CN210979024U - Camera adjusting device and optical detection equipment - Google Patents

Abstract

The utility model discloses a camera adjusting device and optical detection equipment, including the camera module, still include: the camera module comprises a Y-direction locking mechanism, an X-direction locking mechanism and a Z-direction locking mechanism, wherein the Y-direction locking mechanism is used for adjusting the position of the camera module in the Y direction; the X-direction locking mechanism is connected with the Y-direction locking mechanism and used for adjusting the position of the camera module in the X direction; the Z-direction locking mechanism is connected with the X-direction locking mechanism and used for adjusting the position of the camera module in the Z direction; the Y-direction locking mechanism, the X-direction locking mechanism and the Z-direction locking mechanism are all sliding locking mechanisms, and the X direction and the Z direction in the Y direction are in the same plane. The camera adjusting device and the optical detection equipment can quickly adjust the side-looking camera and accurately align the center of the side-looking camera to the center of the liquid crystal panel, and greatly improve the efficiency of manually adjusting the side-looking camera and the accuracy of aligning the center of the side-looking camera to the center of the liquid crystal panel.

Description

Camera adjusting device and optical detection equipment

Technical Field

The utility model relates to an optical detection technical field especially involves a camera adjusting device and optical detection equipment who contains it.

Background

With the rapid development of display screen technology, high-density products have gradually become a new favorite in the market, the fine and vivid display effect makes customers favor the display screen, the market competition of the display screen is extremely intense at present, the quality requirements of the display screen for the users are continuously improved, so that manufacturers of the display screens are forced to strictly control each link of production, and the defects of factory-produced display screen scratch, bright spots and the like are required to be paid particular attention while the quality of the display screen is ensured.

Generally, after the display screen is manufactured, a screen inspection worker needs to adopt a manual operation mode to detect the display screen, the method is labor intensity, and the long-time detection can cause worker fatigue, so that the detected result has huge difference, and the quality of a product is difficult to ensure. In addition, the manual detection is difficult to carry out effective statistics on the detection result, and analysis, optimization and transformation of a later-stage production process are inconvenient.

At present, in the liquid crystal display panel testing process, the mode that adopts the camera of looking sideways at the cooperation front view camera to detect, fixed front view camera is got for instance the detection to liquid crystal display panel immediately over liquid crystal display panel promptly, and the camera of looking sideways at the side top of liquid crystal display panel is fixed, then cooperates the front view camera to detect liquid crystal display panel. Generally will look sideways at camera and slip table module and fix on the section bar, the working distance that the section bar was fixed on the sheet metal component and was adjusted and look sideways at the angle, because the fit clearance of section bar inside groove and screw is great, the deviation appears easily during the regulation, lead to looking sideways at the center of camera and hardly aim at liquid crystal display panel's center, look sideways at the camera to manual regulation and cause very big difficulty and waste more time in the work of adjusting and looking sideways at the camera.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a camera adjusting device and an optical detection apparatus, which are used to overcome the above problems in the prior art.

This application provides a camera adjusting device in one aspect, including the camera module, its characterized in that still includes: a Y-direction locking mechanism, an X-direction locking mechanism and a Z-direction locking mechanism, wherein,

the Y-direction locking mechanism is used for adjusting the position of the camera module in the Y direction;

the X-direction locking mechanism is connected with the Y-direction locking mechanism and used for adjusting the position of the camera module in the X direction;

the Z-direction locking mechanism is connected with the X-direction locking mechanism and used for adjusting the position of the camera module in the Z direction;

the Y-direction locking mechanism, the X-direction locking mechanism and the Z-direction locking mechanism are all sliding locking mechanisms, and the Y direction, the X direction and the Z direction are in the same plane.

Optionally, the Y direction is perpendicular to the X direction, the Z direction has an angle θ with the Y direction, θ is greater than or equal to 0 ° and less than or equal to 90 °.

Optionally, at least one of the Y-direction locking mechanism, the X-direction locking mechanism, and the Z-direction locking mechanism is a biaxial linear guide rail.

Optionally, the Y-direction locking mechanism includes two symmetrically arranged Y-direction double-axis linear guide rails.

Optionally, the X-direction locking mechanism includes two X-direction double-axis linear guide rails symmetrically arranged, and each X-direction double-axis linear guide rail is connected to one Y-direction double-axis linear guide rail through a Y-direction slider connecting plate and an X-direction connecting fixing plate.

Optionally, the sliders of the two symmetrically arranged X-direction double-axis linear guide rails are fixedly connected through an X-direction slider connecting plate.

Optionally, the locking mechanism further comprises an angle adjusting mechanism, and the angle adjusting mechanism is arranged between the X-direction locking mechanism and the Z-direction locking mechanism.

Optionally, the angle adjusting mechanism comprises two symmetrically arranged angle adjusting plates and a rotating fixing plate clamped between the two symmetrically arranged angle adjusting plates, the rotating fixing plate is fixed on a round hole of the angle adjusting plate, and the rotating angle of the rotating fixing plate is adjusted through an arc slotted hole in the angle adjusting plate.

Optionally, the camera module further comprises a side angle sliding table, and the side angle sliding table is arranged between the Z-direction locking mechanism and the camera module.

Optionally, the side corner sliding table is fixedly connected with the Z-direction locking mechanism through a sliding table fixing plate, and the camera module is fixed on the side corner sliding table through a camera fixing plate.

The optical detection device is characterized by comprising an image acquisition module and an image processing module, wherein the image acquisition module comprises a main-view camera module and a side-view camera module, and the side-view camera module applies the camera adjusting device to carry out camera alignment adjustment.

The utility model discloses a camera adjusting device and optical detection equipment can the quick adjustment look sideways at the camera and the accurate center that will look sideways at the camera aims at liquid crystal display panel has improved the artifical precision that adjusts the efficiency that looks sideways at the camera and the center that looks sideways at the camera and aim at liquid crystal display panel's center greatly.

Drawings

Fig. 1 is a schematic perspective view of a camera adjustment device according to an embodiment of the present invention;

fig. 2 is a partially enlarged view of a three-dimensional structure of a camera adjustment device according to an embodiment of the present invention;

fig. 3 is a side view of a camera adjusting device according to an embodiment of the present invention.

Detailed Description

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

The utility model aims at solving above-mentioned defect, provide one kind can the quick adjustment look sideways at the camera and the accurate center that will look sideways at the camera aligns liquid crystal display panel's center, improved the artifical precision that adjusts the efficiency that looks sideways at the camera and the center that looks sideways at the camera and align liquid crystal display panel's center greatly.

This application provides a camera adjusting device in one aspect, including the camera module, its characterized in that still includes: a Y-direction locking mechanism, an X-direction locking mechanism and a Z-direction locking mechanism, wherein,

the Y-direction locking mechanism is used for adjusting the position of the camera module in the Y direction;

the X-direction locking mechanism is connected with the Y-direction locking mechanism and used for adjusting the position of the camera module in the X direction;

the Z-direction locking mechanism is connected with the X-direction locking mechanism and used for adjusting the position of the camera module in the Z direction;

the Y-direction locking mechanism, the X-direction locking mechanism and the Z-direction locking mechanism are all sliding locking mechanisms, and the Y direction, the X direction and the Z direction are in the same plane.

The camera and the sliding table module are fixed on the four-wheel locking sliding block to be viewed from side, and the four-wheel locking sliding block moves on the four-wheel locking guide rail accurately to adjust the working distance of the camera to be viewed from side. The four-wheel locking guide rail is fixed on the precise arc-shaped workpiece, so that the angle of the side-looking camera can be adjusted.

Optionally, at least one of the Y-direction locking mechanism, the X-direction locking mechanism, and the Z-direction locking mechanism is a biaxial linear guide rail. In the following, a four-wheel locking linear guide will be described as an example of the Y-direction locking mechanism, the X-direction locking mechanism, and the Z-direction locking mechanism.

As shown in fig. 1-3: the device comprises a Y-direction four-wheel locking guide rail-1, a Y-direction four-wheel locking slider-2, a locking handle-3, a Y-direction slider connecting plate-4, an X-direction connecting fixing plate-5, an X-direction four-wheel locking guide rail-6, an X-direction four-wheel locking slider-7, an X-direction slider connecting plate-8, an angle adjusting plate-9, a rotating fixing plate-10, a Z-direction four-wheel locking guide rail-11, a Z-direction four-wheel locking slider-12, a sliding table fixing plate-13, a side angle sliding table-14, a side-looking camera fixing plate-15 and a side-.

Operation and connection mode: the Y-direction four-wheel locking guide rail-1 is arranged on the equipment protecting cover, the horizontal fixing plate-5 is fixedly connected with the Y-direction four-wheel locking slider-2 through a Y-direction slider connecting plate-4, and the locking handle-3 is arranged on the Y-direction four-wheel locking slider-2 and is used for adjusting the position of the Y-direction four-wheel locking slider-2 and then fixedly locking the Y-direction four-wheel locking slider-2. An X-direction four-wheel locking guide rail-6 is fixed on a horizontal fixing plate-5, and an angle adjusting plate-9 is fixedly connected with an X-direction four-wheel locking slide block-7 through an X-direction slide block connecting plate-8. The two angle adjusting plates-9 clamp the rotating fixing plate-10 in the middle, so that the rotating fixing plate-10 is fixed on the round hole of the angle adjusting plate-9, and the angle between the rotating fixing plate-10 and the horizontal fixing plate-5 is adjusted through the arc slotted hole on the angle adjusting plate-9. The Z-direction four-wheel locking guide rail-11 is fixed on the rotary fixing plate-10, the side corner sliding table-14 is fixedly connected with the Z-direction four-wheel locking sliding block-12 through a sliding table fixing plate-13, and the side view camera-16 is fixed on the side corner sliding table-14 through a side view camera fixing plate-15.

The precise adjustment of the center of the side-looking camera to the center of the liquid crystal panel can be realized by adjusting the Y-direction four-wheel locking slide block-2, the X-direction four-wheel locking slide block-7, the rotating fixing plate-10, the Z-direction four-wheel locking slide block-12 and the side angle sliding table-14. The Y direction is vertical to the X direction, the Z direction and the Y direction form an angle theta, and theta is more than or equal to 0 degree and less than or equal to 90 degrees.

The application also provides an optical detection device, which is characterized by comprising an image acquisition module and an image processing module, wherein the image acquisition module comprises a main view camera module and a side view camera module, and the side view camera module is applied to the camera adjusting device to adjust the alignment of the camera.

The utility model discloses a camera adjusting device and optical detection equipment, including the camera module, still include: the camera module comprises a Y-direction locking mechanism, an X-direction locking mechanism and a Z-direction locking mechanism, wherein the Y-direction locking mechanism is used for adjusting the position of the camera module in the Y direction; the X-direction locking mechanism is connected with the Y-direction locking mechanism and used for adjusting the position of the camera module in the X direction; the Z-direction locking mechanism is connected with the X-direction locking mechanism and used for adjusting the position of the camera module in the Z direction; the Y-direction locking mechanism, the X-direction locking mechanism and the Z-direction locking mechanism are all sliding locking mechanisms, and the X direction and the Z direction in the Y direction are in the same plane.

The camera adjusting device and the optical detection equipment can quickly adjust the side-looking camera and accurately align the center of the side-looking camera to the center of the liquid crystal panel, and greatly improve the efficiency of manually adjusting the side-looking camera and the accuracy of aligning the center of the side-looking camera to the center of the liquid crystal panel.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the examples, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a camera adjusting device, includes the camera module, its characterized in that still includes: a Y-direction locking mechanism, an X-direction locking mechanism and a Z-direction locking mechanism, wherein,

the Y-direction locking mechanism is used for adjusting the position of the camera module in the Y direction;

the X-direction locking mechanism is connected with the Y-direction locking mechanism and used for adjusting the position of the camera module in the X direction;

the Z-direction locking mechanism is connected with the X-direction locking mechanism and used for adjusting the position of the camera module in the Z direction;

the Y-direction locking mechanism, the X-direction locking mechanism and the Z-direction locking mechanism are all sliding locking mechanisms, and the Y direction, the X direction and the Z direction are in the same plane.

2. The camera adjustment device of claim 1, wherein the Y direction is perpendicular to the X direction, and the Z direction has an angle θ with the Y direction, 0 ° ≦ θ ≦ 90 °.

3. The camera adjusting apparatus according to claim 1, wherein at least one of the Y-direction locking mechanism, the X-direction locking mechanism, and the Z-direction locking mechanism is a biaxial linear guide;

the Y-direction locking mechanism comprises two Y-direction double-axis linear guide rails which are symmetrically arranged.

4. The adjusting apparatus according to claim 3, wherein the X-direction locking mechanism comprises two symmetrically disposed X-direction dual-axis linear guide rails, and each of the X-direction dual-axis linear guide rails is connected to one of the Y-direction dual-axis linear guide rails through a Y-direction slider connecting plate and an X-direction connecting fixing plate.

5. The camera adjusting device of claim 4, wherein the sliders of the two symmetrically arranged X-direction double-axis linear guide rails are fixedly connected through an X-direction slider connecting plate.

6. The camera adjusting apparatus according to claim 1, further comprising an angle adjusting mechanism disposed between the X-direction locking mechanism and the Z-direction locking mechanism.

7. The adjusting apparatus according to claim 6, wherein the angle adjusting mechanism comprises two symmetrically disposed angle adjusting plates and a rotation fixing plate sandwiched between the two symmetrically disposed angle adjusting plates, the rotation fixing plate is fixed on a circular hole of the angle adjusting plate, and the rotation angle of the rotation fixing plate is adjusted through a circular arc slot on the angle adjusting plate.

8. The camera adjusting device of claim 1, further comprising a side angle sliding table disposed between the Z-lock mechanism and the camera module.

9. The camera adjusting device of claim 8, wherein the side corner sliding table is fixedly connected to the Z-direction locking mechanism through a sliding table fixing plate, and the camera module is fixed to the side corner sliding table through a camera fixing plate.

10. An optical inspection apparatus comprising an image acquisition module and an image processing module, wherein the image acquisition module comprises a front-view camera module and a side-view camera module, and the side-view camera module employs the camera adjustment device according to claims 1-9 for camera alignment adjustment.

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