at an extreme position, so as to avoid the situation that the driving member 54 is completely pressed into the body 51 from the through hole 5112, and the driving member 54 cannot be exposed from the through hole 5112.

Referring to fig. 25, in some examples, the cover 513 includes a blocking portion 5131 and a connecting portion 5132. The shielding portion 5131 covers the receiving space 5111. The connection portion 5132 is connected to the shielding portion 5131, and the connection portion 5132 extends into the through hole 5112 to connect the cover body 513 and the outer frame 511.

By extending the connection part 5132 into the through hole 5112, the space of the through hole 5112 is utilized, and the remaining holes for assembling with the connection part 5132 do not need to be additionally opened. At this time, the through hole 5112 may be formed to have a larger size, for example, the size of the through hole 5112 is larger than that of the driving member 54, so that the driving member 54 can be inserted into the through hole 5112 when the integrated structure formed by the hook 52 and the driving member 54 is installed.

The through hole 5112 receives the connecting portion 5132 while receiving a portion of the driving member 54, and the connecting portion 5132 and the driving member 54 can fill the through hole 5112 to prevent the cover 513 from being loose from the outer frame 511.

In summary, the external device 10, 30, 50 can be detachably connected to the handheld cradle head 20, 40, 60 respectively, wherein the bottom of the handheld cradle head 20, 40, 60 is provided with a first connecting portion, the external device 10, 30, 50 includes a body 11, 31, 51 and a second connecting portion detachably connected to the first connecting portion, and the external device 10, 30, 50 provides data transmission and/or power supply for the handheld cradle head 20, 40, 60 when being connected to the handheld cradle head 20, 40, 60.

Specifically, in the handheld tripod head assemblies 100, 200 and 300 of the above embodiments, the first connecting portion includes the card slot 21, 411 and 61, and the second connecting portion includes the card hook 12, 32 and 52 and the elastic member 13, 33 and 53.

Of course, in other embodiments, the specific form of the first connection portion and the second connection portion may be other.

For example, one of the first connecting portion and the second connecting portion includes a magnetic attraction structure, and the other of the first connecting portion and the second connecting portion includes an attraction structure. When first connecting portion and second connecting portion are close to, first connecting portion pass through magnetic force absorption with the second connecting portion and be in the same place to make handheld cloud platform and external device relatively fixed, when exerting sufficient external force and overcoming magnetic force, can separate first connecting portion and second connecting portion.

For example, one of the first connecting portion and the second connecting portion includes a dovetail groove, and the other of the first connecting portion and the second connecting portion is detachably connected to the dovetail groove.

In the description herein, reference to the description of the terms "certain embodiments," "one embodiment," "some embodiments," "an example," "a specific example," 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 application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

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

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

Claims (18)

1. The utility model provides an external device, its characterized in that, external device is used for being connected with handheld cloud platform detachably, the draw-in groove has been seted up to handheld cloud platform, external device includes:

a body;

the clamping hook can be located at a locking position and a releasing position relative to the body, and when the external device is connected to the handheld holder, the clamping hook is located at the locking position and matched with the clamping groove; when the clamping hook is at the release position, the clamping hook is separated from the clamping groove; the catch is closer to the center of the body in the locked position than in the released position; and

the two ends of the elastic piece are respectively connected with the body and the clamping hook, and the elastic piece is used for providing restoring force for the clamping hook to keep at the locking position;

the clamping hook is switched from the locking position to the releasing position under the pushing of external force, and when the external force is cancelled, the clamping hook is switched from the releasing position to the locking position under the action of the restoring force.

2. An external device according to claim 1, further comprising an actuating member movably disposed on the body, the actuating member being capable of assuming a first position and a second position relative to the body;

when the driving piece is at the first position, the clamping hook is at the locking position;

when the driving piece is switched from the first position to the second position, the driving piece drives the clamping hook to be switched from the locking position to the releasing position.

3. An external device according to claim 2, wherein a first direction of movement of the driving member when switching between the first position and the second position is different from a second direction of movement of the hook when switching between the locking position and the releasing position.

4. An external device according to claim 3, wherein said first direction of movement is perpendicular to said second direction of movement.

5. The external device according to claim 2, wherein the hook includes a first abutting slope, the driving member includes an abutting portion, the abutting portion includes a second abutting slope, the first abutting slope and the second abutting slope are engaged with each other, and the driving member applies a pushing force to the first abutting slope through the second abutting slope to drive the hook to move relative to the body.

6. An external device according to claim 5, wherein said driving member further comprises:

the base part is connected with the abutting part; and

a force application portion connected to the base portion, the force application portion being at least partially exposed from the body.

7. The external device of claim 6, wherein the force application portion and the abutment portion are located on opposite sides of the base portion.

8. The external device according to claim 6, wherein the number of the supporting portions is two, the two supporting portions are symmetrically disposed with respect to the force application portion, the number of the hooks and the elastic member is two, and the two supporting portions and the two hooks are supported in a one-to-one correspondence.

9. The external device according to claim 6, further comprising a limiting member, wherein the limiting member is fixedly connected to the body, the limiting member comprises a first limiting portion, and the first limiting portion and the body respectively attach to two opposite sides of the base portion, so as to limit the movement track of the base portion.

10. The external device according to claim 9, wherein the limiting member further comprises a second limiting portion, and the second limiting portion and the body respectively attach to opposite sides of the hook to limit the movement track of the hook.

11. The external device according to claim 2, further comprising an elastic member, wherein two ends of the elastic member are respectively connected to the driving member and the body, and the elastic member is configured to provide a resilient force to the driving member to return to the first position.

12. An external device according to claim 1, wherein the hook defines a receiving slot, one end of the elastic member extends into the receiving slot and abuts against the hook, and the other end of the elastic member abuts against the body.

13. The external device according to claim 1, wherein the body defines a sound outlet hole, the sound outlet hole being used for sending out the sound signal from the body; and/or

The body is provided with a connecting hole, and the connecting hole is used for allowing external equipment to penetrate and fixing the external device and the handheld cloud deck; and/or

The body is provided with a data hole, and the data hole is used for electrically connecting the external device with external equipment.

14. The external device according to claim 1, further comprising a connector disposed on the body, the connector being configured to connect with the handheld cradle head for data transmission.

15. An external device according to claim 1, wherein the body comprises:

the outer frame forms an accommodating space, the elastic piece and at least part of the clamping hook are accommodated in the accommodating space, and at least part of the clamping hook is positioned outside the accommodating space and exposed out of the outer frame; and

the cover body is connected with the outer framework and covers the accommodating space.

16. A handheld pan and tilt head assembly, comprising:

the handheld cloud deck is provided with a clamping groove; and

the external device of any one of claims 1 to 15, wherein the external device and the handheld cradle head are detachably connected with the clamping groove through the clamping hook.

17. A handheld holder assembly according to claim 16, wherein the external connection device is detachably connected to the bottom and/or side of the handheld holder.

18. A handheld tripod head, wherein the handheld tripod head is used for being detachably connected with the external device of any one of claims 1 to 15.

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