CN218734524U - Testing arrangement of camera glare phenomenon - Google Patents

Abstract

The application discloses camera glare phenomenon's testing arrangement, which comprises a frame, establish horizontal migration guide rail and the vertical migration guide rail in the frame, establish the three-dimensional rotary device on the horizontal migration guide rail, establish the light source mount pad on the vertical migration guide rail, be equipped with in the frame and carry out the first actuating mechanism of horizontal migration to three-dimensional rotary device along the horizontal migration guide rail, carry out the second actuating mechanism that reciprocates along the vertical migration guide rail to the light source mount pad, the cell-phone that waits to detect carries out the rotation regulation of different shooting angles through three-dimensional rotary device, the cell-phone of installing on three-dimensional rotary device is adjusted through first actuating mechanism for the horizontal distance of light source mount pad, the light source of installing on the light source mount pad is adjusted through second actuating mechanism for cell-phone camera height on the three-dimensional rotary device. The problem that the glare test difficulty of a camera is high can be solved, automatic test is realized, the test efficiency is high, and the result is accurate.

Description

Testing arrangement of camera glare phenomenon

Technical Field

The utility model relates to a camera detection device's technical field, concretely relates to testing arrangement of camera glare phenomenon.

Background

At present, a mobile phone camera needs to be designed and strictly tested before being put into the market, and the phenomenon of glare before the camera module leaves a factory is very common. The phenomena of the glare-generating light are various, such as needle-shaped, flocculent, petal-shaped, different ghost images, and the like, and the reasons for the phenomena are different, so that how to accurately, quickly and effectively measure the glare is always a difficult problem. The existing common method is that a camera is manually controlled to manually shoot point-shaped or strip-shaped light sources with different illuminance at different positions, a plurality of angles need to be shot so as to find the problems of different angles, the gesture of a mobile phone needs to be manually controlled, the illuminance of a point light source needs to be manually switched, the problem category and the severity of glare can be subjectively evaluated, a method of subjective analysis of human eyes is mostly adopted in the analysis process, and the efficiency and the accuracy of the test are difficult to grasp.

Disclosure of Invention

In order to solve certain or some technical problems existing in the prior art, the application aims to provide the testing device for the camera glare phenomenon, which can solve the problem of high difficulty in the mobile phone camera glare test, realizes the automatic test, the intelligent classification and analysis effects, and has high test efficiency and accurate result.

In order to solve the above-mentioned existing technical problem, the purpose of this application adopts the following technical scheme to realize:

a testing device for camera glare phenomena comprises a rack, a horizontal moving guide rail and a vertical moving guide rail which are arranged on the rack, a three-dimensional rotating device arranged on the horizontal moving guide rail, and a light source mounting seat arranged on the vertical moving guide rail, wherein a first driving mechanism for horizontally moving the three-dimensional rotating device along the horizontal moving guide rail and a second driving mechanism for vertically moving the light source mounting seat along the vertical moving guide rail are arranged on the rack, a mobile phone to be detected is arranged on the three-dimensional rotating device, the mobile phone to be detected is rotatably adjusted at different shooting angles through the three-dimensional rotating device, the horizontal distance of the mobile phone arranged on the three-dimensional rotating device relative to the light source mounting seat is adjusted through the first driving mechanism, and the height of a light source arranged on the light source mounting seat relative to a mobile phone camera on the three-dimensional rotating device is adjusted through the second driving mechanism.

Preferably: the three-dimensional rotating device comprises a first moving base, a first rotating device arranged on the first moving base, a first rotating base horizontally rotating through the first rotating device, a second rotating device arranged on the first rotating base, a second rotating base arranged on the second rotating device, a third rotating device arranged on the second rotating base, a third rotating device arranged on the third rotating device, and a third rotating base arranged on the third rotating device, wherein a mobile phone to be detected is arranged on the third rotating base.

Preferably: first switching seat includes primary shaft diaphragm, primary shaft riser and balancing weight, first switching seat passes through primary shaft diaphragm is fixed on the rotation axis of first commentaries on classics ware, primary shaft riser is installed form L type structure behind the one end of primary shaft diaphragm, the second rotates the ware and establishes on the primary shaft riser.

Preferably: the second adapter comprises a second shaft transverse plate and a second shaft vertical plate, the second shaft transverse plate and the second shaft vertical plate are arranged in an L shape, the second adapter is fixed to a rotating shaft of the second rotator through the second shaft transverse plate, and the third rotator is arranged on the second shaft vertical plate.

Preferably: the third adapter adopts a mesh plate structure, and a positioning column is arranged on the third adapter.

Preferably: first actuating mechanism is including establishing horizontal die block in the frame, establishing the first driving motor of horizontal die block one end, establishing pass through on the horizontal die block the positive and negative horizontal lead screw who changes of first driving motor control, the horizontal migration guide rail is established on the horizontal die block, horizontal lead screw with adopt parallel arrangement between the horizontal migration guide rail, first removal base slides and sets up on the horizontal migration guide rail, first removal base passes through horizontal lead screw carries out the horizontal direction and removes, the upper end of horizontal die block still is equipped with horizontal cover plate, be equipped with the horizontal through-hole of rectangular shape on the first removal base, first removal base passes through horizontal through-hole cover is established outside the horizontal cover plate.

Preferably: one side of the first driving mechanism is further provided with a first drag chain, one side of the rack is provided with a U-shaped bracket for supporting and protecting the first drag chain, and the control wires of the three-dimensional rotating device are all stored through the first drag chain.

Preferably: second actuating mechanism is including setting up perpendicularly guide rail backing plate in the frame, establishing perpendicular die block on the guide rail backing plate, establishing two perpendicular slide rails in the perpendicular die block, establishing two perpendicular lead screw between the perpendicular slide rail, establishing perpendicular die block one end pair perpendicular lead screw carries out pivoted second driving motor, the light source mount pad slides and sets up on the perpendicular slide rail, the light source mount pad passes through perpendicular lead screw reciprocates, the front end of perpendicular die block still is equipped with perpendicular apron, be equipped with the perpendicular through-hole of rectangular shape on the light source mount pad, the light source mount pad passes through perpendicular through-hole cover is established outside the perpendicular apron.

Preferably: one side of the second driving mechanism is provided with a second drag chain, the rack is provided with a vertical drag chain base plate, one side of the second drag chain is attached to the vertical drag chain base plate, and a light source body power line on the light source mounting seat is stored through the second drag chain.

Preferably: the light source mounting seat comprises a light source assembly rack and a second movable base arranged on one side of the light source assembly rack, and the vertical through hole is formed in the second movable base.

Preferably: the first movable base and one side of the second movable base are both provided with induction sheets, and the rack is provided with photoelectric inductors which are used for inducing the positions of the induction sheets.

Preferably: and a plurality of anti-collision columns are arranged at the two ends of the vertical bottom die and the two ends of the horizontal bottom die.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. different light source bodies can be freely installed on the light source installation seat, and the illuminance of the light source bodies can be freely adjusted to meet the test requirements, so that the shooting requirements under different illumination conditions are met;

2. the shooting angle of the mobile phone camera can be rotatably adjusted by 360 degrees through the three-dimensional rotating device, different shooting angles of the tested camera relative to the light source body can be automatically and accurately controlled through adjusting the shooting angle of the camera and the relative positions of the three-dimensional rotating device and the light source mounting seat, so that the glare phenomenon generated by the light source body in different directions and angles of the camera can be accurately simulated in a real scene, the light source and the camera are controlled through an external system to realize different light incidence angles, different glare phenomena caused by different incidence angles can be analyzed, the problems that the glare detection difficulty of the existing mobile phone camera is high, the testing efficiency is low, the precision is low, unified, stable and accurate detection conditions cannot be formed when the glare is tested and shot are effectively solved, the purposes of automatically controlling the shooting angle, the shooting distance and the like can be simply and accurately finished when the mobile phone camera takes a picture, manual intervention is not needed, the testing efficiency is greatly improved, the shot picture can be output to special glare analysis software for data analysis, the automatic test and the intelligent classification and analysis effects are realized, and the testing efficiency is high and the result is accurate.

Drawings

FIG. 1 is a first general structural diagram of the present application, illustrating the installation positions of a photoelectric sensor and a sensing piece for detecting the position of a three-dimensional rotating device;

FIG. 2 is a schematic view of the overall structure of the three-dimensional rotating apparatus according to the present application;

FIG. 3 is a schematic view of the overall structure of the present application, showing the installation positions of the photoelectric sensor and the sensing strip for detecting the position of the light source mounting base;

FIG. 4 is a third overall structural diagram of the present application, showing the mounting positions of the vertical screw and the second drag chain;

FIG. 5 is an overall structure of a light source mount in the present application;

in the figure: 1. a frame; 2. a U-shaped bracket; 3. a first tow chain; 4. a horizontally moving guide rail; 5. a first drive mechanism; 6. a three-dimensional rotating device; 7. a light source mounting base; 8. vertically moving the guide rail; 9. vertical bottom die; 10. a photoelectric sensor; 11. a guide rail backing plate; 12. a second drive motor; 13. a vertical cover plate; 14. a second drive mechanism; 15. a horizontal cover plate; 16. an induction sheet; 17. a horizontal screw rod; 18. horizontal bottom die; 19. A first drive motor; 20. a second axial riser; 21. a first adapter; 22. a second adapter; 23. a second rotator; 24. a first axial vertical plate; 25. a second shaft transverse plate; 26. a third rotator; 27. a positioning column; 28. a third adapter; 29. a first horizontal axis plate; 30. a balancing weight; 31. a first rotor; 32. a horizontal through hole; 33. a first mobile base; 34. a vertical through hole; 35. a second mobile base; 36. a light source assembly rack; 37. a vertical drag chain backing plate; 38. a vertical screw rod; 39. a second drag chain.

Detailed Description

The present application is further described with reference to the accompanying drawings and the detailed description, and it should be noted that, in the case of no conflict, any combination between the embodiments or technical features described below may form a new embodiment.

In the description of the present application, it is to be understood that the terms "upper", "lower", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and operate, and thus, should not be construed as limiting the present application.

The terms "first," "second," and the like in this application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

Example 1:

as shown in fig. 1, a device for testing a camera glare phenomenon includes a frame 1, a horizontal moving guide rail 4 and a vertical moving guide rail 8 which are arranged on the frame 1, a three-dimensional rotating device 6 which is arranged on the horizontal moving guide rail 4, and a light source mounting base 7 which is arranged on the vertical moving guide rail 8, wherein a first driving mechanism 5 which horizontally moves the three-dimensional rotating device 6 along the horizontal moving guide rail 4 and a second driving mechanism 14 which vertically moves the light source mounting base 7 along the vertical moving guide rail 8 are arranged on the frame 1, a mobile phone to be tested is mounted on the three-dimensional rotating device 6, the mobile phone to be tested is rotatably adjusted at different shooting angles through the three-dimensional rotating device 6, the horizontal distance of the mobile phone mounted on the three-dimensional rotating device 6 relative to the light source mounting base 7 is adjusted through the first driving mechanism 5, and the height of a light source mounted on the light source mounting base 7 relative to a mobile phone camera on the three-dimensional rotating device 6 is adjusted through the second driving mechanism 14.

In the practical use process, a horizontal moving guide rail 4 and a vertical moving guide rail 8 are installed on a machine frame 1, the horizontal moving guide rail 4 and the vertical moving guide rail 8 are arranged in an L shape, wherein a three-dimensional rotating device 6 installed on the horizontal moving guide rail 4 moves horizontally through a first driving mechanism 5, a light source installation seat 7 installed on the vertical moving guide rail 8 moves up and down through a second driving mechanism 14, different light source bodies are installed on the light source installation seat 7, so that the shooting requirements of different conditions are met, the illuminance of the light source bodies can be freely adjusted to meet the testing requirements, a mobile phone to be detected is installed on the three-dimensional rotating device 6 through a mobile phone bracket and the like and is rotatably adjusted at different shooting angles through the three-dimensional rotating device 6, when the glare phenomenon of a mobile phone camera installed on the three-dimensional rotating device 6 is detected, the horizontal distance between a mobile phone installed on the three-dimensional rotating device 6 and a light source installation seat 7 is adjusted through the first driving mechanism 5, the vertical height between a light source installed on the light source installation seat 7 and a mobile phone camera on the three-dimensional rotating device 6 is adjusted through the second driving mechanism 14, the shooting angle of the mobile phone camera is rotatably adjusted by 360 degrees through the three-dimensional rotating device 6, and after the shooting angle of the camera and the relative position of the three-dimensional rotating device 6 and the light source installation seat 7 are adjusted, different shooting angles of a detected camera relative to a light source body can be automatically and accurately controlled, so that the glare phenomenon generated by the light source body in different directions and angles of the camera in a real scene can be accurately simulated, wherein the light source body of the light source installation seat 7 generally comprises but is not limited to a five-point light source (red, green, lustering, white and orange), all light sources can control light intensity by programs, and the light sources and the camera are controlled by an external system to realize different light ray incidence angles, so that different glare phenomena caused by different incidence angles are analyzed, such as analysis of parameters of flocculent parasitic light, a thin ring, two sections of narrow arcs, green ghost, red ghost, fogging and the like. The problem that unified, stable and accurate detection conditions cannot be formed when the glare is tested and shot is solved, when the mobile phone camera is shot, the purposes of automatically controlling shooting angles, shooting distances and the like can be simply and accurately finished, manual intervention is not needed, the test efficiency is greatly improved, the shot picture can be output to special glare analysis software for data analysis, automatic test is realized, the intelligent classification and analysis effects are achieved, the test efficiency is high, and the result is accurate.

Example 2:

as shown in fig. 2, the three-dimensional rotating apparatus 6 includes a first moving base 33, a first rotator 31 disposed on the first moving base 33, a first adaptor seat 21 horizontally rotated by the first rotator 31, a second rotator 23 disposed on the first adaptor seat 21, a second adaptor seat 22 disposed on the second rotator 23, a third rotator 26 disposed on the second adaptor seat 22, and a third adaptor seat 28 disposed on the third rotator 26, wherein the mobile phone to be detected is disposed on the third adaptor seat 28.

The first adapter 21 is installed on a rotating shaft of the first rotator 31, the first adapter 21 can be controlled to rotate 360 degrees in the horizontal direction through the first rotator 31, the second adapter 22 is installed on a rotating shaft of the second rotator 23, the second adapter 22 can be controlled to rotate 360 degrees in the vertical direction through the second rotator 23, the third adapter 28 is installed on a rotating shaft of the third rotator 26, the third adapter 28 can be rotated 360 degrees through the third rotator 26, so that the three-dimensional rotating device 6 can be more simply and conveniently controlled by the first, second and third rotators 23 and 26 through the first, second and third rotators 26, the mobile phone camera installed on the third adapter 28 can realize rotation control of the X, Y and Z axes, when the shooting angle of the mobile phone camera is adjusted by 360 degrees, thereby realizing shooting of various angles of the camera, after the whole testing device is connected with the horizontal moving guide rail 4 and the vertical moving guide rail 8, a 5-axis motion control system can be formed by the whole testing device, when the camera is tested, the all-dimensional image acquisition control of the mobile phone camera is more simple and convenient, the all-dimensional camera can be more accurately controlled by the existing low-dimensional rotating device, the problem that the existing small-dimensional rotating device can be solved by the existing motor 26, the existing low-dimensional rotating device can be effectively controlled by the existing three-dimensional rotating device, and the existing testing device can be solved by the existing low-dimensional rotating device, and the existing testing device, and the high-dimensional rotating device, and the existing three-dimensional rotating device can be more accurately, and the existing testing device can be more accurately controlled by the existing testing device, and the existing testing device can be realized by the existing testing device, and the existing testing device can be more accurately, and the existing testing device can be more conveniently used for the testing device, and the testing device can be more accurately.

In addition to embodiment 2, as shown in fig. 2, the first adapter 21 includes a first horizontal axle plate 29, a first vertical axle plate 24, and a weight block 30, the first adapter 21 is fixed to the rotation axle of the first rotator 31 through the first horizontal axle plate 29, the first vertical axle plate 24 is mounted to one end of the first horizontal axle plate 29 to form an L-shaped structure, and the second rotator 23 is disposed on the first vertical axle plate 24.

First adapter 21 is by primary shaft diaphragm 29, primary shaft riser 24 and balancing weight 30 are constituteed, because second rotating ware 23, third rotating ware 26 and the cell-phone that awaits measuring all install in the top of primary shaft diaphragm 29 through primary shaft riser 24, and the stress point is located the junction of primary shaft diaphragm 29 and primary shaft riser 24, therefore, install on the rotation axis of primary shaft diaphragm 31 in the centre of primary shaft diaphragm 29, primary shaft riser 24 and balancing weight 30 use the rotation axis to install the both sides upper end at primary shaft diaphragm 29 as the center respectively, can effectually guarantee the stationarity behind primary shaft diaphragm 29 installs on the rotation axis of primary shaft diaphragm 31 through balancing weight 30, avoid appearing primary shaft diaphragm 29 because of the too big problem that leads to appearing the slope of one end atress, make the rotation of primary shaft diaphragm 29 more nimble stable, service life is longer, and after adopting balancing weight 30, can also be that the equipment degree of difficulty of whole device is lower.

In a further improvement, as shown in fig. 2, the second adapter 22 includes a second horizontal plate 25 and a second vertical plate 20, the second horizontal plate 25 and the second vertical plate 20 are arranged in an L shape, the second adapter 22 is fixed on the rotating shaft of the second rotator 23 through the second horizontal plate 25, and the third rotator 26 is arranged on the second vertical plate 20; the third adapter 28 is of a mesh plate structure, and a positioning column 27 is arranged on the third adapter 28.

The second adapter 22 is composed of a second horizontal shaft plate 25 and a second vertical shaft plate 20 which are connected in an L shape, so that the structure is simpler, the third rotator 26 is simpler and more convenient to fix and rotate, and the manufacturing cost is lower; meanwhile, the third adapter 28 is of a mesh plate structure, the adjustment of the mounting position of the mobile phone support is more flexible, especially when the third adapter 28 is of a metal plate structure, the magnetic type mobile phone fixing can be realized, a positioning column 27 is installed on the third adapter 28, the mounting position of the mobile phone can be accurately determined through the positioning column 27, so that the system can conveniently find the position of the mobile phone camera, the accuracy is higher when the system is controlled to shoot, and the problem of shooting position deviation when the mobile phone is installed and the angle of the three-dimensional rotating device 6 is controlled is effectively avoided.

Example 3:

the method is further improved on the basis of the embodiment 2, and is shown in a figure 1; first actuating mechanism 5 is including establishing horizontal die block 18 in frame 1, establishing the first driving motor 19 of 18 one end of horizontal die block, establishing pass through on the horizontal die block 18 the horizontal lead screw 17 of first driving motor 19 control just reversing, horizontal migration guide rail 4 is established on the horizontal die block 18, horizontal lead screw 17 with adopt parallel arrangement between the horizontal migration guide rail 4, first removal base 33 slides and sets up on the horizontal migration guide rail, first removal base 33 passes through horizontal lead screw 17 carries out the horizontal direction and removes, the upper end of horizontal die block 18 still is equipped with horizontal cover plate 15, be equipped with the horizontal through-hole 32 of rectangular shape on the first removal base 33, first removal base 33 passes through horizontal through-hole 32 cover is established outside horizontal cover plate 15.

Horizontal migration guide rail 4 adopts two and parallel mount in the top of horizontal die block 18, the bottom sliding connection of first removal base 33 is on horizontal migration guide rail 4, when three-dimensional rotary device 6 carries out lateral shifting along horizontal migration guide rail 4 through first actuating mechanism 5, because first removal base 33 and horizontal lead screw 17 adopt threaded connection, drive horizontal lead screw 17 through first driving motor 19 and carry out the positive and negative back of changeing, just can realize that first removal base 33 slides along horizontal migration guide rail 4, the control mode is simple and convenient more, and simultaneously, horizontal apron 15 on horizontal die block 18 is fixed at one both ends still is installed to top at horizontal die block 18, and be equipped with a rectangular shape horizontal through-hole 32 that is used for passing horizontal apron 15 on first removal base 33, can shelter from the protection to horizontal migration guide rail 4 and horizontal lead screw 17 through horizontal apron 15, avoid horizontal migration guide rail 4 and horizontal lead screw 17 to appear blocking, the dust is piled up the scheduling problem.

In addition to embodiment 3, as shown in fig. 3, a first drag chain 3 is further provided on one side of the first driving mechanism 5, a U-shaped bracket 2 for supporting and protecting the first drag chain 3 is provided on one side of the frame 1, and the control wires of the three-dimensional rotating device 6 are all stored in the first drag chain 3.

Because three-dimensional rotary device 6 need carry out horizontal migration along horizontal die block 18, and each power supply on three-dimensional rotary device 6 all need be connected the power lamp control line with the signal source, consequently, one U nature support groove 2 that carries out bearing and protection to first tow chain 3 has been installed to one side of frame 1, thereby make each power cord and the signal line of three-dimensional rotary device 6 can unified accomodate and concentrate the protection in first tow chain 3, and remove in-process in three-dimensional rotary device 6 is synchronous, wherein, the one end of tow chain is fixed in U nature support groove 2, the other end is then fixed in one side of first removal base 33, it is more convenient during the removal, and the laminating degree of first tow chain 3 and U nature support groove 2 is higher, spacing effect is better, can avoid first tow chain 3 to appear the phenomenon of dropping at the removal in-process.

Example 4:

improve on embodiment 3's basis further and do, as shown in fig. 1, second actuating mechanism 14 is including setting up perpendicularly guide rail backing plate 11 in the frame 1, establish perpendicular die block 9 on the guide rail backing plate 11, establish the second driving motor 12 of perpendicular die block 9 one end, establish pass through on the perpendicular die block 9 the perpendicular lead screw 38 that second driving motor 12 carried out the positive and negative rotation control, vertical movement guide rail 8 is established on the perpendicular die block 9, vertical movement guide rail 8 with adopt parallel arrangement between the perpendicular lead screw 38, light source mount pad 7 slides and sets up on the vertical movement guide rail 8, light source mount pad 7 passes through perpendicular lead screw 38 reciprocates, the front end of perpendicular die block 9 still is equipped with perpendicular apron 13, be equipped with the perpendicular through-hole 34 of rectangular shape on the light source mount pad 7, light source mount pad 7 passes through perpendicular through-hole 34 cover is established outside perpendicular apron 13.

The vertical moving guide rails 8 are arranged above the vertical bottom die 9 in parallel, the bottom of the light source installation seat 7 is connected to the vertical moving guide rails 8 in a sliding mode, when the light source installation seat 7 moves up and down along the vertical moving guide rails 8 through the second driving mechanism 14, the light source installation seat 7 is connected with the vertical lead screw 38 through threads, the light source installation seat 7 can slide up and down along the vertical moving guide rails 8 after the vertical lead screw 38 is driven to rotate forward and backward through the second driving motor 12, the control mode is simpler and more convenient, meanwhile, a vertical cover plate 13 with two ends fixed on the vertical bottom die 9 is further arranged above the vertical bottom die 9, a long strip-shaped vertical through hole 34 used for penetrating through the vertical cover plate 13 is formed in the light source installation seat 7, the vertical moving guide rails 8 and the vertical lead screw 38 can be shielded and protected through the vertical cover plate 13, and the problems that the vertical moving guide rails 8 and the vertical lead screw 38 are blocked, dust accumulation and the like are avoided.

In addition to embodiment 4, as shown in fig. 4, a second drag chain 39 is disposed on one side of the second driving mechanism 14, a vertical drag chain pad 37 is disposed on the frame 1, one side of the second drag chain 39 is attached to the vertical drag chain pad 37, and the light source body power line on the light source mounting seat 7 is stored through the second drag chain 39.

Second tow chain 39 is used for accomodating the light source connecting wire of installing on light source mount pad 7, and the upper end at perpendicular tow chain backing plate 37 is fixed to the one end of second tow chain 39, and when second tow chain 39 through gravity downwardly falling, one side can laminate on the perpendicular tow chain backing plate 37 to can play the effect of spacing support to second tow chain 39 through perpendicular tow chain backing plate 37, manufacturing cost is lower moreover, and the structure is simpler.

In any of the above embodiments, as shown in fig. 5, the light source mounting base 7 includes a light source mounting bracket 36, and a second movable base 35 disposed on one side of the light source mounting bracket 36, and the vertical through hole 34 is disposed on the second movable base 35.

The light source assembly rack 36 is used for mounting light source bodies of different models, for example, 5 different types of light source point (strip) lights are mounted on the light source assembly rack 36, a 5-color point light source is composed of red, green, blue, white and orange, the illumination can also be automatically controlled to meet the glare test condition, shooting is automatically completed through sequential circulation, then the glare result in the picture is automatically analyzed, and a test report is automatically output, so that automatic test, intelligent classification and analysis are realized, the test efficiency is high, and the result is accurate.

In a further improvement, as shown in fig. 1 and fig. 3, sensing sheets 16 are disposed on one side of each of the first movable base 33 and the second movable base 35, and a photoelectric sensor 10 for sensing the position of each sensing sheet 16 is disposed on the rack 1.

After the position of the induction sheet 16 is induced by the photoelectric sensor 10, the relative positions of the first movable base 33 and the second movable base 35 can be accurately obtained, so that the three-dimensional rotating device 6 and the light source mounting base 7 can be conveniently controlled systematically, for example, the operations of returning to the original point, setting the moving speed, setting the shooting angle, starting and stopping are realized.

Meanwhile, the vertical bottom die 9 and the two ends of the horizontal bottom die 18 are both provided with a plurality of anti-collision columns, so that the first movable base 33 and the second movable base 35 can be prevented from directly colliding with the two ends of the horizontal bottom die 18 or the vertical bottom die 9 in the moving process through the anti-collision columns.

The above embodiments are only preferred embodiments of the present application, and the protection scope of the present application is not limited thereto, and any insubstantial changes and substitutions made by those skilled in the art based on the present application are intended to be covered by the present application.

Claims (10)

1. The utility model provides a testing arrangement of camera glare phenomenon which characterized in that: the mobile phone height adjusting device comprises a rack (1), a horizontal moving guide rail (4) and a vertical moving guide rail (8) which are arranged on the rack (1), a three-dimensional rotating device (6) which is arranged on the horizontal moving guide rail (4), and a light source mounting seat (7) which is arranged on the vertical moving guide rail (8), wherein a first driving mechanism (5) which horizontally moves the three-dimensional rotating device (6) along the horizontal moving guide rail (4) and a second driving mechanism (14) which vertically moves the light source mounting seat (7) along the vertical moving guide rail (8) are arranged on the rack (1), the mobile phone to be detected is arranged on the three-dimensional rotating device (6), the mobile phone to be detected is rotatably adjusted at different shooting angles through the three-dimensional rotating device (6), the horizontal distance of the mobile phone arranged on the three-dimensional rotating device (6) relative to the light source mounting seat (7) is adjusted through the first driving mechanism (5), and the height of the light source arranged on the light source mounting seat (7) relative to the mobile phone camera on the three-dimensional rotating device (6) is adjusted through the second driving mechanism (14).

2. The device for testing the glare phenomenon of the camera according to claim 1, wherein: the three-dimensional rotating device (6) comprises a first moving base (33), a first rotating device (31) arranged on the first moving base (33), a first rotating base (21) horizontally rotating through the first rotating device (31), a second rotating device (23) arranged on the first rotating base (21), a second adapter (22) arranged on the second rotating device (23), a third rotating device (26) arranged on the second adapter (22), and a third adapter (28) arranged on the third rotating device (26), wherein a mobile phone to be detected is arranged on the third adapter (28).

3. The device for testing the glare phenomenon of the camera according to claim 2, wherein: first adapter seat (21) include first axle diaphragm (29), first riser (24) and balancing weight (30), first adapter seat (21) pass through first axle diaphragm (29) are fixed on the rotation axis of first commentaries on classics ware (31), first riser (24) are installed form L type structure behind the one end of first axle diaphragm (29), second commentaries on classics ware (23) are established on first axle riser (24).

4. The device for testing the glare phenomenon of the camera according to claim 2, wherein: second adapter (22) include second axle diaphragm (25) and second axle riser (20), second axle diaphragm (25) with be the L type setting between second axle riser (20), second adapter (22) pass through second axle diaphragm (25) are fixed on the rotation axis of second rotation ware (23), third rotation ware (26) are established on second axle riser (20).

5. The device for testing the glare phenomenon of the camera according to claim 2, wherein: the third adapter (28) is of a mesh plate structure, and a positioning column (27) is arranged on the third adapter (28).

6. The device for testing the glare phenomenon of the camera according to any one of claims 2 to 5, wherein: first actuating mechanism (5) is including establishing horizontal die block (18), establishing in frame (1) horizontal die block (18) one end first driving motor (19), establish pass through on horizontal die block (18) horizontal lead screw (17) that first driving motor (19) control is just reversing, establish horizontal migration guide rail (4) on horizontal die block (18), horizontal lead screw (17) with adopt parallel arrangement between horizontal migration guide rail (4), first removal base (33) slide to set up on horizontal migration guide rail (4), first removal base (33) pass through horizontal lead screw (17) carry out the horizontal direction and remove, the upper end of horizontal die block (18) still is equipped with horizontal cover board (15), be equipped with horizontal through-hole (32) of rectangular shape on first removal base (33), first removal base (33) pass through horizontal through-hole (32) cover is established outside horizontal cover board (15).

7. The device for testing the glare phenomenon of the camera according to claim 6, wherein: one side of the first driving mechanism (5) is further provided with a first drag chain (3), one side of the rack (1) is provided with a U-shaped bracket (2) for supporting and protecting the first drag chain (3), and the control line of the three-dimensional rotating device (6) is stored through the first drag chain (3).

8. The device for testing the glare phenomenon of a camera according to claim 6, wherein: second actuating mechanism (14) are in including setting up perpendicularly guide rail backing plate (11), establishing on frame (1) perpendicular die block (9) on guide rail backing plate (11), establish two perpendicular slide rails in perpendicular die block (9), establish two perpendicular lead screw (38) between the perpendicular slide rail establish perpendicular die block (9) one end is right perpendicular lead screw (38) carry out pivoted second driving motor (12), light source mount pad (7) slide to set up on the perpendicular slide rail, light source mount pad (7) are passed through perpendicular lead screw (38) reciprocate, the front end of perpendicular die block (9) still is equipped with perpendicular apron (13), be equipped with perpendicular through-hole (34) of rectangular shape on light source mount pad (7), light source mount pad (7) are passed through perpendicular through-hole (34) cover is established outside perpendicular apron (13).

9. The device for testing the glare phenomenon of the camera according to claim 8, wherein: one side of second actuating mechanism (14) is equipped with second tow chain (39), be equipped with a perpendicular tow chain backing plate (37) on frame (1), the laminating of one side of second tow chain (39) is in on perpendicular tow chain backing plate (37), light source body power cord on light source mount pad (7) passes through second tow chain (39) are accomodate.

10. The device for testing the glare phenomenon of the camera according to claim 2, wherein: light source mount pad (7) include light source assembly jig (36), establish second removal base (35) of light source assembly jig (36) one side, first removal base (33) with one side that second removed base (35) all is equipped with response piece (16), be equipped with on frame (1) to each photoelectric sensing ware (10) that the position of response piece (16) was responded to.

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