CN215000422U

CN215000422U - Camera pan-tilt adjusting structure

Info

Publication number: CN215000422U
Application number: CN202120952370.0U
Authority: CN
Inventors: 陈汉良
Original assignee: Artop Design Group Co ltd
Current assignee: Artop Design Group Co ltd
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2021-12-03
Anticipated expiration: 2031-05-07

Abstract

The utility model relates to a camera cloud platform adjustment structure, its difference lies in: the device comprises a rotary base, a pull rod and a holder which are detachably connected in sequence; the rotary base is provided with a horizontal guide cavity and a vertical guide cavity which are vertically crossed, and a rotary base assembling hole which is positioned on the inclined plane of the horizontal guide cavity and the vertical guide cavity; the pull rod can penetrate through the rotating base assembly hole and be inserted into the horizontal guide cavity or penetrate through the rotating base assembly hole and be inserted into the vertical guide cavity, and the pull rod can move in the horizontal guide cavity or the vertical guide cavity; the rotary base further comprises a fixing piece used for fixing the rotary base and the pull rod. The utility model discloses can adjust the height and the extension length of camera cloud platform fast effectively, convenient to use.

Description

Camera pan-tilt adjusting structure

Technical Field

The utility model relates to a camera pan-tilt structure, especially a camera pan-tilt adjustment structure.

Background

Professional cameras often need to be matched with a tripod and a camera tripod head for use, so that shooting is facilitated, and shot pictures are more stable. However, the existing camera tripod head is basically formed by one or two universal shafts, and if the height of the camera tripod head needs to be adjusted, the height of the camera tripod head can not be adjusted by other methods except for adjusting the height of the tripod.

Disclosure of Invention

An object of the utility model is to overcome prior art's shortcoming, provide a camera cloud platform adjustment structure, can adjust the height and the length of stretching out of camera cloud platform, convenient to use fast effectively.

For solving the above technical problem, the technical scheme of the utility model is that: the utility model provides a camera cloud platform adjusts structure which the difference lies in: the device comprises a rotary base, a pull rod and a holder which are detachably connected in sequence; the rotary base is provided with a horizontal guide cavity and a vertical guide cavity which are vertically crossed, and a rotary base assembling hole which is positioned on the inclined plane of the horizontal guide cavity and the vertical guide cavity; the pull rod can penetrate through the rotating base assembly hole and be inserted into the horizontal guide cavity or penetrate through the rotating base assembly hole and be inserted into the vertical guide cavity, and the pull rod can move in the horizontal guide cavity or the vertical guide cavity; the rotary base further comprises a fixing piece used for fixing the rotary base and the pull rod.

According to above technical scheme, it still includes the rotation axis that is used for connecting pull rod and rotating base, the rotation axis can the rotating base internal rotation, the pull rod can the rotation axis internal rotation, seted up on the rotation axis with the pull rod cooperation and with the rotation axis pilot hole that the rotating base pilot hole was aimed at, the mounting includes rotation axis fastening screw and pull rod fastening screw, rotation axis fastening screw is used for fastening the rotation axis with rotating base, pull rod fastening screw is used for fastening pull rod and rotation axis.

According to the technical scheme, the rotating shaft can rotate in the rotating base to the rotating shaft assembling hole and the horizontal guide cavity are coaxial, so that the pull rod sequentially penetrates through the rotating shaft assembling hole and the rotating base assembling hole to be inserted into the horizontal guide cavity; or the pull rod rotates to the rotating shaft assembling hole and the vertical guide cavity are coaxial, so that the pull rod sequentially penetrates through the rotating shaft assembling hole and the rotating base assembling hole and is inserted into the vertical guide cavity.

According to the technical scheme, the rotating base is provided with a rotating base rotating cavity matched with the rotating shaft, the end part of the rotating shaft is provided with a first convex disc matched with the rotating base rotating cavity and limited in the rotating base rotating cavity, and the rotating base and the first convex disc are fastened through the rotating shaft fastening screw.

According to the technical scheme, the rotating base is provided with a rotating base sinking platform hole, the rotating base further comprises a rotating base cover body detachably covered on the rotating base sinking platform hole, the rotating base cover body and the rotating base sinking platform hole are enclosed to form a rotating cavity of the rotating base, and a yielding hole suitable for the rotating shaft to penetrate is formed in the rotating base cover body.

According to above technical scheme, it still including can be respectively for pull rod and the rotatory connecting axle of cloud platform, seted up on the connecting axle with pull rod complex connecting axle pilot hole, the connecting axle with the pull rod passes through connecting axle fastening screw fastening, cloud platform and connecting axle pass through cloud platform fastening screw fastening.

According to above technical scheme, seted up on the cloud platform with the rotatory chamber of connecting axle complex cloud platform, the tip of connecting axle be formed with the cooperation of the rotatory chamber of cloud platform and limited in the second protruding dish in the rotatory intracavity of cloud platform, the cloud platform with the second protruding dish passes through the fastening of cloud platform fastening screw.

According to the technical scheme, the cradle head sink hole is formed in the cradle head, the cradle head further comprises a cradle head cover body detachably covered on the cradle head sink hole, the cradle head cover body and the cradle head sink hole are enclosed to form the cradle head rotating cavity, and the cradle head cover body is provided with a yielding hole suitable for the connecting shaft to penetrate.

According to the technical scheme, the rotary base comprises a tripod main body, wherein the rotary base can rotate relative to the tripod main body and is fastened with the tripod main body through a rotary base fastening screw.

Contrast prior art, the beneficial characteristics of the utility model are that: according to the camera pan-tilt adjusting structure, when the pull rod penetrates through the rotating base assembling hole and is inserted into the horizontal guide cavity, the extension length of the camera pan-tilt can be adjusted by moving the pull rod; when the pull rod penetrates through the assembly hole of the rotating base and is inserted into the vertical guide cavity, the height of the camera holder can be adjusted by moving the pull rod; the height of the camera cloud platform can be quickly and effectively adjusted, and the extension length of the camera cloud platform can be quickly and effectively adjusted; after the adjustment is in place, the rotating base and the pull rod are fixed through the fixing piece, and the use is convenient.

Drawings

Fig. 1 is an exploded view of a camera pan/tilt adjustment structure according to an embodiment of the present invention in a use state;

FIG. 2 is a perspective view of the state shown in FIG. 1;

FIG. 3 is a schematic view of the state structure shown in FIG. 1;

FIG. 4 is a right side view of FIG. 3;

FIG. 5 is a top view of FIG. 3;

FIG. 6 is a partial cross-sectional structural view of FIG. 3;

FIG. 7 is an enlarged view of the detail A of FIG. 6;

fig. 8 is a perspective view of another usage status of the camera pan/tilt adjustment structure according to the embodiment of the present invention;

FIG. 9 is a schematic view of the state structure shown in FIG. 8;

FIG. 10 is a right side view of FIG. 9;

FIG. 11 is a top view of FIG. 9;

FIG. 12 is a partial cross-sectional structural view of FIG. 9;

FIG. 13 is an enlarged view of the detail B of FIG. 12;

wherein: 1-rotating base (101-horizontal guide cavity, 102-vertical guide cavity, 103-base assembly hole, 104-rotating base counter sink hole, 105-rotating base cover body (1051-abdicating hole)), 2-pull rod, 3-pan head (301-pan head counter sink hole, 302-pan head cover body (3021-abdicating hole)), 4-rotating shaft (401-rotating shaft assembly hole, 402-threaded hole, 403-first convex disc, 404-threaded hole), 5-rotating shaft fastening screw, 6-pull rod fastening screw, 7-fixing screw, 8-connecting shaft (801-connecting shaft assembly hole, 802-threaded hole, 803-second convex disc, 804-threaded hole), 9-connecting shaft fastening screw, 10-pan head fastening screw, 11-set screw, 12-tripod body (1201-body fitting hole, 1202-threaded hole), 13-swivel base fastening screw.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 13, a camera pan-tilt adjusting structure according to an embodiment of the present invention includes a rotating base 1, a pull rod 2, a pan-tilt 3, and a fixing member. Rotating base 1, pull rod 2 and cloud platform 3 can dismantle the connection in proper order, and rotating base 1 and pull rod 2 pass through the mounting fixed. The rotating base 1 is provided with a horizontal guide cavity 101, a vertical guide cavity 102 and a rotating base assembly hole 103, the axis of the horizontal guide cavity 101 is horizontal, the axis of the vertical guide cavity 102 is vertical, and the rotating base assembly hole 103 is located on the inclined plane of the horizontal guide cavity 101 and the vertical guide cavity 102. The draw bar 2 can be inserted into the horizontal guide chamber 101 through the rotating base fitting hole 103 or into the vertical guide chamber 102 through the rotating base fitting hole 103. When the pull rod 2 passes through the assembly hole 103 of the rotating base and is inserted into the horizontal guide cavity 101, the pull rod 2 can be moved horizontally by taking down the fixing member, the extension length of the camera pan-tilt 3 is adjusted, and the pull rod 2 and the rotating base 1 can be fastened by installing the fixing member after the adjustment is completed, please refer to fig. 1 to 7. When the pull rod 2 passes through the rotating base assembling hole 103 and is inserted into the vertical guide cavity 102, the fixing member is removed, the pull rod 2 can be vertically moved, the height of the camera pan-tilt 3 is adjusted, and the fixing member is installed after the adjustment is completed, so that the pull rod 2 and the rotating base 1 can be fastened, please refer to fig. 8 to 13.

Preferably, the rotary shaft 4 is further included, the rotary shaft 4 is used for connecting the pull rod 2 and the rotary base 1, the rotary shaft 4 can rotate in the rotary base 1, the pull rod 2 can rotate in the rotary shaft 4, a rotary shaft assembly hole 401 is formed in the rotary shaft 4, the rotary shaft assembly hole 401 is matched with the pull rod 2 and aligned with the rotary base assembly hole 103, the fixing part includes a rotary shaft fastening screw 5 and a pull rod fastening screw 6, the rotary shaft fastening screw 5 is used for fastening the rotary shaft 4 and the rotary base 1, and the pull rod fastening screw 6 is used for fastening the pull rod 2 and the rotary shaft 4. The rotating shaft 4 is provided with a threaded hole 402 matched with the pull rod fastening screw 6, the pull rod fastening screw 6 can be screwed into the threaded hole 402 until the end of the pull rod fastening screw 6 abuts against the pull rod 2 and cannot be screwed continuously, and at this time, the rotating shaft 4 and the pull rod 2 are in a fastening state, please refer to fig. 7 and 13. Specifically, referring to fig. 1 to 7, the rotary shaft 4 may be rotated within the rotary base 1 until the rotary shaft assembly hole 401 is coaxial with the horizontal guide cavity 101, so that the draw bar 2 is inserted into the horizontal guide cavity 101 through the rotary shaft assembly hole 401 and the rotary base assembly hole 103 in sequence. Referring to fig. 8 to 13, the rotary shaft 4 may also be rotated within the rotary base 1 until the rotary shaft assembly hole 401 is coaxial with the vertical guide cavity 102, so that the draw bar 2 is inserted into the vertical guide cavity 102 through the rotary shaft assembly hole 401 and the rotary base assembly hole 103 in sequence.

More preferably, in order to fix the rotating base 1 and the rotating shaft 4, a rotating base rotating cavity matched with the rotating shaft 4 is formed on the rotating base 1, a first convex disc 403 is formed at an end of the rotating shaft 4, the first convex disc 403 is matched with the rotating base rotating cavity and is limited in the rotating base rotating cavity, and the rotating base 1 and the first convex disc 403 are fastened by a rotating shaft fastening screw 5. Specifically, in order to facilitate the assembly and disassembly of the rotating base 1 and the rotating shaft 4, a rotating base countertop hole 104 is opened on the rotating base 1, the rotating base 1 further has a rotating base cover 105, the rotating base cover 105 is configured in a ring shape, the rotating base cover 105 and the rotating base 1 are fixed by fixing screws 7, and the fixing screws 7 are distributed at a plurality of uniform intervals. The rotating base cover 105 is detachably covered on the rotating base platform-sinking hole 104, the rotating base cover 105 and the rotating base platform-sinking hole 104 enclose a rotating base rotating cavity, and an opening in the middle of the rotating base cover 105 is configured as a yielding hole 1051 suitable for the rotating shaft 4 to pass through. Referring to fig. 7 and 13, the first flange 403 is provided with a threaded hole 404 engaged with the rotating shaft fastening screw 5, and after the rotating base cover 105 and the rotating base 1 are fixed by the fixing screw 7, the rotating shaft fastening screw 5 can be screwed into the threaded hole 404 until the end of the rotating shaft fastening screw 5 abuts against the rotating base 1 and cannot be screwed further, and at this time, the rotating shaft 4 and the rotating base 1 are in a fastened state.

Preferably, the cradle head further comprises a connecting shaft 8 capable of rotating relative to the pull rod 2 and the cradle head 3 respectively, a connecting shaft assembling hole 801 is formed in the connecting shaft 8, the connecting shaft assembling hole 801 is matched with the pull rod 2, the connecting shaft 8 and the pull rod 2 are fastened through a connecting shaft fastening screw 9, and the cradle head 3 and the connecting shaft 8 are fastened through a cradle head fastening screw 10. The connecting shaft 8 is provided with a threaded hole 802 matched with the connecting shaft fastening screw 9, the connecting shaft fastening screw 9 can be screwed into the threaded hole 802 until the end part of the connecting shaft fastening screw 9 is tightly abutted against the pull rod 2 and cannot be screwed continuously, and at the moment, the pull rod 2 and the connecting shaft 8 are in a fastening state. More preferably, in order to fix the cradle head 3 and the connecting shaft 8, a cradle head rotating cavity is formed in the cradle head 3, the cradle head rotating cavity is matched with the connecting shaft 8, a second convex disc 803 is formed at the end of the connecting shaft 8, the second convex disc 803 is matched with the cradle head rotating cavity and limited in the cradle head rotating cavity, the cradle head 3 and the second convex disc 803 are fastened through a cradle head fastening screw 10, a threaded hole 804 is formed in the second convex disc 803, and the threaded hole 804 is matched with the cradle head fastening screw 10. In order to facilitate the mounting and dismounting of the pan/tilt head 3 and the connecting shaft 8, a pan/tilt head platform sinking hole 301 is formed in the pan/tilt head 3, the pan/tilt head 3 further comprises a pan/tilt head cover body 302, the pan/tilt head cover body 302 and the pan/tilt head 3 are fixed through a fixing screw 11, and the fixing screw 11 is distributed at a plurality of uniform intervals. The holder cover 302 detachably covers the holder platform hole 301, the holder cover 302 and the holder platform hole 301 enclose a holder rotation cavity, and the opening in the middle of the holder cover 302 is configured to be a yielding hole 3021 through which the connecting shaft 8 passes.

Preferably, it further includes a tripod body 12, and the swivel base 1 is rotatable with respect to the tripod body 12 and is fastened with the tripod body 12 by a swivel base fastening screw 13. The tripod main body 12 is provided with a main body assembling hole 1201, the main body assembling hole 1201 is matched with the rotating base 1, the tripod main body 12 is provided with a threaded hole 1202, the threaded hole 1202 is matched with the rotating base fastening screw 13, the rotating base fastening screw 13 can be screwed into the threaded hole 1202 until the end part of the rotating base fastening screw 13 is tightly abutted against the rotating base 1, and the rotating base 1 and the tripod main body 12 are in a fastening state.

The embodiment of the utility model provides an in spare part all through the screw fixation fastening, be convenient for load and unload, rotatory and adjust the height and the extension length of camera cloud platform.

The embodiment of the utility model provides a concrete adjustment method does: the rotating base 1 can rotate relative to the tripod body 12 in the tripod body 12 by loosening the rotating base fastening screw 13, and the rotating base 1 and the tripod body 12 can be fastened by screwing the rotating base fastening screw 13 after rotating to the right position. Under the condition that the pull rod 2 does not penetrate through the rotating shaft 4 and does not extend into the rotating base 1, the rotating shaft 4 can rotate relative to the rotating base 1 in the rotating base 1 by loosening the rotating shaft fastening screw 5; under the condition that the pull rod 2 penetrates through the rotating shaft 4 and extends into the rotating base 1, the rotating shaft fastening screw 5 is loosened, the rotating shaft 4 can be taken down from the rotating base 1, the arrangement mode of the rotating shaft 4 is adjusted, as shown in fig. 1 to 7, the rotating shaft assembly hole 401 can be coaxial with the horizontal guide cavity 101, or the rotating shaft assembly hole 401 can be coaxial with the vertical guide cavity 102, as shown in fig. 8 to 13, after the rotating shaft fastening screw 5 is screwed in place, the rotating shaft 4 and the rotating base 1 can be fastened. The pull rod 2 is rotated in the rotary shaft 4 with respect to the rotary shaft 4 by loosening the pull rod fastening screw 6, and the pull rod 2 is inserted and removed. When the pull rod 2 is in the state shown in fig. 1 to 7, the pull rod 2 is pulled out to the right or inserted into the left, and the extension length of the camera pan/tilt head 3 is adjusted. When the stick 2 is in the state shown in fig. 8 to 13, the stick 2 is pulled out upward or inserted downward, and the height of the camera pan/tilt head 3 is adjusted. After the adjustment is in place, the pull rod 2 and the rotating shaft 4 can be fastened by screwing the pull rod fastening screw 6. The connecting shaft 8 can rotate relative to the pull rod 2 by loosening the connecting shaft fastening screw 9, and the connecting shaft 8 and the pull rod 2 can be fastened by screwing the connecting shaft fastening screw 9 after the connecting shaft fastening screw 9 rotates to the position. Loosening the tripod head fastening screw 10 can make the tripod head 3 rotate relative to the connecting shaft 8, and after the tripod head fastening screw 10 is screwed down after the tripod head fastening screw 10 rotates to the proper position, the connecting shaft 8 and the tripod head 3 can be fastened.

The above description is made for further details of the present invention with reference to specific embodiments, and it should not be understood that the embodiments of the present invention are limited to these descriptions, and it is obvious to those skilled in the art that the present invention belongs to the technical field, and a plurality of simple deductions or replacements can be made without departing from the concept of the present invention, and all should be considered as belonging to the protection scope of the present invention.

Claims

1. The utility model provides a camera cloud platform adjustment structure which characterized in that: the device comprises a rotary base, a pull rod and a holder which are detachably connected in sequence; the rotary base is provided with a horizontal guide cavity and a vertical guide cavity which are vertically crossed, and a rotary base assembling hole which is positioned on the inclined plane of the horizontal guide cavity and the vertical guide cavity; the pull rod can penetrate through the rotating base assembly hole and be inserted into the horizontal guide cavity or penetrate through the rotating base assembly hole and be inserted into the vertical guide cavity, and the pull rod can move in the horizontal guide cavity or the vertical guide cavity; the rotary base further comprises a fixing piece used for fixing the rotary base and the pull rod.

2. The camera pan/tilt adjustment structure of claim 1, wherein: the rotating shaft is used for connecting the pull rod and the rotating base, the rotating shaft can rotate in the rotating base, the pull rod can rotate in the rotating shaft, a rotating shaft assembling hole matched with the pull rod and aligned with the rotating base assembling hole is formed in the rotating shaft, the fixing piece comprises a rotating shaft fastening screw and a pull rod fastening screw, the rotating shaft fastening screw is used for fastening the rotating shaft and the rotating base, and the pull rod fastening screw is used for fastening the pull rod and the rotating shaft.

3. The camera pan/tilt adjustment structure of claim 2, wherein: the rotating shaft can rotate in the rotating base until the rotating shaft assembling hole is coaxial with the horizontal guide cavity, so that the pull rod sequentially passes through the rotating shaft assembling hole and the rotating base assembling hole to be inserted into the horizontal guide cavity; or the pull rod rotates to the rotating shaft assembling hole and the vertical guide cavity are coaxial, so that the pull rod sequentially penetrates through the rotating shaft assembling hole and the rotating base assembling hole and is inserted into the vertical guide cavity.

4. The camera pan/tilt adjustment structure of claim 2, wherein: the rotating base is provided with a rotating base rotating cavity matched with the rotating shaft, a first convex disc matched with the rotating base rotating cavity and limited in the rotating base rotating cavity is formed at the end part of the rotating shaft, and the rotating base and the first convex disc are fastened through the rotating shaft fastening screw.

5. The camera pan/tilt adjustment structure of claim 4, wherein: the rotary base is provided with a rotary base sinking platform hole, the rotary base further comprises a rotary base cover body detachably covered on the rotary base sinking platform hole, the rotary base cover body and the rotary base sinking platform hole are enclosed to form a rotary cavity of the rotary base, and the rotary base cover body is provided with a abdicating hole suitable for the rotary shaft to pass through.

6. The camera pan/tilt adjustment structure of claim 1, wherein: the cradle head is characterized by further comprising a connecting shaft which can rotate relative to the pull rod and the cradle head respectively, a connecting shaft assembling hole matched with the pull rod is formed in the connecting shaft, the connecting shaft and the pull rod are fastened through a connecting shaft fastening screw, and the cradle head and the connecting shaft are fastened through a cradle head fastening screw.

7. The camera pan/tilt adjustment structure of claim 6, wherein: the cloud platform seted up with connecting axle complex cloud platform rotation chamber, the tip of connecting axle be formed with the cooperation of cloud platform rotation chamber and restricted in the second protruding dish of cloud platform rotation intracavity, the cloud platform with the second protruding dish passes through the fastening of cloud platform fastening screw.

8. The camera pan/tilt adjustment structure of claim 7, wherein: the cradle head is provided with a cradle head sink hole, the cradle head further comprises a cradle head cover body detachably covered on the cradle head sink hole, the cradle head cover body and the cradle head sink hole are enclosed into a cradle head rotating cavity, and the cradle head cover body is provided with a yielding hole suitable for the connecting shaft to pass through.

9. The camera pan/tilt adjustment structure of claim 1, wherein: the rotary base can rotate relative to the tripod body and is fastened with the tripod body through a rotary base fastening screw.