CN112432042B - Anti-vibration camera bracket and mounting method thereof - Google Patents

Abstract

The invention relates to a camera support. The anti-vibration camera bracket is used for solving the problem that a camera fixed on a moving machine cannot acquire images accurately. The technical scheme is as follows: an anti-vibration camera mount, characterized in that: the support comprises an inner square tube, a mounting plate arranged above the inner square tube, an outer square tube sleeved on the inner square tube in a penetrating manner, a first anti-vibration structure for connecting the outer square tube and the inner square tube, a second anti-vibration structure arranged between the inner square tube and the mounting plate, and a third anti-vibration structure arranged on the outer square tube and used for connecting an external machine body; the outer square pipe comprises an upper square pipe, a middle square pipe and a lower square pipe which are sequentially arranged from top to bottom; the first anti-vibration structure is respectively arranged between the upper square tube, the middle square tube and the inner square tube and between the lower square tube, the middle square tube and the inner square tube.

Description

Anti-vibration camera bracket and mounting method thereof

Technical Field

The invention relates to a camera support, in particular to an anti-vibration camera support and an installation method thereof.

Background

The anti-vibration camera support that designs at present is the anti-shake when being used for the photography and shoot mostly, and the camera support that uses in fields such as agricultural machinery visual navigation, manipulator are picked lacks the design in the aspect of the anti-vibration. Camera stands used in moving machines have high requirements with regard to height, which generally need to be above 1m and adjustable in height. In reality, one square tube is used for direct replacement, but in the mechanical movement process, due to the complex environment (such as agricultural harvesting machinery), strong vibration exists, the vibration direction is variable, the accuracy of the camera for obtaining images is seriously influenced, and the expected shooting effect is difficult to achieve. Therefore, the vibration-resistant camera support applied to the sports machinery, capable of realizing multi-direction vibration resistance, adjustable in height and convenient to overhaul has important application value.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an anti-vibration camera bracket and an installation method thereof, which are used for solving the problem that a camera fixed on a moving machine can not accurately acquire images.

The technical scheme of the invention is as follows:

an anti-vibration camera mount, characterized in that: the support comprises an inner square tube, a mounting plate arranged above the inner square tube, an outer square tube sleeved on the inner square tube in a penetrating manner, a first anti-vibration structure for connecting the outer square tube and the inner square tube, a second anti-vibration structure arranged between the inner square tube and the mounting plate, and a third anti-vibration structure arranged on the outer square tube and used for connecting an external machine body; the outer square pipe comprises an upper square pipe, a middle square pipe and a lower square pipe which are sequentially arranged from top to bottom; the first anti-vibration structure is respectively arranged between the upper square tube, the middle square tube and the inner square tube and between the lower square tube, the middle square tube and the inner square tube.

First anti vibration structure is including arranging four anti vibration modules around the support, every anti vibration module is including being located two outer side between the pipe connecting seat about, the vertical fixation is two outer side pipe side and pass the first double-screw bolt of connecting seat simultaneously, set up between connecting seat and outer side pipe and wear the compression spring of cover on first double-screw bolt, arrange between connecting seat and interior side pipe and install the anti vibration spare in the connecting seat through the connecting axle, mesh with first double-screw bolt so that the anti vibration spare withstands the first nut of interior side pipe.

In each first anti-vibration structure, the anti-vibration parts of two symmetrically arranged anti-vibration modules are rubber rollers, and the anti-vibration parts of the other two symmetrically arranged anti-vibration modules are rubber blocks.

In the upper and lower first anti-vibration structures, the anti-vibration parts of the two anti-vibration modules arranged in the same vertical direction are respectively a rubber square block and a rubber roller.

The second anti-vibration structure comprises a shroud plate fixed at the top end of the inner square tube, a plurality of second studs vertically fixed on the bottom surface of the mounting plate and penetrating through the shroud plate downwards, a second rubber spring arranged between the shroud plate and the mounting plate and sleeved on the second studs in a penetrating manner, and second nuts arranged below the shroud plate and meshed with the second studs.

The third anti-vibration structure comprises a side plate and a clamping strip which are fixed with the lower pipe through a fastener, a plurality of third bolts vertically penetrating through the side plate, third nuts meshed with the third bolts, and third rubber springs sleeved on the third bolts in a penetrating mode and arranged between the side plate and the third nuts.

The first stud and the second stud are studs for welding.

The top end of the upper square tube is provided with a rubber dust cover surrounding the inner square tube.

A method of mounting an anti-vibration camera mount, comprising the steps of:

1) mounting a camera to a mounting plate;

2) adjusting the relative position of the inner square pipe and the outer square pipe, and screwing a first nut on the first anti-vibration structure to enable the anti-vibration piece to be propped against the inner square pipe so as to ensure the optimal anti-vibration state;

3) adjusting the position of the third anti-vibration structure on the outer square pipe, and screwing the fastener to fix the third anti-vibration structure and the outer square pipe so as to ensure that the camera has the optimal view range;

4) and the third anti-vibration structure is arranged on the external machine body by using a third bolt and a third nut, so that the side plate in the third anti-vibration structure is ensured to be parallel to the shell of the external machine body.

The invention has the beneficial effects that:

the invention utilizes the first anti-vibration structure, the second anti-vibration structure and the third anti-vibration structure, can ensure good anti-vibration effect in a plurality of directions, has better and more stable integral anti-vibration effect, long service life and convenient assembly, disassembly and maintenance; the outer square pipe is connected with the inner square pipe through the first anti-vibration structure, and when the anti-vibration piece of the first anti-vibration structure is slightly worn, the position of the anti-vibration piece can be adjusted to ensure that the anti-vibration piece is tightly contacted with the inner square pipe; the inner square tube is axially adjustable, the gravity center position of the whole body can be changed, the anti-vibration strength can be adjusted, the whole height of the support can be adjusted through a third anti-vibration structure, and the camera can achieve the optimal visual field environment; the invention has the advantages of adjustable height, small requirement on installation space and convenient disassembly, assembly and maintenance, and ensures that the camera can shoot stably.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the second embodiment of the present invention.

Fig. 3 is a schematic front view of the present invention.

Fig. 4 is a left side view of the present invention.

Fig. 5 is a schematic sectional view taken along the direction B-B in fig. 4.

Fig. 6 is a schematic sectional view taken along the line a-a in fig. 3.

Fig. 7 is an exploded view of the outer tube and the inner tube according to the present invention.

Fig. 8 is a schematic cross-sectional view taken along the direction C-C in fig. 3.

Fig. 9 is a schematic cross-sectional view taken along the direction D-D in fig. 3.

Fig. 10 is a schematic view of a first anti-vibration structure in the present invention.

Fig. 11 is one of schematic views of an anti-vibration module in the present invention.

Fig. 12 is a second schematic view of the anti-vibration module of the present invention.

Fig. 13 is a schematic view of the connection relationship between the external housing and the third anti-vibration structure according to the present invention.

Detailed Description

In order to make the objects and novel points of the present invention more clear, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the description of the specific embodiments is intended to be illustrative of the invention and is not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "vertical", "up-down", "front-back", "left-right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, an anti-vibration camera stand includes a mounting plate 26, an inner square tube 12, an outer square tube, a first anti-vibration structure E1, a second anti-vibration structure E2, and a third anti-vibration structure E3.

The mounting panel sets up including square pipe top, and the camera is fixed on the mounting panel, through second anti vibration structural connection between interior square pipe and the mounting panel. The utility model discloses a pipe, including last top pipe 10, well square tube 9 and the lower square tube 8 that down arranges in proper order, this three outer square tube still wears to overlap including on the square tube simultaneously, is equipped with first anti vibration structure between upper square tube, well square tube and the interior square tube, also is equipped with first anti vibration structure between lower square tube, well square tube and the interior square tube, is even as an organic whole through first anti vibration structure between three outer square tube and the interior square tube. The third anti-vibration structure is arranged at the bottom end of the lower pipe, and the whole support is connected with an external machine body 30 (such as agricultural harvesting machinery) through the third anti-vibration structure.

The top of upper side pipe is equipped with rubber dust cover 11, thereby the rubber dust cover encloses interior side pipe and blocks up the space between upper side pipe and the interior side pipe, can block foreign matters such as dust to a certain extent and get into the foreign side intraduct, avoids inside rubber spring ageing failure at the excessive speed, increase of service life.

In the second anti-vibration structure, a cover plate 23 is fixed at the top end of an inner square tube, four second studs 24 are vertically fixed on the bottom surface of a mounting plate, the second studs further downwards penetrate through holes (the through holes are omitted in the figure) in the cover plate, a second rubber spring 25 is arranged between the cover plate and the mounting plate and further penetrates through the second studs, and second nuts 22 are arranged below the cover plate and are meshed with the second studs. The second stud is a stud for welding, one end of the stud for welding is fixedly welded with the mounting plate, and the stud for welding can save mounting space so as to accommodate a camera with larger volume. When vibration occurs in the vertical direction, the second rubber spring deforms to consume the vibration energy, so that vibration resistance in the vertical direction is realized.

In the third anti-vibration structure, two horizontally arranged clamping strips 7 are arranged on one side of the lower pipe, a vertically arranged side plate 4 is arranged on the other side of the lower pipe, the side plate and the clamping strips are connected into a whole through a fastener so as to be tightly fixed with the lower pipe, four horizontally arranged third bolts 1 vertically penetrate through holes in the side plate (the through holes are omitted in the drawing), third nuts 3 are meshed with the third bolts, and third rubber springs 2 are arranged between the side plate and the third nuts and are also sleeved on the third bolts in a penetrating mode.

The fastening member includes a fastening bolt 6 penetrating the side plate and the gib and a fastening nut 5 engaged with the fastening bolt, and the side plate and the gib are loosened by rotating the fastening nut, thereby adjusting the height of the bracket. As shown in fig. 13, a third bolt is inserted into the external body 30, and then a third nut is used to lock the third bolt so that the third anti-vibration structure is fixed to the external body, and a third rubber spring is positioned between the external body and the lower tube for dissipating vibration energy and performing a longitudinal anti-vibration function on a horizontal plane.

In the first anti-vibration structure, the upper square pipe and the middle square pipe and the lower square pipe and the middle square pipe are fixed up and down through the first anti-vibration structure respectively, and the two first anti-vibration structures prop the inner square pipe inwards from the periphery.

As shown in fig. 10, the first anti-vibration structure includes four anti-vibration modules arranged around the support. As shown in fig. 11 and 12, each anti-vibration module includes a connection seat 15, a first stud 13, a compression spring 16, a first nut 14, and an anti-vibration member. The first screw bolt vertical fixation that the level was arranged is in the side of outside square pipe, and the connecting seat setting is between two upper and lower outside square pipes, and the connecting seat is passed to the first screw bolt level on two upper and lower outside square pipes, and compression spring arranges between connecting seat and outside square pipe and wears the cover on first screw bolt, and first nut and first screw bolt meshing make connecting seat and two upper and lower outside square pipe fixed as an organic whole. The anti-vibration piece is arranged between the connecting seat and the inner square tube, the connecting shaft 20 which is horizontally arranged penetrates through the center of the anti-vibration piece, two ends of the connecting shaft are fixed with the connecting seat by using split retaining rings (omitted in the figure), and the connecting shaft on the same connecting seat is vertically arranged with the first stud. The third stud is a stud for welding, one end of the stud for welding is fixedly welded with the outer square pipe, and the stud for welding can meet the installation requirement in a small space.

The anti-vibration component adopts the rubber roller 17 or the rubber square block 21, and because the anti-vibration component is tightly propped against the inner square pipe, when longitudinal and transverse vibration on a horizontal plane is generated, the rubber roller and the rubber square block are compressed and deformed to consume vibration energy.

For a first anti-vibration structure connecting the upper square pipe and the middle square pipe, the first studs are respectively arranged at the bottom end of the upper square pipe and the top end of the middle square pipe, the anti-vibration parts of the two symmetrically-arranged anti-vibration modules are rubber rollers, and the anti-vibration parts of the other two symmetrically-arranged anti-vibration modules are rubber square blocks. For the first anti-vibration structure for connecting the lower pipe and the middle pipe, the first studs are respectively arranged at the bottom end of the middle pipe and the top end of the lower pipe, the anti-vibration parts of the two symmetrically-arranged anti-vibration modules are rubber square blocks, and the anti-vibration parts of the other two symmetrically-arranged anti-vibration modules are rubber rollers. For the upper and lower first anti-vibration structures, the anti-vibration parts of the two anti-vibration modules arranged in the same vertical direction are respectively a rubber square block and a rubber roller.

The connecting seat is a structure shaped like a Chinese character 'ji', and 1mm of adjustment allowance is reserved between the connecting seat and the upper and lower outer square pipes. When slight wearing and tearing appear in rubber drum and rubber square, the accessible is screwed up first nut and is made the connecting seat inwards move, guarantees the inseparable laminating of rubber drum, rubber square and interior side's pipe, can also change when rubber drum, rubber square seriously wear and tear.

The anti-vibration piece realizes the relative fixation of the inner square tube and the outer square tube by means of friction force, and the axial position of the inner square tube can be adjusted when the first nut is loosened. In general, assume the length L of the inner square tube₁Is 890mm, and the length L of the three outer square tubes (including the rubber dustproof cover)₂Is 900mm, the length L of the lower tube₃400mm, the length of the overlapping area of the inner and outer square tubes is Δ L, since it is necessary to ensure that the two first anti-vibration structures clamp the inner square tube, therefore:

△L_min＝L₁-L₃+(L₂-L₁)，△L_max＝L₁，

calculated as DeltaL_min＝500mm，△L_max890mm and adjustable range of DeltaL_max-△L_min390 mm. At a different placeWhen the environment moves, the vibration is different, and the gravity center of the variable support can be adjusted by adjusting the relative position of the inner square tube, so that the vibration resistance is changed.

A method of mounting an anti-vibration camera mount, comprising the steps of:

1) mounting a camera to a mounting plate;

2) adjusting the relative position of the inner square pipe and the outer square pipe according to the use environment of the camera, and screwing a first nut on the first anti-vibration structure to enable the anti-vibration piece to abut against the inner square pipe so as to fix the outer square pipe and the inner square pipe into a whole, so as to ensure the optimal anti-vibration state;

3) adjusting the position of the third anti-vibration structure on the lower pipe, and screwing the fastener to fix the third anti-vibration structure and the lower pipe so as to ensure the optimal view range of the camera;

4) and the third anti-vibration structure is arranged on the external machine body by using a third bolt and a third nut, so that a side plate in the third anti-vibration structure is ensured to be parallel to the shell of the external machine body, the third bolt is inserted into the external machine body, and the shell of the external machine body is clamped by the third nut and a third rubber spring from two sides.

The anti-vibration camera support resists vibration in all directions through the three anti-vibration structures, and the camera can accurately capture pictures.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the spirit and scope of the present disclosure, and these changes and modifications are intended to be within the scope of the present disclosure.

Claims (8)

1. An anti-vibration camera mount, characterized in that: the support comprises an inner square tube (12), a mounting plate (26) arranged above the inner square tube, an outer square tube sleeved on the inner square tube in a penetrating manner, a first anti-vibration structure (E1) for connecting the outer square tube and the inner square tube, a second anti-vibration structure (E2) arranged between the inner square tube and the mounting plate, and a third anti-vibration structure (E3) arranged on the outer square tube and used for connecting an external machine body; the outer square pipe comprises an upper square pipe (10), a middle square pipe (9) and a lower square pipe (8) which are sequentially arranged from top to bottom; the first anti-vibration structures are respectively arranged among the upper square tube, the middle square tube and the inner square tube and among the lower square tube, the middle square tube and the inner square tube;

first anti vibration structure is including arranging four anti vibration modules around the support, every anti vibration module is including connecting seat (15) between two outer side pipes about being located, vertical fixation is two outer side pipe sides about and pass first double-screw bolt (13) of connecting seat simultaneously, set up between connecting seat and outer side pipe and wear compression spring (16) of cover on first double-screw bolt, arrange between connecting seat and interior side pipe and install the anti vibration spare in the connecting seat through connecting axle (20), with first double-screw bolt meshing so that anti vibration spare withstands first nut (14) of interior side pipe.

2. An anti-vibration camera mount as claimed in claim 1, wherein: in each first anti-vibration structure, the anti-vibration pieces of two symmetrically arranged anti-vibration modules are rubber drums (17), and the anti-vibration pieces of the other two symmetrically arranged anti-vibration modules are rubber blocks (21).

3. An anti-vibration camera mount according to claim 2, wherein: in the upper and lower first anti-vibration structures, the anti-vibration parts of the two anti-vibration modules arranged in the same vertical direction are respectively a rubber square block and a rubber roller.

4. An anti-vibration camera mount according to claim 3, wherein: the second anti-vibration structure comprises a shroud plate (23) fixed at the top end of the inner square tube, a plurality of second studs (24) vertically fixed on the bottom surface of the mounting plate and penetrating through the shroud plate downwards, second rubber springs (25) arranged between the shroud plate and the mounting plate and sleeved on the second studs in a penetrating mode, and second nuts (22) arranged below the shroud plate and meshed with the second studs.

5. An anti-vibration camera mount according to claim 4, wherein: the third anti-vibration structure comprises a side plate (4) and a clamping strip (7) which are fixed with the lower pipe through a fastener, a plurality of third bolts (1) which vertically penetrate through the side plate, third nuts (3) which are meshed with the third bolts, and third rubber springs (2) which are sleeved on the third bolts and arranged between the side plate and the third nuts.

6. An anti-vibration camera mount according to claim 5, wherein: the first stud and the second stud are welding studs.

7. An anti-vibration camera mount according to claim 6, wherein: the top end of the upper square tube is provided with a rubber dust cover (11) which surrounds the inner square tube.

8. An anti-vibration camera mount mounting method of claim 7, comprising the steps of:

1) mounting a camera to a mounting plate;

2) adjusting the relative position of the inner square pipe and the outer square pipe, and screwing a first nut on the first anti-vibration structure to enable the anti-vibration piece to be propped against the inner square pipe so as to ensure the optimal anti-vibration state;

3) adjusting the position of the third anti-vibration structure on the outer square pipe, and screwing the fastener to fix the third anti-vibration structure and the outer square pipe so as to ensure that the camera has the optimal view range;

4) and the third anti-vibration structure is arranged on the external machine body by using a third bolt and a third nut, so that the side plate in the third anti-vibration structure is ensured to be parallel to the shell of the external machine body.

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