CN213497139U - Adjusting mechanism for focusing of laser and camera - Google Patents

Abstract

The utility model discloses an adjustment mechanism for laser instrument and camera are focused, including the bottom plate, be equipped with the camera support that is used for installing the camera on the bottom plate, the upper end of camera support is equipped with the regulation support. An arched through hole for accommodating the laser is arranged on the adjusting bracket, and an adjusting gap is reserved between the arched through hole and the laser. Still be equipped with the adjusting part who is used for adjusting the laser instrument angle on adjusting the support, adjusting part includes that an adjusting lever, No. two adjust the pole, No. three adjust pole, regulating spring, and an adjusting lever, No. two adjust the pole and wear to establish on adjusting the support along the horizontal direction symmetry, and its relative one end homoenergetic supports to lean on to the laser instrument. The third adjusting rod penetrates through the adjusting support in the vertical direction, the bottom end of the third adjusting rod can abut against the laser, the adjusting spring is sleeved on the third adjusting rod, one end of the adjusting spring is fixedly connected to the laser, and the other end of the adjusting spring is fixedly connected to the inner wall of the arched through hole. The utility model discloses an adjustment mechanism can realize the quick focusing regulation of laser instrument and camera.

Description

Adjusting mechanism for focusing of laser and camera

Technical Field

The utility model relates to a laser instrument and camera equipment technical field that focuses especially relate to an adjustment mechanism that is used for laser instrument and camera to focus.

Background

The laser focusing adjustment means that a laser point emitted by a laser can appear at the center of a camera image by adjusting the position of the laser, the vertical angle of the laser can be adjusted by a traditional laser adjusting mechanism, and the laser can only be manually adjusted when being deviated to the left side or the right side, so that the laser is inconvenient. Often, about twenty minutes is needed to adjust one laser, and the laser cannot be fixed at the angle after adjustment, so that the angle deviation of the laser may occur again in the working process of the camera, and the final imaging effect is affected.

Disclosure of Invention

In order to overcome the above disadvantages, an object of the present invention is to provide an adjusting mechanism for focusing a laser and a camera, which can realize the fast focusing adjustment of the laser and the camera.

In order to achieve the above purpose, the utility model discloses a technical scheme is: the utility model provides an adjustment mechanism for laser instrument and camera are focused, includes the bottom plate, be equipped with the camera support that is used for installing the camera on the bottom plate, the upper end of camera support is equipped with the regulation support. The adjusting bracket is provided with an arched through hole for accommodating the laser, and an adjusting gap is reserved between the arched through hole and the laser. Still be equipped with the adjusting part who is used for adjusting the laser instrument angle on adjusting the support, adjusting part includes regulation pole, No. two regulation poles, No. three regulation poles, regulating spring, No. one regulation pole, No. two regulation poles wear to establish along the horizontal direction symmetry adjust on the support, its relative one end homoenergetic supports to lean on to the laser instrument. No. three regulation poles wear to establish along vertical direction on adjusting the support, its bottom can support and lean on to the laser instrument, adjusting spring sleeve establishes No. three on adjusting the pole, its one end rigid coupling is in on the laser instrument, the other end rigid coupling is in on the inner wall of arch through-hole.

Further, the upper end of the camera support is provided with a yielding notch communicated with the arched through hole, and the yielding notch is located under the third adjusting rod. The setting of the abdicating notch provides a downward moving space for the third adjusting rod to drive the laser to move downwards.

Further, the laser comprises a laser rear shell located in the arched through hole, one end of the laser rear shell extends out of the arched through hole and is provided with a laser front shell which is coaxial with the arched through hole, and the radial size of the laser front shell is larger than that of the arched through hole. The laser rear shell and the laser front shell with different radial sizes are arranged to limit the placement position of the laser in the arched through hole.

Further, the upper end of the laser back shell is provided with an upper adjusting groove for the third adjusting rod to abut against, and two sides of the laser back shell are respectively provided with a side adjusting groove for the first adjusting rod and the second adjusting rod to abut against.

Furthermore, the upper end and two sides of the adjusting bracket are both provided with threaded through holes communicated with the arched through holes. The first adjusting rod, the second adjusting rod and the third adjusting rod correspond to the thread through holes one to one, and the side walls of the first adjusting rod, the second adjusting rod and the third adjusting rod are provided with external thread structures matched with the thread through holes.

Further, the adjusting bracket is fixedly connected to the camera bracket through a screw.

When the laser is positioned in the arched through hole, the lower end of the laser can abut against the upper end of the camera support due to the self-weight action; when the third adjusting rod is screwed down, the lower end of the third adjusting rod abuts against the upper adjusting groove and moves downwards to drive the rear laser shell to deflect along the vertical direction, so that the front laser shell moves downwards, and at the moment, the adjusting spring is stretched; when the third adjusting rod is unscrewed upwards, the third adjusting rod moves upwards, the adjusting groove moves upwards under the action of the reset of the adjusting spring, and the rear shell of the laser deflects along the vertical direction and drives the front shell of the laser to move upwards until the adjusting spring returns to a natural state; when the first adjusting rod is screwed inwards, one end of the first adjusting rod can abut against the side adjusting groove to move towards the second adjusting rod, so that the rear shell of the laser is driven to deflect along the horizontal direction, and the front shell of the laser moves towards the direction close to the first adjusting rod; when the second adjusting rod is screwed inwards, one end of the second adjusting rod can abut against the side adjusting groove to move towards the first adjusting rod, so that the rear shell of the laser is driven to deflect along the horizontal direction, and the front shell of the laser moves towards the direction close to the second adjusting rod.

The beneficial effects of the utility model reside in that: the left and right adjustment of the laser along the horizontal direction is realized through the arrangement of the first adjusting rod and the second adjusting rod, the up and down adjustment of the laser along the vertical direction is realized through the arrangement of the third adjusting rod and the adjusting spring, and the rapid focusing adjustment of the laser and the camera is further realized; meanwhile, the laser can be fixed at the adjusted position through the matching of the first adjusting rod, the second adjusting rod, the third adjusting rod and the adjusting spring, and the laser is prevented from deviating when the camera works.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the present invention;

fig. 3 is a sectional schematic view of an adjusting bracket according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an adjusting bracket according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a laser according to an embodiment of the present invention.

In the figure:

1-a bottom plate; 2-a camera; 3-a camera support; 31-a yield gap; 4-adjusting the support; 41-arched through holes; 5-a laser; 51-laser back case; 511-upper adjustment tank; 512-side adjustment groove; 52-laser front housing; 61-a regulating rod; 62-adjusting rod II; 63-third adjusting rod; 64-adjusting the spring.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Examples

Referring to fig. 1-4, the utility model discloses an adjustment mechanism for laser instrument is focused with camera, including bottom plate 1, there is camera support 3 that is used for installing camera 2 on the bottom plate 1 through the screw rigid coupling, there is regulation support 4 upper end of camera support 3 through the screw rigid coupling. The lower end of the adjusting bracket 4 is provided with an arched through hole 41 for accommodating the laser 5, and an adjusting gap is reserved between the arched through hole 41 and the laser 5. Still be equipped with the adjusting part who is used for adjusting 5 angles of laser instrument on adjusting support 4, adjusting part includes regulation pole 61, No. two regulation poles 62, No. three regulation poles 63, adjusting spring 64, No. one regulation pole 61, No. two regulation poles 62 wear to establish along the horizontal direction symmetry on adjusting support 4, its relative one end homoenergetic supports and leans on to laser instrument 5. The third adjusting rod 63 penetrates through the adjusting support 4 in the vertical direction, the bottom end of the third adjusting rod can abut against the laser 5, the adjusting spring 64 is sleeved on the third adjusting rod 63, one end of the third adjusting rod is fixedly connected to the laser 5, and the other end of the third adjusting rod is fixedly connected to the inner wall of the arched through hole 41. The upper end of camera support 3 be equipped with the breach of stepping down 31 of arch through-hole 41 intercommunication, the breach of stepping down 31 is located No. three is adjusted the pole 63 under.

The first adjusting rod 61 and the second adjusting rod 62 are arranged to realize left-right adjustment of the laser 5 in the horizontal direction, the third adjusting rod 63 is arranged to drive the laser 5 to move downwards through the abdicating notch 31 to provide a downward moving space, and the third adjusting rod 63 and the adjusting spring 64 are arranged to realize up-down adjustment of the laser 5 in the vertical direction, so that quick focusing adjustment of the laser 5 and the camera 2 is realized; meanwhile, the laser 5 can be fixed at the adjusted position through the matching of the first adjusting rod 61, the second adjusting rod 62, the third adjusting rod 63 and the adjusting spring 64, and the laser is prevented from deviating when the camera 2 works.

In this embodiment, referring to fig. 5, the laser 5 includes a laser rear shell 51 located in the arched through hole 41, one end of the laser rear shell 51 extends out of the arched through hole 41 and is provided with a laser front shell 52 coaxially arranged with the arched through hole 41, and a radial dimension of the laser front shell 52 is larger than a dimension of the arched through hole 41. The laser rear shell 51 and the laser front shell 52 with different radial sizes are arranged to limit the placement position of the laser 5 in the arched through hole 41.

The upper end of the laser rear shell 51 is provided with an upper adjusting groove 511 for the third adjusting rod 63 to abut against, and the groove width of the upper adjusting groove 511 is larger than the radial dimension of the third adjusting rod 63, so that the third adjusting rod 63 can always abut against the inside of the upper adjusting groove 511 when the laser rear shell 51 moves in the horizontal direction. The two sides of the laser rear shell 51 are respectively provided with a side adjusting groove 512 for the first adjusting rod 61 and the second adjusting rod 62 to abut against, the groove width of the side adjusting groove 512 is larger than the radial size of the first adjusting rod 61 and the second adjusting rod 62, so that when the laser rear shell 51 moves in the vertical direction, the first adjusting rod 61 and the second adjusting rod 62 can always abut against the corresponding side adjusting groove 512.

The upper end and two sides of the adjusting bracket 4 are both provided with threaded through holes communicated with the arched through holes 41. The first adjusting rod 61, the second adjusting rod 62 and the third adjusting rod 63 correspond to the thread through holes one by one, and the side walls of the first adjusting rod, the second adjusting rod and the third adjusting rod are provided with external thread structures matched with the thread through holes.

When the laser 5 is positioned in the arched through hole 41, the lower end of the laser 5 can abut against the upper end of the camera bracket 3 due to the self-weight action; when the third adjusting rod 63 is screwed down, the lower end of the third adjusting rod 63 pushes the upper adjusting groove 511 to move down to drive the laser rear shell 51 to deflect along the vertical direction, so that the laser front shell 52 moves down, and at the moment, the adjusting spring 64 is stretched; when the third adjusting rod 63 is unscrewed upwards, the third adjusting rod 63 moves upwards, the upper adjusting groove 511 moves upwards under the action of the reset of the adjusting spring 64, the laser rear shell 51 deflects along the vertical direction and drives the laser front shell 52 to move upwards until the adjusting spring 64 returns to the natural state; when the first adjusting rod 61 is screwed inwards, one end of the first adjusting rod 61 can abut against the side adjusting groove 512 to move towards the second adjusting rod 62, so that the laser rear shell 51 is driven to deflect along the horizontal direction, and the laser front shell 52 moves towards the direction close to the first adjusting rod 61; when the second adjusting rod 62 is screwed inward, one end of the second adjusting rod 62 can abut against the side adjusting groove 512 to move towards the first adjusting rod 61, so as to drive the laser rear shell 51 to deflect along the horizontal direction, and the laser front shell 52 moves towards the direction close to the second adjusting rod 62.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (6)

1. An adjusting mechanism for focusing a laser and a camera comprises a bottom plate, wherein a camera support for mounting the camera is arranged on the bottom plate, and an adjusting support is arranged at the upper end of the camera support; the method is characterized in that: the adjusting bracket is provided with an arched through hole for accommodating the laser, and an adjusting gap is reserved between the arched through hole and the laser; the adjusting bracket is also provided with an adjusting assembly for adjusting the angle of the laser, the adjusting assembly comprises a first adjusting rod, a second adjusting rod, a third adjusting rod and an adjusting spring, the first adjusting rod and the second adjusting rod symmetrically penetrate through the adjusting bracket along the horizontal direction, and the opposite ends of the first adjusting rod and the second adjusting rod can be abutted against the laser; no. three regulation poles wear to establish along vertical direction on adjusting the support, its bottom can support and lean on to the laser instrument, adjusting spring sleeve establishes No. three on adjusting the pole, its one end rigid coupling is in on the laser instrument, the other end rigid coupling is in on the inner wall of arch through-hole.

2. The adjustment mechanism of claim 1, wherein: the upper end of camera support be equipped with the breach of stepping down of arch through-hole intercommunication, the breach of stepping down is located No. three regulation poles under.

3. The adjustment mechanism of claim 2, wherein: the laser comprises a laser rear shell positioned in the arched through hole, one end of the laser rear shell extends out of the arched through hole and is provided with a laser front shell which is coaxially arranged with the arched through hole, and the radial size of the laser front shell is larger than that of the arched through hole.

4. The adjustment mechanism of claim 3, wherein: the upper end of the laser backshell is provided with a groove for the third adjusting rod to abut against, and the two sides of the laser backshell are respectively provided with a side adjusting groove for the first adjusting rod and the second adjusting rod to abut against.

5. The adjustment mechanism of claim 4, wherein: the upper end and two sides of the adjusting bracket are respectively provided with a threaded through hole communicated with the arched through hole; the first adjusting rod, the second adjusting rod and the third adjusting rod correspond to the thread through holes one to one, and the side walls of the first adjusting rod, the second adjusting rod and the third adjusting rod are provided with external thread structures matched with the thread through holes.

6. The adjustment mechanism of any one of claims 1-5, wherein: the adjusting bracket is fixedly connected to the camera bracket through a screw.

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