CN219493593U - Shooting mode switching structure, cradle head and shooting system thereof - Google Patents

Abstract

The utility model relates to the technical field of shooting equipment, in particular to a shooting mode switching structure, a cradle head and a shooting system thereof, comprising a connecting seat and a fast assembly component for installing a shooting device, wherein the fast assembly component is provided with a first connecting structure and a second connecting structure; the fast-assembling subassembly can be connected with the connecting seat through first connection structure and realize first shooting mode, the fast-assembling subassembly can also be connected with the connecting seat through second connection structure and realize the second shooting mode, under the first shooting mode the contained angle is formed between the face of carrying of fast-assembling subassembly and the face of carrying of fast-assembling subassembly under the second shooting mode. The utility model has convenient operation, can stably and reliably switch different shooting modes, and improves shooting experience of users.

Description

Shooting mode switching structure, cradle head and shooting system thereof

Technical Field

The present utility model relates to the field of shooting devices, and in particular, to a shooting mode switching structure, a pan-tilt and a shooting system thereof.

Background

When a user uses a photographing device to perform photographing, multi-directional photographing, such as lateral photographing and vertical photographing, is often involved, and in the course of daily photographing, switching between lateral photographing and vertical photographing is often required. In order to facilitate stable switching of the two shooting modes, a user often carries a horizontal and vertical shooting switching mechanism on a tripod head stabilizer to realize switching between horizontal shooting and vertical shooting under stable shooting.

Traditional horizontal clapping and vertical clapping switch structure in market, its switching form is: and a vertical shooting accessory is newly added on the holder stabilizer to realize the switching between horizontal shooting and vertical shooting. When the horizontal shooting is switched to the vertical shooting, a user needs to take down the shooting device on the holder stabilizer, then install the vertical shooting accessory, and finally install the shooting device on the vertical shooting accessory; when the vertical shooting and horizontal shooting are switched, a user needs to take down the shooting device and the vertical shooting accessory on the holder stabilizer, then separate the shooting device from the vertical shooting accessory, and finally reinstall the shooting device on the holder stabilizer. The above-mentioned switching process involves the dismouting of accessory, and the accessory can lose at the switching in-process, and complex operation is unfavorable for going on smoothly of shooting process.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a shooting mode switching structure, a cradle head and a shooting system thereof, which are convenient to operate, can stably and reliably switch different shooting modes, and improve shooting experience of a user.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the shooting mode switching structure comprises a connecting seat and a fast assembly component for installing a shooting device, wherein a first connecting structure and a second connecting structure are arranged on the fast assembly component; the fast-assembling subassembly can be connected with the connecting seat through first connection structure and realize first shooting mode, the fast-assembling subassembly can also be connected with the connecting seat through second connection structure and realize the second shooting mode, under the first shooting mode the contained angle is formed between the face of carrying of fast-assembling subassembly and the face of carrying of fast-assembling subassembly under the second shooting mode.

The utility model comprises a shooting mode switching structure, wherein the fast assembly component can be connected with the connecting seat through a first connecting structure or a second connecting structure to realize the switching between a first shooting mode and a second shooting mode; the carrying surface of the fast-assembling component is used for carrying the shooting device, and an included angle can be formed between the carrying surfaces of the fast-assembling component in two different shooting modes, so that when the position of the fast-assembling component is switched relative to the connecting seat, the shooting mode of the shooting device can be switched synchronously, the operation is convenient, and the shooting experience of a user can be improved. In the utility model, the first shooting mode can be a horizontal shooting mode, and the second shooting mode can be a vertical shooting mode.

Preferably, the quick assembly comprises a quick assembly plate and a quick assembly plate seat connected with the quick assembly plate, and the first connecting structure and the second connecting structure are respectively arranged on different surfaces of the quick assembly plate seat; when the quick-mounting plate seat is connected with the connecting seat through the first connecting structure, a first shooting mode can be realized; when the quick-mounting plate seat is connected with the connecting seat through the second connecting structure, a second shooting mode can be realized.

Preferably, the first connecting structure is a first chute arranged on the first surface of the quick-mounting plate seat, the second connecting structure is a second chute arranged on the second surface of the quick-mounting plate seat, and an included angle is formed between the first surface and the second surface of the quick-mounting plate seat; the connecting seat is provided with a second sliding rail; the fast-assembling board seat and the connecting seat can be connected with the second sliding rail through the first sliding groove or the second sliding groove to realize the switching between the first shooting mode and the second shooting mode.

Preferably, a first locking structure is inserted on the quick-mounting plate seat, and the quick-mounting plate seat and the connecting seat are positioned in the first shooting mode and/or the second shooting mode by the contact of the first locking structure and the connecting seat.

Preferably, the first locking structure comprises a first pressing block and a first locking piece, the first pressing block is spliced with the quick-mounting plate seat through the first locking piece, and a second pressing part is arranged on the first pressing block; when the quick-mounting plate is in the second shooting mode, the first locking piece is operated, so that the second pressing part passes through the second connecting structure and then contacts and presses the connecting seat, and locking between the quick-mounting plate seat and the connecting seat can be realized.

Preferably, the first locking structure further comprises a first pressing part arranged on the first pressing block, and when the first locking part is in the first shooting mode, the first locking part is operated, so that the first pressing part passes through the first connecting structure and then contacts and presses the connecting seat, and locking between the quick-mounting plate seat and the connecting seat can be realized.

Preferably, the first locking structure comprises a third pressing block and a third locking piece, and the third pressing block is spliced with the quick-mounting plate seat through the third locking piece; when the quick-mounting plate is in the first shooting mode, the third locking piece is operated, so that the pressing end of the third pressing block passes through the first connecting structure and then contacts and presses with the connecting seat, and locking between the quick-mounting plate seat and the connecting seat can be realized.

Preferably, a avoidance space for avoiding influencing the installation of the shooting device is arranged on the connecting seat.

Preferably, the shooting mode switching structure further comprises a first anti-falling structure arranged on the connecting seat, and the quick-mounting plate seat is limited through the first anti-falling structure to realize anti-falling.

Preferably, the quick-mounting plate is movably connected with the quick-mounting plate seat; the quick mounting surface of the quick mounting plate seat is provided with a third sliding groove, the quick mounting plate is provided with a first sliding rail, and the third sliding groove is adapted to the first sliding rail.

Preferably, a second locking structure for positioning between the quick-acting plate and the quick-acting plate seat is arranged between the quick-acting plate and the quick-acting plate seat.

Preferably, the quick-mounting plate seat is further provided with a second anti-falling structure for preventing the quick-mounting plate from falling off, and the second anti-falling structure is contacted with the quick-mounting plate to prevent the quick-mounting plate from falling off under the action of no external force.

The utility model further comprises a cradle head body and the shooting mode switching structure, wherein the cradle head body is connected with the shooting mode switching structure through a connecting arm.

Preferably, the connecting seat is movably connected with the connecting arm, and a third locking structure for positioning between the connecting seat and the connecting arm is arranged between the connecting seat and the connecting arm.

The utility model further comprises a shooting system, a shooting device and the cradle head, wherein the shooting device is connected with the cradle head body through a shooting mode switching structure.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model relates to a shooting mode switching structure, a cradle head and a shooting system thereof, wherein a fast-assembling component can be connected with a connecting seat through a first connecting structure or a second connecting structure to realize switching between a first shooting mode and a second shooting mode; because shooting device carries on the face of carrying of fast-assembling subassembly, and can form the contained angle between the face of carrying of fast-assembling subassembly under two kinds of different shooting modes, consequently when fast-assembling subassembly carries out the switching of position for the connecting seat, can realize shooting device's shooting mode's switching in step, convenient operation can also improve user's shooting experience. The cradle head comprises a cradle head body and a shooting mode switching structure, and the shooting system comprises a shooting device and the cradle head with the shooting mode switching structure, so that the cradle head and the shooting system thereof can realize stable switching between a first shooting mode and a second shooting mode. In the utility model, the first shooting mode can be a horizontal shooting mode, and the second shooting mode can be a vertical shooting mode.

Drawings

Fig. 1 is a schematic view of a shooting mode switching structure in a first shooting mode according to the present utility model;

fig. 2 is a schematic diagram of a shooting mode switching structure in a second shooting mode according to the present utility model;

FIG. 3 is a schematic diagram illustrating an included angle formed by a mounting surface of a photographing mode switching structure in a first photographing mode and a second photographing mode;

FIG. 4 is a schematic diagram illustrating a shooting mode switching structure according to the present utility model;

FIG. 5 is an enlarged schematic view of section I of FIG. 4;

FIG. 6 is a schematic view of the structure of the quick-release mounting portion of the present utility model;

FIG. 7 is an exploded view of the quick mount portion of the present utility model;

FIG. 8 is a schematic view of the structure of the first briquette of the present utility model;

fig. 9 is a schematic view illustrating a structure of a first view angle of an embodiment 3 of a shooting mode switching structure according to the present utility model;

fig. 10 is a schematic diagram of a shooting mode switching structure according to a second view angle of embodiment 3 of the present utility model;

FIG. 11 is a schematic view showing the structure of an embodiment 3 of the quick-release mounting portion of the present utility model;

FIG. 12 is a schematic view of a connecting seat according to an embodiment 3 of the present utility model;

FIG. 13 is a schematic structural view of a first anti-disengaging structure according to the present utility model;

fig. 14 is a schematic structural diagram of a pan-tilt head in a first shooting mode according to the present utility model;

fig. 15 is a schematic structural diagram of a pan-tilt head in a second shooting mode according to the present utility model;

FIG. 16 is a schematic view of a photographing system according to the present utility model in a first photographing mode;

FIG. 17 is a schematic diagram of a photographing system according to the present utility model in a second photographing mode;

fig. 18 is a schematic view illustrating a structure of another view angle of a photographing system in a second photographing mode according to the present utility model.

The graphic indicia are illustrated as follows:

100-shooting mode switching structure, 110-quick-action plate, 111-first slide rail, 112-carrying surface, 120-quick-action plate holder, 121-first connecting structure, 122-second connecting structure, 123-third slide groove, 1231-inclined surface, 124-first receiving cavity, 125-second receiving cavity, 126-third receiving cavity, 127-first limit groove, 128-second limit groove, 129-recessed position, 130-connecting seat, 131-second slide rail, 132-fourth slide groove, 133-clearance gap, 140-first locking structure, 141-first press block, 1411-first press part, 1412-second press part, 142-first lock member, 1421-first knob member, 1422-first lock bolt, 143-third press block, 144-third lock member, 150-second lock structure, 151-second press block, 1511-recess, 152-second lock member, 1521-second knob member, 1522-second lock bolt, 160-second anti-second push button structure, 163-third press member, 180-third press member, 170-third press member, 190-second press member, 180-third press member, 190-second press member, 190-third press member, 170-third press member, 190-third press member, and spring-carrier, 181-third press member, 300-camera.

Detailed Description

The utility model is further described below in connection with the following detailed description. Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the utility model, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numbers in the drawings of embodiments of the utility model correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present utility model and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Example 1

As shown in fig. 1 to 8, a first embodiment of a shooting mode switching structure of the present utility model includes a connection base 130, and further includes a quick assembly component for mounting a shooting device 300, wherein the connection base 130 is detachably connected to the quick assembly component, and the quick assembly component is provided with a first connection structure 121 and a second connection structure 122; the fast-assembling subassembly can be connected with the connecting seat 130 through first connection structure 121 and realize first shooting mode, and the fast-assembling subassembly can also be connected with the connecting seat 130 through second connection structure 122 and realize the second shooting mode, forms contained angle a between fast-assembling subassembly's the face 112 that carries of fast-assembling subassembly under the first shooting mode and the face 112 that carries of fast-assembling subassembly under the second shooting mode.

The fast-assembling component can be connected with the connecting seat 130 through the first connecting structure 121 or the second connecting structure 122 to realize the switching between the first shooting mode and the second shooting mode; because the photographing device 300 is mounted on the mounting surface 112 of the quick assembly, and an included angle a can be formed between the mounting surfaces 112 of the quick assembly in two different photographing modes, as shown in fig. 3, when the quick assembly is switched in position relative to the connecting seat 130, the switching of the photographing modes of the photographing device 300 can be synchronously realized, the operation is convenient, and the photographing experience of a user can be improved. In the utility model, the first shooting mode and the second shooting mode can be a horizontal shooting mode and a vertical shooting mode respectively, and an included angle a formed between the carrying surface 112 of the fast-assembling component in the horizontal shooting mode and the carrying surface 112 of the fast-assembling component in the vertical shooting mode is 90 degrees, as shown in fig. 3.

As shown in fig. 1 to 4, the quick assembly comprises a quick plate 110 and a quick plate seat 120 connected with the quick plate 110, and a connection seat 130 is detachably connected with the quick plate seat 120; the mounting surface 112 is located on the quick-mounting plate 110. The first connecting structure 121 and the second connecting structure 122 are respectively disposed on different surfaces of the quick-mounting board seat 120. When the quick-mounting board holder 120 is connected with the connection holder 130 through the first connection structure 121, a first photographing mode can be implemented; when the quick-mounting board holder 120 is connected with the connection holder 130 through the second connection structure 122, the second photographing mode can be implemented.

In this embodiment, the surface of the package board seat 120 for connecting the package board 110 is a package mounting surface, and the first connection structure 121 and the second connection structure 122 are located at different surfaces from the package mounting surface. Specifically, in this embodiment, the first connection structure 121 is located on a surface opposite to the quick-mounting surface, so as to implement a horizontal shooting mode, as shown in fig. 1; the second connection structure 122 is located on a side adjacent to the quick-mount mounting surface for implementing a portrait mode, as shown in fig. 2.

As shown in fig. 1, fig. 2, and fig. 6, the quick-mounting board holder 120 is slidably connected to the connection holder 130, and in the first or second shooting mode, the quick-mounting board holder 120 can slide relative to the connection holder 130, so that in the first or second shooting mode, the quick-mounting board holder 120 can adjust its position on the connection holder 130. Specifically, the first connection structure 121 is a first chute disposed on a first surface of the package board 120, and the second connection structure 122 is a second chute disposed on a second surface of the package board 120, wherein the first surface of the package board 120 is a surface opposite to the package mounting surface, and the second surface of the package board 120 is a surface adjacent to the package mounting surface, so that an included angle can be formed between the first surface and the second surface of the package board 120, and in this embodiment, the included angle is 90 ° and the first surface and the second surface of the package board 120 are mutually perpendicular. That is, the first chute is disposed at the bottom surface of the package board 120, and the second chute is disposed at a surface of one end of the package board 120, as shown in fig. 6.

And, be equipped with on the connecting seat 130 with first spout and second spout looks adaptation's second slide rail 131, can be connected through first spout and second slide rail 131 between quick-mounting plate seat 120 and the connecting seat 130 and realize first shooting mode, still can be connected through second spout and second slide rail 131 between quick-mounting plate seat 120 and the connecting seat 130 and realize the second shooting mode. In this embodiment, the first chute and the second chute may be dovetail grooves, and the second slide rail 131 is adapted to the dovetail grooves; the dovetail grooves enable the quick-mounting plate seat 120 to only slide on the connecting seat 130 along the extending direction of the second sliding rail 131 without relative rotation, so that stability is improved. And the second sliding rails 131 are disposed at two sides of the connecting seat 130, and the second sliding rails 131 extend to one or two ends of the connecting seat 130, so that the first sliding grooves and the second sliding grooves can slide on the second sliding rails 131 and slide out of the connecting seat, thereby facilitating the switching of shooting modes. It should be noted that other sliding connection manners, such as a sliding connection manner of a screw nut, may be used between the quick-mounting plate base 120 and the connection base 130.

In order to facilitate positioning between the quick-mounting plate holder 120 and the connection holder 130 in the first photographing mode and/or the second photographing mode, the quick-mounting plate holder 120 is provided with a first locking structure 140. As shown in fig. 4 to 7, the first locking structure 140 includes a first pressing block 141 and a first locking member 142, the first pressing block 141 is connected with the quick-mounting plate seat 120 through the first locking member 142, and the first pressing block 141 can tightly hold the quick-mounting plate seat 120 and the connection seat 130 through the first locking member 142, so as to realize positioning of the quick-mounting plate seat 120 on the connection seat 130, and further realize positioning between the quick-mounting plate seat 120 and the connection seat 130 in the first shooting mode and/or the second shooting mode. The present embodiment describes the structure of the first locking structure 140 with the function that the first locking structure 140 can position the quick-mounting board 120 in the first shooting mode and the second shooting mode:

as shown in fig. 8, the pressing surface of the first pressing block 141 is connected with a first pressing portion 1411 and a second pressing portion 1412, the first pressing portion 1411 and the second pressing portion 1412 are both protruded from the pressing surface of the first pressing block 141, and an included angle is formed between the contact pressing surface of the second pressing portion 1412 and the contact pressing surface of the first pressing portion 1411, so that the first pressing portion 1411 and the second pressing portion 1412 can be respectively used for locking between the quick-mounting plate seat 120 and the connection seat 130 in the first shooting mode and the second shooting mode. When the first shooting mode is in the first shooting mode, the first locking piece 142 is operated, so that the first pressing part 1411 passes through the first connecting structure 121 and then contacts and presses the connecting seat 130, and the locking between the quick-acting plate seat 120 and the connecting seat 130 can be realized; in the second shooting mode, the first locking member 142 is operated, so that the second pressing portion 1412 passes through the second connecting structure 122 and contacts and presses the connecting seat 130, so that locking between the quick-mounting plate seat 120 and the connecting seat 130 can be achieved, as shown in fig. 5.

In this embodiment, a first accommodating cavity 124 is disposed on one side of the quick-mounting plate base 120, and the first accommodating cavity 124 is used for placing the first pressing block 141. A first through hole communicated with the first accommodating cavity 124 is arranged at the first chute, and the positions of the first through hole and the second chute are staggered; the second chute is provided with a second through hole communicated with the first accommodating cavity 124, and the positions of the second through hole and the first chute are staggered; the first through hole and the second through hole are used for pushing out and pressing the first pressing portion 1411 and the second pressing portion 1412, respectively, and the locking in different photographing states does not affect each other, as shown in fig. 5.

As shown in fig. 7, in this embodiment, the first locking member 142 includes a first knob member 1421 and a first locking bolt 1422 in transmission connection with the first knob member 1421, where the first locking bolt 1422 passes through the first pressing block 141 and is in threaded connection with the quick-mounting plate base 120, and the first pressing block 141 can be in transmission connection with the first locking bolt 1422. A spacer may be provided between the first press block 141 and the first lock bolt 1422 in this embodiment to reduce wear.

When in the first shooting mode, the quick-mounting plate base 120 is slidably connected with the second slide rail 131 of the connecting base 130 through the first slide groove, and when the first knob member 1421 is rotated in the counterclockwise direction, the first knob member 1421 drives the first locking bolt 1422 to rotate, and then drives the first pressing part 1411 of the first pressing block 141 to move and hug tightly towards the second slide rail 131, so that locking and positioning are realized. When the first knob 1421 is rotated clockwise, the first knob 1421 can drive the first pressing portion 1411 to be away from the second sliding rail 131, and the first pressing portion 1411 is no longer in contact with the second sliding rail 131, so as to realize unlocking. It should be noted that the first knob 1421 may be turned clockwise to be locked and turned counterclockwise to be unlocked.

When the quick-mounting plate seat 120 is in the second shooting mode, the quick-mounting plate seat is in sliding connection with the second sliding rail 131 of the connecting seat 130 through the second connecting structure 122, when the first knob member 1421 is rotated anticlockwise at this moment, the first knob member 1421 drives the first locking bolt 1422 to rotate, and further drives the second compression part 1412 of the first pressing block 141 to move towards the second sliding rail 131 and to be held tightly, so that locking and positioning are realized; when the first knob 1421 is rotated clockwise, the first knob 1421 can drive the second pressing portion 1412 to move away from the second sliding rail 131, and the second pressing portion 1412 is no longer in contact with the second sliding rail 131, so as to unlock. It should be noted that the first knob 1421 may be turned clockwise to be locked and turned counterclockwise to be unlocked.

As shown in fig. 1 to 7, the quick-mounting plate 110 is detachably connected with the quick-mounting plate seat 120, and the quick-mounting plate 110 and the quick-mounting plate seat 120 can slide relatively, so that the position of the quick-mounting plate 110 on the quick-mounting plate seat 120 can be adjusted. Wherein, the fast-assembling installation face of the fast-assembling board seat 120 is provided with a third chute 123, two sides of the fast-assembling board 110 are provided with a first slide rail 111, the third chute 123 is adapted to the first slide rail 111, and the fast-assembling board 110 and the fast-assembling board seat 120 can slide relatively with the first slide rail 111 through the third chute 123, so that the fast-assembling board seat can be used for adjusting the position of the shooting device 300. In this embodiment, the third chute 123 may be a dovetail groove, where an inclined plane 1231 is disposed at a notch position of the dovetail groove, so that the width of the notch of the dovetail groove is greater than the width of the middle, so as to facilitate sliding installation of the quick-mounting plate 110. In this embodiment, the first sliding rail 111 extends to one or both ends of the quick-mounting plate 110, so that the third sliding groove can slide on the first sliding rail 111 and slide out of the quick-mounting plate seat 120, which is convenient for disassembly and assembly. It should be noted that other sliding connection manners, such as a sliding connection manner of a screw nut, may be used between the quick-mounting plate seat 120 and the quick-mounting plate 110.

In order to facilitate the positioning between the quick-mounting plate 110 and the quick-mounting plate holder 120, a second locking structure 150 is provided between the quick-mounting plate 110 and the quick-mounting plate holder 120. As shown in fig. 6 and 7, the second locking structure 150 includes a second pressing block 151 and a second locking member 152, the second pressing block 151 is connected with the quick-mounting plate seat 120 through the second locking member 152, and the second pressing block 151 can tightly hold the quick-mounting plate 110 on the quick-mounting plate seat 120 through the second locking member 152, so as to realize positioning of the quick-mounting plate 110 on the quick-mounting plate seat 120.

Specifically, the quick-mounting board seat 120 is provided with a second accommodating cavity 125 that is communicated with the third chute 123, the second accommodating cavity 125 is adapted to the second pressing block 151, and the second pressing block 151 is disposed in the second accommodating cavity 125. The second locking member 152 includes a second knob member 1521 and a second locking bolt 1522 drivingly connected to the second knob member 1521, the second locking bolt 1522 penetrating upward from the bottom surface of the quick-release plate holder 120 and being threadedly connected to the second press block 151. A spacer may be provided between the second press block 151 and the second lock bolt 1522 in this embodiment to reduce wear.

When the second knob member 1521 is rotated in the counterclockwise direction, the second knob member 1521 drives the second locking bolt 1522 to rotate, so that the second pressing block 151 moves out of the second accommodating cavity 125 and is clasped with the quick-mounting plate 110, thereby realizing locking and positioning. When the second knob member 1521 is rotated clockwise, the second knob member 1521 drives the second pressing block 151 to retract to the second accommodating cavity 125, and the second pressing block 151 is no longer in close contact with the quick assembly plate 110, so as to achieve unlocking. It should be noted that the second knob member 1521 may be set to rotate clockwise to be locked and rotate counterclockwise to be unlocked. In this embodiment, the groove 1511 adapted to the groove wall of the third sliding groove 123 is disposed on the second pressing block 151, so that the second pressing block 151 in the retracted state can be prevented from blocking the sliding of the quick-acting plate 110 on the quick-acting plate seat 120.

Example 2

The embodiment is similar to embodiment 1, except that the quick-release plate seat 120 in this embodiment is further provided with a second release preventing structure 160 for preventing the quick-release plate 110 from releasing, and the second release preventing structure 160 is in contact with the quick-release plate 110 under no external force, so that the quick-release plate 110 cannot be released from the quick-release plate seat 120 even if the second locking structure 150 is in an unlocked state, thereby preventing the quick-release plate 110 from releasing.

As shown in fig. 7, the second anti-disengaging structure 160 includes a second button member 161, a third limiting post 162 and a third elastic member 163, the second button member 161 is provided with a chute, and the third limiting post 162 is slidably engaged at the chute. The quick-mounting plate seat 120 is provided with a third accommodating cavity 126 for accommodating the second anti-falling structure 160, and the third accommodating cavity 126 is communicated with one side part of the quick-mounting plate seat 120, so that the second button piece 161 can extend out from the side part of the quick-mounting plate seat 120; the third accommodating cavity 126 is further communicated with the third sliding groove 123, and a sliding notch is formed in the third sliding groove 123, so that the third limiting post 162 can extend from the sliding notch. The third elastic member 163 is disposed in the third accommodating cavity 126, and one end of the third elastic member 163 abuts against the second button member 161, and the other end abuts against the inner wall of the third accommodating cavity 126. In this embodiment, the second anti-disengagement structure 160 is the same as or similar to the second anti-disengagement structure of a commercial product, and the other specific structural components of the second anti-disengagement structure 160 will not be described in detail.

Under the action of no external force, one side of the third limiting post 162 and one side of the third sliding groove 123 can clamp the quick-mounting plate 110, as shown in fig. 6; when the second button 161 is pressed, the third limiting post 162 is simultaneously limited by the chute and the sliding notch and slides at the sliding notch, so that the third limiting post 162 is no longer in contact with the quick-mounting plate 110, and the quick-mounting plate 110 can be detached from the quick-mounting plate seat 120.

Example 3

The present embodiment is similar to embodiment 1, except that, as shown in fig. 9 to 12, the first locking structure 140 in the present embodiment includes a first pressing block 141 inserted on the connecting seat 120, and a first locking member 142 disposed on a side portion of the connecting seat 120, and the first pressing block 141 is inserted into the quick-mounting plate seat 120 through the first locking member 142. The first pressing block 141 is connected with a second pressing part 1412, and when the first pressing block 141 is in the second shooting mode, the first locking member 142 is operated, so that the second pressing part 1412 of the first pressing block 141 passes through the second connecting structure 122 and then contacts and presses the connecting seat 130, and locking between the quick-acting plate seat 120 and the connecting seat 130 can be realized, as shown in fig. 11. The structure of the first locking member 142 in this embodiment is identical or similar to that of embodiment 1, and thus will not be described in detail.

As shown in fig. 10 and 11, the first locking structure 140 further includes a third pressing block 143 inserted into the bottom surface of the connecting seat 120, and a third locking member 144 disposed at the third chute 123, where the third pressing block 143 is inserted into the quick-mounting plate seat 120 through the third locking member 144. When the third locking member 144 is in the first shooting mode, the pressing end of the third pressing block 143 passes through the first connecting structure 121 and then contacts and presses the connecting seat 130, so that locking between the quick-acting plate seat 120 and the connecting seat 130 can be realized. In this embodiment, the third chute 123 is provided with a recess 129 for accommodating the third locking member 144, and the operating portion of the third locking member 144 is located in the recess 129, so as to avoid obstructing the installation of the quick-mounting plate 110. The structure and locking manner of the third pressing block 143 and the third locking member 144 in this embodiment are identical or similar to those of the second pressing block 151 and the second locking member 152, and thus will not be described in detail.

Example 4

The present embodiment is similar to embodiment 3, except that, as shown in fig. 9 to 13, a avoidance space 133 for avoiding influencing the installation of the photographing device 300 is provided on the connection base 130, and the connection base 130 forms an L-shaped structure by providing the avoidance space 133, where the L-shaped structure includes a horizontal side and a vertical side fixedly connected thereto, and the second slide rail 131 is disposed on the horizontal side.

As shown in fig. 10, 12 and 13, the shooting mode switching structure further includes a first anti-falling structure 190 disposed on the connecting seat 130, and the quick-mounting plate seat 120 is limited by the first anti-falling structure 190 to realize anti-falling. The first anti-drop structure 190 is disposed on a horizontal side of the L-shaped structure in this embodiment. Specifically, the first anti-disengaging structure 190 includes a first button member 191, a second limiting post 193, and a first elastic member 194, where the first button member 191 is elastically inserted on the horizontal edge through the first elastic member 194, and the first button member 191 protrudes out of the horizontal edge to be set. The second limiting post 193 is fixedly connected with the first button piece 191, a kidney-shaped hole is formed in the bottom of the horizontal edge, and the second limiting post 193 is slidably arranged at the kidney-shaped hole and used for preventing the first button piece 191 from being separated from the connecting seat 130. The first anti-falling structure 190 further comprises a first limiting column 192 and a second elastic piece 195, wherein the first limiting column 192 is elastically inserted into the horizontal edge through the second elastic piece 195, and the first limiting column 192 is positioned at one end far away from the vertical edge; the first limiting column 192 is provided with a sliding limiting groove, the first button piece 191 is provided with a sliding guide groove with inclination, and the sliding limiting groove is in sliding fit with the sliding guide groove, so that the first limiting column 192 can extend or retract on the upper surface of the horizontal edge. The principle of the first anti-falling structure 190 is: under the action of no external force, the first limit column 192 extends out of the upper surface of the horizontal edge to form a bulge, so that the quick-mounting plate seat 120 can be prevented from sliding off the connecting seat 130, and the anti-falling effect is achieved; when the first button member 191 is pressed, the first limiting column 192 is retracted by the cooperation of the sliding limiting groove and the sliding guiding groove, and plays a role in unlocking.

As shown in fig. 9 and 10, the quick-mounting board holder 120 is provided with a first limiting groove 127 communicated with the first connecting structure 121, and the quick-mounting board holder 120 is also provided with a second limiting groove 128 communicated with the second connecting structure 122. When in the first shooting mode, the quick-mounting plate seat 120 is in sliding connection with the connecting seat 130 through the first connecting structure 121, and can realize limit by contacting the first limiting groove 127 with the first limiting column 192; in the second shooting mode, the quick-mounting board seat 120 is slidably connected with the connecting seat 130 through the second connecting structure 122, and can be limited by contacting the second limiting groove 128 with the first limiting post 192.

As shown in fig. 9 to 11, the quick-mounting plate seat 120 in this embodiment may further be provided with a second anti-falling structure 160 for preventing the quick-mounting plate 110 from falling off, and under no external force, the second anti-falling structure 160 contacts with the quick-mounting plate 110, so that the quick-mounting plate 110 cannot be separated from the quick-mounting plate seat 120 even if the second locking structure 150 is in the unlocked state, thereby realizing the anti-falling of the quick-mounting plate 110. The structure of the second anti-drop structure 160 in this embodiment may be identical or similar to that of the second anti-drop structure 160 described in embodiment 2, or the structure of the first anti-drop structure 190 described in this embodiment.

Example 5

Fig. 14 to 15 show an embodiment of a pan-tilt according to the present utility model, which includes a pan-tilt body 200, and further includes a shooting mode switching structure 100 according to any one of embodiments 1 to 4, wherein the pan-tilt body 200 is connected to the shooting mode switching structure 100 through a connecting arm 170.

The connecting seat 130 is movably connected with the connecting arm 170, in this embodiment, an end portion of the connecting seat 130 is slidably connected with the connecting arm 170, the connecting arm 170 is vertically disposed, and the connecting seat 130 can slide up and down at the connecting arm 170. Specifically, as shown in fig. 2 and 4, the connecting arm 170 is provided with a third sliding rail 171, one end of the connecting seat 130 is provided with a fourth sliding groove 132, and the third sliding rail 171 is slidably matched with the fourth sliding groove 132. The third sliding rail 171 in the present embodiment extends to the lower end of the connecting arm 170, so that the connecting seat 130 can slide out of the connecting arm 170 and be separated from the connecting arm 170.

In order to achieve positioning between the connection base 130 and the connection arm 170, a third locking structure 180 is provided between the connection base 130 and the connection arm 170. As shown in fig. 10, the third locking structure 180 in this embodiment includes a third knob member 181 and a holding member 182 connected to the third knob member 181, where when the third knob member 181 is turned, the holding member 182 can be tightly contacted with and held by the third slide rail 171 to achieve a locking effect; and unlocking can be achieved when the third knob member 181 is turned in the opposite direction. In this embodiment, the third locking structure 180 is the same as or similar to the locking structure of a commercial product, and the other specific structural components of the third locking structure 180 will not be described in detail in this embodiment.

In addition, the holder body 200 includes a support bracket 210, a plurality of motors 220 disposed on the support bracket 210, the holder body 200 further includes a handle 230, and the handle 230 is connected to the support bracket 210; the connecting arm 170 is connected to the carrying bracket 210 by a motor 220. In this embodiment, the holder body 200 is the same as or similar to a holder body of a commercial product, and the rest of the specific structural components of the holder body 200 will not be described in detail in this embodiment. The cradle head with the shooting mode switching structure 100 according to embodiment 1 or 2 can realize stable switching between the first shooting mode and the second shooting mode, is convenient to operate, and improves shooting experience of a user. In this embodiment, the first shooting mode may be a horizontal shooting mode, and the second shooting mode may be a vertical shooting mode.

Example 6

Fig. 16 to 18 show an embodiment of a photographing system according to the present utility model, which includes a photographing device 300, and further includes a pan-tilt head according to embodiment 5, wherein the photographing device 300 is connected to a pan-tilt head body 200 through a photographing mode switching structure 100. Wherein, the photographing device 300 is detachably connected with the quick-mounting plate 110. The cradle head according to embodiment 3 can realize stable switching between the first shooting mode and the second shooting mode, is convenient to operate, and improves shooting experience of a user. In this embodiment, the first shooting mode may be a horizontal shooting mode, and the second shooting mode may be a vertical shooting mode.

It should be noted that, the shooting mode switching structure 100 with the avoidance space 133 on the connection base 130 can be applied to some shooting devices 300 with a convex structure design; the provision of the avoidance space 133 allows the connection base 130 to be staggered from the bump structure on the photographing device 300 in the portrait mode, as shown in fig. 18.

In this embodiment, the photographing device 300 is any photographing apparatus such as a commercially available camera or video camera, and thus the specific structure of the photographing device 300 will not be described in detail.

When in use, the shooting device 300 is connected with the carrying surface 112 of the quick-mounting plate 110, the first connecting structure 121 or the second connecting structure 122 on the quick-mounting plate seat 120 is connected with the second sliding rail 131 of the connecting seat 130, so that the switching between the horizontal shooting mode and the vertical shooting mode can be realized, and in the whole switching process, only the connecting mode between the quick-mounting plate seat 120 and the connecting seat 130 is required to be changed, no accessory is required to be added or reduced, and the operation is convenient.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (15)

1. The shooting mode switching structure is characterized by comprising a connecting seat (130) and a fast-assembling component for installing a shooting device (300), wherein a first connecting structure (121) and a second connecting structure (122) are arranged on the fast-assembling component; the fast-assembling subassembly can be connected through first connection structure (121) and connecting seat (130) and realize first shooting mode, the fast-assembling subassembly can also be connected through second connection structure (122) and connecting seat (130) and realize the second shooting mode, in first shooting mode carry on face (112) of fast-assembling subassembly with in second shooting mode carry on face (112) of fast-assembling subassembly between form contained angle (a).

2. Shooting mode switching structure according to claim 1, characterized in that the quick assembly comprises a quick plate (110) and a quick plate seat (120) connected with the quick plate (110), the first connection structure (121) and the second connection structure (122) are respectively arranged on different surfaces of the quick plate seat (120); when the quick-mounting plate seat (120) is connected with the connecting seat (130) through the first connecting structure (121), a first shooting mode can be realized; when the quick-mounting plate holder (120) is connected with the connection holder (130) through the second connection structure (122), a second shooting mode can be realized.

3. The shooting mode switching structure according to claim 2, wherein the first connection structure (121) is a first chute provided on a first face of the quick-mounting plate holder (120), the second connection structure (122) is a second chute provided on a second face of the quick-mounting plate holder (120), and an included angle is formed between the first face and the second face of the quick-mounting plate holder (120); a second sliding rail (131) is arranged on the connecting seat (130);

the quick-mounting plate seat (120) and the connecting seat (130) can be connected with the second sliding rail (131) through the first sliding groove or the second sliding rail (131) through the second sliding groove to realize the switching between the first shooting mode and the second shooting mode.

4. Shooting mode switching structure according to claim 2, characterized in that a first locking structure (140) is inserted on the quick-action plate holder (120), and positioning between the quick-action plate holder (120) and the connection holder (130) in the first shooting mode and/or the second shooting mode is achieved by the contact of the first locking structure (140) with the connection holder (130).

5. The shooting mode switching structure according to claim 4, wherein the first locking structure (140) comprises a first pressing block (141) and a first locking member (142), the first pressing block (141) is spliced with the quick-mounting plate seat (120) through the first locking member (142), and a second pressing part (1412) is arranged on the first pressing block (141); when the quick-mounting plate is in the second shooting mode, the first locking piece (142) is operated, so that the second pressing part (1412) passes through the second connecting structure (122) and then contacts and presses the connecting seat (130), and locking between the quick-mounting plate seat (120) and the connecting seat (130) can be achieved.

6. The shooting mode switching structure of claim 5, wherein the first locking structure (140) further comprises a first pressing portion (1411) provided on the first pressing block (141), and when the first shooting mode is performed, the first locking member (142) is operated, so that the first pressing portion (1411) passes through the first connecting structure (121) and then contacts and presses with the connecting seat (130), and locking between the quick-mounting plate seat (120) and the connecting seat (130) can be achieved.

7. The shooting mode switching structure according to claim 5, wherein the first locking structure (140) further comprises a third pressing block (143) and a third locking member (144), and the third pressing block (143) is spliced with the quick-mounting plate seat (120) through the third locking member (144); when the quick-mounting plate is in the first shooting mode, the third locking piece (144) is operated, so that the pressing end of the third pressing block (143) passes through the first connecting structure (121) and then contacts and presses the connecting seat (130), and locking between the quick-mounting plate seat (120) and the connecting seat (130) can be realized.

8. The shooting mode switching structure according to claim 7, wherein a avoidance space (133) for avoiding affecting the installation of the shooting device (300) is provided on the connection base (130).

9. The shooting mode switching structure of claim 8, further comprising a first anti-drop structure (190) provided on the connection base (130), wherein the quick-release plate base (120) is limited by the first anti-drop structure (190) to realize anti-drop.

10. Shooting mode switching structure according to claim 2, characterized in that the quick-action plate (110) is movably connected with the quick-action plate seat (120); the quick mounting surface of the quick mounting plate seat (120) is provided with a third sliding groove (123), the quick mounting plate (110) is provided with a first sliding rail (111), and the third sliding groove (123) is adapted to the first sliding rail (111).

11. Shooting mode switching structure according to claim 10, characterized in that a second locking structure (150) for positioning between the quick-release plate (110) and the quick-release plate seat (120) is provided between them.

12. Shooting mode switching structure according to any one of claims 2 to 11, characterized in that a second anti-drop structure (160) for preventing the quick-release plate (110) is further provided on the quick-release plate seat (120), and the second anti-drop structure (160) is in contact with the quick-release plate (110) to prevent the quick-release plate from dropping under the action of no external force.

13. A pan-tilt comprising a pan-tilt body (200), characterized by further comprising a shooting mode switching structure (100) according to any one of claims 1 to 12, wherein the pan-tilt body (200) is connected to the shooting mode switching structure (100) by a connecting arm (170).

14. The pan-tilt head according to claim 13, wherein the connection base (130) is movably connected with the connection arm (170), and a third locking structure (180) for positioning between the connection base (130) and the connection arm (170) is arranged between the connection base and the connection arm.

15. A shooting system comprising a shooting device (300), characterized in that it further comprises a pan-tilt head according to claim 13 or 14, wherein the shooting device (300) is connected to the pan-tilt head body (200) through a shooting mode switching structure (100).