CN212180655U - Cell-phone glass apron arc limit defect detecting device - Google Patents

Abstract

The utility model discloses a mobile phone glass cover plate arc edge defect detection device, which comprises a camera lens module, a camera lens adjusting module, a light source adjusting module, a horizontal upward swinging adjusting module and a glass feeding module, wherein the glass feeding module is used for conveying glass to be detected to a designated position; the device can accurately adjust the projection angle of a light source at the arc edge of the glass cover plate, the focusing of the camera lens and the inclination angle of the front and back swinging of the camera, and in the adjusting process, the adjustment of the light source angle and the adjustment of the camera lens module do not interfere with each other.

Description

Cell-phone glass apron arc limit defect detecting device

Technical Field

The utility model belongs to the technical field of the optical precision measurement, especially, relate to a cell-phone glass apron arc limit defect detection device and method.

Background

With the rapid development of the mobile phone manufacturing industry, the demand for high-precision detection is higher and higher, the glass cover plate material has good mechanical property and optical property, the signal shielding effect is weak, and the production cost is relatively low, so that the glass cover plate material gradually becomes the mainstream of the smart phone cover plate.

The 2.5D/3D curved glass has the characteristics of lightness, thinness, transparency, cleanness, fingerprint resistance, dizziness resistance and the like, and has more novel and superior appearance performance. More advantageous in heat dissipation, gloss and abrasion resistance. Simultaneously, the radian cooperation of crooked design and palm more accords with human engineering's requirement, can bring outstanding touch-control and feel. The social demand of the mobile phone glass cover plate is quite remarkable, and according to market data feedback, the current mobile phone cover plate (also called a glass cover plate) has the annual shipment quantity of 20 hundred million sheets per year. The 3D glass cover plate is used as an essential accessory of a next-generation mobile phone, and the market scale of the 3D glass cover plate is nearly 192 billion yuan by 2020.

The production of the mobile phone glass cover plate is a relatively complex process, each process requires quality inspection, and various defects such as scratches, dirt, convex and concave points, dust, edge breakage and the like are inevitably generated in the actual processing process. At present, most of domestic production lines still adopt manual detection, the efficiency is low, and the consistency and the accuracy are difficult to ensure. With the continuous improvement of human cost, introduce AOI optics automatic vision check out test set, not only can reduce the cost of enterprise, to improving the cover plate glass yield moreover, improve and produce the line productivity and have the significance.

The machine vision defect detection technology has the advantages of high automation degree, low cost, high efficiency and the like. 2.5D/3D glass can generally be divided into two parts: a planar portion and a curved edge portion. Many companies and manufacturers at home and abroad start to research and develop detection equipment successively, but most of the visual detection on the glass cover plate in the current market is aimed at the defect detection of the plane part of the cover plate, and for the defect detection of the arc edge of the glass cover plate, because the arc edge of the glass cover plate is positioned at the edge of the glass cover plate and has a certain radian, the optical imaging is difficult, and the general depth of field of a lens is limited, so that the clear imaging is difficult to ensure; meanwhile, when the light source assembly, the camera and the camera lens assembly are adjusted, when one assembly is adjusted, the state of the other assembly is changed after the adjustment is finished, and the readjustment is needed, so that a set of device which is convenient for accurately adjusting the angle of the camera light source and clearly imaging the camera lens is necessary to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to present cell-phone glass apron defect detection, especially to the not enough of cell-phone glass apron arc limit defect, provide a cell-phone glass apron defect detecting device, the device can effectively solve the formation of image at glass apron edge and meet camera lens angle modulation and the problem of focusing with the testing process of defect to and the debugging problem of light source angle, can save installation and debug time by a wide margin, and compact structure.

In order to achieve the above object, the present invention provides a device for detecting defects of an arc edge of a cover plate of a mobile phone glass, comprising a camera lens module, a camera lens adjusting module for adjusting the camera lens module, a light source adjusting module for adjusting a lighting angle of the light source module, a horizontal upward swinging adjusting module, and a glass feeding module for conveying glass to be detected to a designated position;

the light source module is used for providing illumination light sources and comprises at least one group of high-brightness light sources;

the camera lens module comprises a camera and a camera lens fixedly connected with the camera;

the light source adjusting module comprises a light source fixing component and a light source distance adjusting component which are sequentially connected; the light source fixing assembly is used for adjusting the upward swing of the light source module on an XY plane and comprises at least one group of light source mounting plates, one side of each light source mounting plate is arranged in parallel to the X-axis direction, the other side of each light source mounting plate is arranged in parallel to the axial direction of the camera lens, each light source mounting plate is provided with at least one arc-shaped groove along the X-axis direction, and the light sources are detachably and fixedly connected with the arc-shaped grooves, so that each light source can move on the XY plane through the arc-shaped grooves; the light source distance adjusting assembly is used for adjusting the distance between the light source and the glass to be detected and comprises a light source fixing plate, a light source position adjusting unit and a connecting plate which are sequentially connected from bottom to top; the light source position adjusting unit comprises a first sliding subunit, the first sliding subunit is arranged in parallel to the axial direction of the camera lens and can move back and forth along the axial direction of the camera lens, one end of the light source fixing plate is fixedly connected with one group of the light source mounting plates, the other end of the light source fixing plate is fixedly connected with the light source position adjusting unit so as to drive the light source module to move integrally along the axial direction of the camera lens under the driving of the first sliding subunit, one end of the connecting plate is fixedly connected with the sliding block of the first sliding subunit, and the other end of the connecting plate is fixedly connected with the horizontal upward swinging adjusting module;

the camera lens adjusting module is fixedly connected with the camera and comprises a camera axial adjusting assembly and a camera swing adjusting assembly;

the camera axial adjusting assembly is used for adjusting the camera lens module along the axial direction of the camera lens and comprises a second sliding subunit, the second sliding subunit is parallel to the axial direction of the camera lens and can move back and forth along the axial direction of the camera lens, and one side wall of the camera is fixedly connected with the camera axial adjusting assembly so as to move along the axial direction of the camera lens under the driving of the camera axial adjusting assembly;

the camera swing adjusting assembly is used for adjusting the upward swing of the camera lens module on an XY plane and comprises a second swing adjusting displacement table, an adapter plate and an L-shaped camera fastening plate, the second swing adjusting displacement table and the adapter plate are arranged in parallel to the XY plane, the upper end face of the second swing adjusting displacement table is fixedly connected with the horizontal upward swing adjusting module, and the lower end face of the second swing adjusting displacement table is fixedly connected with a sliding block of the second sliding subunit through the adapter plate; the camera fastening plate is arranged between the camera lens module and the horizontal pitch adjustment module, one edge of the L-shaped camera fastening plate is detachably connected with the side wall of the second slider sheet, and the other edge of the camera fastening plate is fixedly connected with the horizontal pitch adjustment module.

The horizontal pitch adjustment module is respectively fixedly connected with the camera lens adjustment module and the light source adjustment module so as to be used for adjusting the pitch angle of the camera lens module and the light source module on a YZ plane.

Preferably, the horizontal pitch adjustment module includes a first swing adjustment displacement table and an angle connection plate, the first swing adjustment displacement table is parallel to a YZ plane, the lower end surface of the first swing adjustment displacement table is fixedly disposed, the upper end surface of the first swing adjustment displacement table is fixedly connected to the angle connection plate to drive the angle connection plate to adjust pitch on the YZ plane, and the other end surface of the angle connection plate is respectively fixedly connected to the connection plate, the second swing adjustment displacement table and the camera fastening plate to drive the light source module and the camera lens module to perform pendulum movement on the YZ plane as a whole.

Furthermore, the angle connecting plate comprises a connecting side plate and a connecting bottom plate which are arranged in a T shape, the connecting side plate is arranged parallel to a YZ plane, one end face of the connecting side plate is fixedly connected with the first swing adjusting displacement table so as to drive other components to adjust the pitching of the YZ plane under the driving of the first swing adjusting displacement table, two waist-shaped openings are symmetrically formed in the connecting side plate, and the connecting side plate is fixedly connected with an external portal frame or a Z-direction adjusting module through screws penetrating through the waist-shaped openings; the connecting bottom plate is arranged parallel to the XY plane, a U-shaped opening is formed in one end, connected with the connecting bottom plate, of the connecting plate, and the connecting plate is fixedly connected with the connecting bottom plate through screws after being clamped and connected with the connecting bottom plate through the U-shaped opening; the connecting bottom plate is fixedly connected with the other edge of the camera fastening plate through a screw, and the connecting bottom plate is fixedly connected with the second swing adjusting displacement table through a screw.

Preferably, light source position adjustment unit still includes regulating plate around one, the regulating plate is located around the back and forth light source fixed plate with between the first subunit that slides, around regulating plate one end with the slip table of first subunit that slides links to each other with fixed, the regulating plate other end is equipped with one row at least horizontal fluting along the X axle direction around, the light source fixed plate corresponds the horizontal fluting is equipped with the screw hole, the light source fixed plate with pass between the regulating plate around with horizontal fluting's fastening screw fixed connection, so that light source module can pass through horizontal fluting is followed X axle direction back-and-forth movement.

Further, still be equipped with a recess along the X axle direction on the front and back regulating plate, the light source fixed plate corresponds the recess is equipped with a boss, the boss with the sliding channel gomphosis is connected.

Preferably, the L type camera mounting plate wherein one side with the board that the lateral wall of second slip subunit is connected is equipped with a displacement groove along camera lens axial direction on, the lateral wall correspondence of second slip subunit is equipped with at least one screw hole, camera mounting plate with the second slip subunit via passing the fastening screw fixed connection in displacement groove, the camera mounting plate on the other side with the angle connecting plate via screw fixed connection.

Preferably, the device for detecting the arc edge defect of the mobile phone glass cover plate further comprises a Z-direction adjusting module, wherein the Z-direction adjusting module is used for adjusting the horizontal position of the light source module and the whole camera lens module and comprises a third sliding subunit, the third sliding subunit is arranged along the Z-axis direction and can move back and forth along the Z-axis direction, the bottom of the third sliding subunit is fixedly connected with an external portal frame, and a sliding block of the third sliding subunit is fixedly connected with the lower end face of the first swing adjusting displacement table so as to drive the light source module and the camera lens module to move along the Z-axis direction.

Furthermore, the mobile phone glass cover plate arc edge defect detection device further comprises a sliding table fixing plate, the sliding table fixing plate is fixedly connected with the portal frame, and the Z-direction adjusting module is arranged on the portal frame through the sliding table fixing plate.

Preferably, the glass feeding module comprises a conveying guide rail, a motor, a motion control card, a photoelectric sensor and a jig for bearing a mobile phone glass cover plate, the photoelectric sensor is fixed on one side of the conveying guide rail, the mobile phone glass cover plate jig is horizontally placed on the conveying guide rail and is driven by the conveying guide rail to move forwards at a uniform horizontal speed, the jig and a mobile phone shell are relatively fixed and kept horizontal, the photoelectric sensor is installed at a specific position of the conveying guide rail, when a base with the jig moves to the specific position, the photoelectric sensor sends an image acquisition signal, and when the base moves to the specific position, the image acquisition is stopped, and a high-definition high-resolution image is generated.

Preferably, the first swing adjustment displacement table and the second swing adjustment displacement table are rotary manual displacement tables;

and/or the first sliding subunit and the second sliding subunit are simple adjusting components;

and/or two groups of arc-shaped grooves are respectively arranged on each light source fixing plate, and the distance between the two groups of arc-shaped grooves is arranged corresponding to the mounting hole positions on the side wall of the light source;

and/or the light source module comprises two groups of high-angle light sources arranged in the middle of the arc-shaped groove and one or two low-angle light sources arranged at the left end and the right end of the arc-shaped groove.

The utility model discloses a cell-phone glass apron arc limit defect detecting device, can be as required, the light source projection angle of accurate adjustment light source department, camera fore-and-aft swing's inclination and camera lens are focused at glass apron arc limit to guarantee to form images clearly.

Specifically, when the installation is finished, the installation angle of the light source is adjusted by adjusting the position of the light source on the arc-shaped groove, the relative position of the light source to the glass to be detected is adjusted through the light source position adjusting unit, and the brightness of the light source is adjusted to a proper value so as to complete the adjustment of the projection angle of the light source; then adjusting the displacement table through second swing, and matching the adjusted light source projection angle to adjust the cameraThe light receiving angle is adjusted to a proper position_，The internal light sensing of the camera is fully and uniformly, and the focusing position of the lens is adjusted to a proper position through the adjustment of the second sliding subunit; in the adjusting process, the adjustment of the projection angle of the light source and the adjustment of the front and back swing inclination angle of the camera/focusing of the camera lens are not interfered with each other, so that the installation and debugging time can be greatly saved.

Drawings

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

FIG. 2 is a schematic structural diagram of modules of the embodiment shown in FIG. 1;

FIG. 3 is a schematic view of the connection between the light source module and the light source fixing assembly in the embodiment shown in FIG. 1;

FIG. 4 is a schematic diagram of the connection of the camera lens module, the light source adjusting module and the horizontal tilt adjusting module in the embodiment of FIG. 1;

FIG. 5 is a schematic structural diagram of a camera lens adjustment module according to the embodiment shown in FIG. 1;

FIG. 6 is a schematic structural diagram of a camera lens module according to the embodiment shown in FIG. 1;

FIG. 7 is a schematic structural view of a glass feed module of the embodiment of FIG. 1;

FIG. 8 is a schematic structural view of an angle joint plate in the embodiment of FIG. 1;

wherein, the light source module 10: low angle light source 11, high angle light source 12, light source adjusting module 20, light source mounting plate 21, arc groove 211, light source fixing plate 22, boss 221, front and back adjusting plate 23, horizontal slotted groove 231, recess 232, first slip subunit 24, connecting plate 25, horizontal pitch adjustment module 30, first swing adjustment displacement table 31, connecting side plate 32, connecting bottom plate 33, waist type trompil 34, Z is to adjusting module 40, third slip subunit 41, slip table fixing plate 42, camera lens module 50: camera lens 51, camera 52, camera lens adjustment module 60: the device comprises a second sliding subunit 61, a second swing adjusting displacement table 62, an adapter plate 63, an L-shaped camera fastening plate 64, a displacement groove 65, a glass feeding module 70, a guide rail 71, a motor 72, a photoelectric sensor 73 and a jig 74.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the scope of the invention in any way.

Like reference numerals refer to like elements throughout the specification. The expression "and/or" includes any and all combinations of one or more of the associated listed items. In the drawings, the thickness, size, and shape of an object have been slightly exaggerated for convenience of explanation. The figures are purely diagrammatic and not drawn to scale.

It will be further understood that the terms "comprises," "comprising," "includes," "including," "has," "includes" and/or "including," when used in this specification, specify the presence of stated features, steps, integers, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, steps, integers, operations, elements, components, and/or groups thereof.

The terms "substantially", "about" and the like as used in the specification are used as terms of approximation and not as terms of degree, and are intended to account for inherent deviations in measured or calculated values that would be recognized by one of ordinary skill in the art.

Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

As shown in fig. 1 and 2, the present invention provides a device for detecting defects on the arc edge of a glass cover plate of a mobile phone, which comprises a camera lens module 50, a camera lens adjusting module 60, a light source module 10, a light source adjusting module 20, a horizontal swing adjusting module 30 and a glass feeding module 70, wherein the vertical upward direction is defined as the Y direction, and the horizontal rightward direction is defined as the Z direction; the direction perpendicular to the plane of YZ and facing outwards is the X direction;

the glass feeding module 70 is used for conveying the glass to be detected to a designated position; the light source module 10 includes at least one set of high-brightness light sources; as shown in fig. 6, the camera lens module 50 includes a camera 52 and a camera lens 51 fixedly connected to the camera 52, wherein the light source may be a line light source, and the camera 52 and the camera lens 51 may be a line scan camera and a line scan lens.

The horizontal pitch adjustment module 30 is used for pitch adjustment of the camera lens module 50 and the light source module 10 in YZ plane to adjust the camera lens module 50 and the light source module 10 to positions approximately aligned at the glass arc edge.

The light source adjusting module 20 is used for adjusting the lighting angle of the light source module 10, and comprises a light source fixing component and a light source distance adjusting component which are sequentially connected; as shown in fig. 3, the light source fixing assembly is used for adjusting the upward swing of the light source module 10 on the XY plane, and includes at least one set of light source mounting plate 21, one side of the light source mounting plate 21 is parallel to the X axis direction, the other side is parallel to the axial direction of the camera lens, at least one set of arc-shaped grooves 211 are respectively arranged on the light source mounting plate 21, the arc-shaped grooves 211 are arranged along the negative direction of the X axis, the light source module 10 and the arc-shaped grooves 211 on the light source mounting plate 21 are respectively fixedly connected in a detachable manner, so that the light source module can move in an arc shape on the XY; in the illustrated embodiment, the light source fixing assembly includes two sets of light source mounting plates 21 symmetrically disposed, and the light source module 10 is disposed between the two sets of light source mounting plates 21, or alternatively, only one set of light source mounting plates 21 may be disposed, and the light source module 10 is fixed by the set of light source mounting plates.

As shown in fig. 4, the light source distance adjusting assembly is used for adjusting the distance between the light source and the glass to be detected, and comprises a light source fixing plate 22, a light source position adjusting unit and a connecting plate 25 which are sequentially connected from bottom to top; the light source position adjusting unit comprises a first sliding subunit 24, the first sliding subunit 24 is arranged along the axial direction of the camera lens and can move back and forth along the axial direction of the camera lens, one end of the light source fixing plate is fixedly connected with one group of the light source mounting plates 21, the other end of the light source fixing plate is fixedly connected with the light source position adjusting unit so as to drive the light source module 10 to move integrally along the axial direction of the camera lens under the driving of the first sliding subunit 24, one end of the connecting plate 25 is fixedly connected with the sliding block of the first sliding subunit 24, and the other end of the connecting plate is fixedly connected with the horizontal pitch adjusting module 30;

the camera lens adjustment module 60 is used for adjusting the camera lens module 50, and includes a camera axial adjustment component and a camera swing adjustment component. As shown in fig. 5, the camera axial adjustment assembly is used for adjusting the camera lens module 50 along the axial direction of the camera lens, and includes a second sliding subunit 61, the second sliding subunit 61 is disposed along the axial direction of the camera lens and can move back and forth along the axial direction of the camera lens, and a side wall of the camera 52 is fixedly connected to the camera axial adjustment assembly to move along the axial direction of the camera lens under the driving of the camera axial adjustment assembly; the camera swing adjusting assembly is used for adjusting the upward swing of the camera and the lens on an XY plane and comprises a second swing adjusting displacement table 62, an adapter plate 63 and an L-shaped camera fastening plate 64, the second swing adjusting displacement table 62 and the adapter plate 63 are arranged in parallel to the XY plane, the upper end face of the second swing adjusting displacement table 62 is fixedly connected with an angle connecting plate of the horizontal upward swing adjusting module 30, and the lower end face of the second swing adjusting displacement table 62 is fixedly connected with a sliding block of a second sliding subunit 61 through the adapter plate 63; the camera fastening plate is arranged between the camera lens module and the horizontal swing adjusting module, one edge of the L-shaped camera fastening plate is detachably connected with the side wall of the second slider sheet, and the other edge of the L-shaped camera fastening plate is fixedly connected with the angle connecting plate. In the illustrated embodiment, a displacement slot 65 is formed in a plate, where the camera fastening plate 64 is connected to a side wall of the second sliding sub-unit 61, along an axial direction of the camera lens, at least one screw hole is correspondingly formed in the side wall of the second sliding sub-unit 61, the camera fastening plate 64 is fixedly connected to the second sliding sub-unit 61 through a fastening screw passing through the displacement slot 65, and the other end of the camera fastening plate 64 is fixedly connected to the angle connecting plate through a screw, so that the second swing adjusting displacement table 62 can be fixed in rotation angle.

The utility model discloses a cell-phone glass apron arc limit defect detecting device can adjust the light source accurately and focus at the projection angle of glass apron arc limit department, camera fore-and-aft swing's inclination and camera lens, simultaneously, in the adjustment process, the adjustment of light source angle and the two mutual noninterference of camera adjustment.

The working principle of the device is described below by using a linear light source, a linear array camera and a lens of the linear array camera to detect the arc edge defect of the glass cover plate.

In the on-line scanning system, for the light source and the camera, the effective working area is a narrow strip, that is, the light source is ensured to be irradiated on the brightest narrow strip and be completely parallel to the camera chip, otherwise, only one crossed bright spot can be shot, so that the mechanical installation and debugging are more time-consuming, when the light source controller controls the light source module to emit the light strip, the device for detecting the arc edge defect of the glass cover plate of the mobile phone disclosed by the utility model (1) rotates the whole device to a proper angle by adjusting the deflection angle of the horizontal upward swing adjusting module 30, and approximately aligns at the arc edge of the glass; (2) the installation angle of the light source is adjusted by adjusting the position of the light source module 10 on the arc-shaped groove 211; (3) adjusting the relative position of the light source to the glass to be measured through the light source position adjusting unit so as to adjust the brightness of the light source to a proper value; (4) adjusting the camera swing adjusting assembly to swing and adjust the camera lens assembly to a proper angle in the XY plane so that the camera lens can be approximately aligned with the arc edge of the cover plate; (5) the camera axial adjusting assembly is adjusted by combining the theoretical value of the working distance of the camera lens and matching with the light-emitting angle of the light source, so that the light strip irradiates the arc edge of the glass cover plate at a certain inclination angle, is clear and bright and can completely cover the arc edge of the glass cover plate of the mobile phone.

The optical strip information can enter a slit of the linear array camera to be imaged just after being reflected by the edge of the glass cover plate, namely, a scanning line can be overlapped with a strip-shaped reflection light source band, the light intensity is consistent, a camera lens is adjusted to an approximate position according to a theoretical value of the working distance of the camera lens, then a focusing position is accurately adjusted to be clear through a camera axial adjusting assembly by combining image acquisition software, and the linear array camera is convenient for scanning and imaging clearly in the later period.

The device can also be used for adjusting the position and the angle of other types of light sources, cameras and lenses, such as area-array cameras; besides, the device is used for detecting the arc edge of the glass cover plate of the mobile phone, and can also be applied to other occasions needing to adjust the projection angle of a light source, the focusing of a camera lens and the inclination angle of the front and back swinging of the camera.

As a preferred scheme, the horizontal pitch adjustment module 30 includes a first swing adjustment displacement stage 31 and an angle connection plate, which are parallel to the YZ plane, a lower end surface of the first swing adjustment displacement stage 31 is fixedly connected to the outside, an upper end surface of the first swing adjustment displacement stage 31 is fixedly connected to the angle connection plate to drive the pitch adjustment of the angle connection plate on the YZ plane, and the other end surface of the angle connection plate is respectively fixedly connected to the second sliding subunit 61 of the camera lens adjustment module 60, the camera fastening plate 64, and the connection plate of the light source adjustment module 20 to drive the light source module 10 and the camera lens module 50 to perform a pendulum motion on the YZ plane as a whole;

furthermore, as shown in fig. 8, the angle connection plate includes a connection bottom plate 33 and a connection side plate 32, which are arranged in a T shape, the connection side plate 32 is parallel to the YZ plane, and two waist-shaped openings 34 are symmetrically arranged thereon, one end surface of the connection side plate 32 is fixedly connected with the first swing adjustment displacement table 31, so as to drive other components to adjust the swing in the YZ plane under the driving of the first swing adjustment displacement table 31, and when the swing angle is determined, fastening screws are inserted into the waist-shaped openings 34 to press against the gantry support or the Z-direction adjustment module 40 along the X direction, thereby fixing the swing angle; the connecting bottom plate 33 is arranged in parallel to the XY plane, a U-shaped opening is formed in one end, connected with the horizontal swing adjusting module 30, of the connecting plate 25, and the connecting plate 25 is fixedly connected with the connecting bottom plate 33 through screws after being connected with the connecting bottom plate 33 in a clamping mode through the U-shaped opening; the connecting base plate 33 is provided with a slot corresponding to the camera fastening plate 64, and the two are fixedly connected by a screw passing through the slot, and the connecting base plate 33 is provided with a plurality of connecting holes corresponding to the second sliding sub-unit 61, and the two are fixedly connected by a screw passing through the connecting holes.

As a preferable scheme, the light source position adjusting unit further includes a front and rear adjusting plate 23, and the front and rear adjusting plate 23 is located between the light source fixing plate and the first sliding subunit 24, and is used for fixing the light source fixing plate and the first sliding subunit; at least one row of horizontal slots 231 are formed in the front and rear adjusting plates 23 along the X-axis direction, the sliding table of the first sliding sub-unit 24 is fixedly connected to the bottom surfaces of the front and rear adjusting plates 23, screw holes are formed in the light source fixing plate corresponding to the horizontal slots 231, and the light source fixing plate is fixedly connected to the front and rear adjusting plates 23 through fastening screws penetrating through the horizontal slots 231, so that the light source module 10 can move back and forth along the X-axis direction through the horizontal slots 231.

Furthermore, a groove 232 is further arranged on the front and rear adjusting plate 23 along the X-axis direction, a boss 221 is arranged on the light source fixing plate corresponding to the groove 232, and the boss 221 is connected with the sliding channel in an embedded manner for positioning when the front and rear adjusting plate 23 is connected with the light source fixing plate; in the illustrated embodiment, in order to improve the connection strength between the front and rear adjustment plates 23 and the light source fixing plate, two rows of horizontal slots 231 are provided, the grooves 232 on the front and rear adjustment plates 23 are provided below the horizontal slots 231, when the front and rear adjustment plates 23 and the light source fixing plate are adjusted, the connecting bolts on the horizontal slots 231 are loosened, and then, the connecting bolts slide along the X-axis direction through the matching of the grooves 232 and the bosses 221 as required, the position of the light source module 10 on the X-axis is finely adjusted, if it is determined that the angle adjustment of the light source is proper, the lens does not interfere with the light source, the CCD camera is uniformly sensitive (can be observed through software), and then screws are installed into the screw holes corresponding to the light source fixing plate through the two groups of horizontal.

As a preferred scheme, the utility model discloses a cell-phone glass apron arc limit defect detecting device still includes a Z to adjusting module 40, Z is used for the holistic horizontal position of light source module 10 and camera lens module 50 to adjust module 40, it includes third subunit 41 that slides, third subunit 41 that slides is arranged and can be followed Z axle direction and come and go the removal along the Z axle direction, third subunit 41 bottom that slides links to each other with outside portal frame is fixed, the slider of third subunit 41 that slides links to each other with terminal surface is fixed under first swing regulation displacement platform 31 to drive light source module 10 and camera lens module 50 and remove along Z axle direction. Furthermore, the mobile phone glass cover plate arc edge defect detection device further comprises a sliding table fixing plate 42, the sliding table fixing plate 42 is fixedly connected with the portal frame, and the Z-direction adjusting module is arranged on the portal frame through the sliding table fixing plate.

As a preferable scheme, as shown in fig. 7, the glass feeding module 70 includes a conveying rail 71, a motor 72, a motion control card, a photoelectric sensor and a jig 74 for bearing a mobile phone glass cover plate, the photoelectric sensor is fixed on one side of the conveying rail 71, the mobile phone glass cover plate jig 74 is horizontally placed on the conveying rail 71, the conveying rail 71 drives the mobile phone glass cover plate jig 74 to horizontally move forward at a uniform speed, the jig 74 and a mobile phone shell are relatively fixed and kept horizontal, the photoelectric sensor is installed on a specific position of the conveying rail 71, when a base with the jig 74 moves to the specific position, the photoelectric sensor is triggered to sense, an image acquisition signal is sent at the same time, when the base moves to the specific position, the image acquisition is stopped, and a high-definition high-resolution image is generated. The computer is respectively connected with the photoelectric sensor, the image acquisition card and the motion control card for image acquisition of the whole detection device, the image is acquired from the linear array camera and then transmitted to the image processing software, and the software detects the defects of the arc edge of the glass cover plate in real time and judges whether the defects exist or not, thereby completing the online detection of the defects of the glass cover plate of the mobile phone.

Preferably, the first swing adjustment displacement table 31 and the second swing adjustment displacement table 62 are rotary manual displacement tables, so as to convert the rotary motion into the angular swing of the table top around the rotation center.

In the illustrated embodiment, the fixed plate (lower end surface) of the first swing adjustment stage 31 is fixedly connected to the outside, the movable plate (upper end surface) of the first swing adjustment stage 31 is fixedly connected to the connecting bottom plate 33 of the angle connecting plate, and the light source module 10 and the camera lens module 50 can be driven to swing upward and downward on the YZ plane by rotating the adjusting screw on the first swing adjustment stage 31. The fixed plate (i.e. the lower end surface) of the second swing adjusting displacement table 62 is fixedly connected with the sliding table of the second sliding sub-unit 61 through the adapter plate 63, the movable plate (i.e. the upper end surface) of the second swing adjusting displacement table 62 is fixedly connected with the connecting side plate 32 of the angle connecting plate, the camera lens component is adjusted to a proper angle in the XY plane by rotating the adjusting screw on the second swing adjusting displacement table 62, so that the camera lens can be approximately aligned with the arc edge of the cover plate,

and/or the first sliding sub-unit 24, the second sliding sub-unit 61 and the third sliding sub-unit 41 are simple adjusting components, so that the rotation motion is converted into the linear motion through the constraint of the degree of freedom.

In the illustrated embodiment, the sliding block of the first sliding subunit 24 is fixedly connected with the connecting plate 25, the bottom of the first sliding subunit 24 is fixedly connected with the front and rear adjusting plates 23, and the three feed screws drive the sliding table to move by rotating the adjusting screws of the first sliding subunit 24, so as to adjust the distance between the light source and the glass to be measured; the bottom of the second sliding subunit 61 is fixedly connected with the side wall of the camera 52, and the three feed screws drive the sliding table to move by rotating the adjusting screws of the second sliding subunit 61 so as to adjust the distance between the camera lens module 50 and the glass to be measured; the bottom of the third sliding subunit 41 is fixedly connected with the portal frame or the sliding table fixing plate 42, and the three feed screws drive the sliding table surface to move by rotating the adjusting screws of the third sliding subunit 41, so that the whole defect detection device is driven to horizontally move, and the whole device is adjusted to a position approximately aligned with the arc edge of the glass. Besides manual adjustment, each sliding subunit and each swinging adjusting displacement platform can also be an electric control displacement platform (such as a large constant photoelectric model GCD-202050M and a Zhuoli Han optical model PSA050-11-X) and an electric control rotary displacement platform, and the adjustment device is controlled to adjust the translation distance and the rotation angle through software input instructions.

In the light source module, the number of light sources is selected by considering the installation space and the actual polishing effect, and as a preferred scheme, the light source module 10 includes two groups of high-angle light sources 12 arranged in the middle of the arc-shaped groove 211 and one or two groups of low-angle light sources 11 arranged at the left and right ends of the arc-shaped groove 211. If the light source is a line light source, the light source installation angle moves on the arc-shaped groove 211 as required to be adjusted to a proper angle, so that light emitted by the four high-brightness light sources forms a narrow light band on the surface of the arc edge of the glass, the four light bands converge into a line, the scanning line of the line camera is superposed with the light band, after being reflected by the surface of the arc edge of the glass, the light band is reflected to the exposure film of the camera, and the light intensity is consistent, so that the installation is favorable for the line scanning camera to scan and clearly image.

As a preferred scheme, two groups of arc-shaped grooves 211 are respectively arranged on each light source fixing plate, the distance between the two groups of arc-shaped grooves 211 is arranged corresponding to the mounting hole positions on the side wall of the light source, and the light source is detachably and fixedly connected with the arc-shaped grooves 211 through the matching of screws on the side wall of the light source and the mounting holes; the arc setting range of the arc groove 211 is designed according to the angle range of low-angle lighting, the arc of the arc groove 211 is usually from 25 degrees to 155 degrees, and the length range is designed according to the distance between the light source and the glass cover plate and the lighting angle. The mounted position of light source can be very convenient to slide in arc groove 211, observes the light band that the light source projects glass arc limit, carries out the pretension after the position has roughly been transferred, and the light band is through glass arc limit surface reflection back, and camera 52 is whether gathered the enough and even light band of intensity, finely tunes the position at arc groove 211 of light source, until camera 52 gathers the enough and even light band of intensity, screws up at last and locks.

In the illustrated embodiment, the two sets of arc-shaped grooves 211 and the light sources are fixed by fastening screws, the two light source mounting plates 21 are distributed on two sides of the light sources, and the light emitting surfaces of the light sources face the object to be measured. The light source both sides all have the installation set screw, and both sides arc groove 211 size designs according to the light source installation hole site. The installation process comprises the following steps: firstly holding the light emitting surface of the light source to face one surface of the object to be measured, then holding the light source mounting hole position to face the arc-shaped groove 211 of the light source mounting plate 21, fixing and fastening by using screws, fixing and then holding the light source mounting plate 21 on the other side for mounting, firstly preliminarily pre-tightening the screws, then sequentially mounting four light sources, and adjusting the position and the mounting angle of the light source according to the actual imaging effect.

As a preferred scheme, the mobile phone glass cover plate arc edge defect detection devices are arranged on the portal frame in pairs.

The following light source is used as the line source, the camera is used as the line array camera, it is right to combine during operation overall adjustment step the utility model discloses a cell-phone glass apron arc limit defect detecting device carries out further explanation:

in the on-line scanning system, for the light source and the camera, the effective working area is a narrow strip, that is, the light source is ensured to be irradiated on the brightest narrow strip and be completely parallel to the camera chip, otherwise, only one crossed bright spot can be shot, so that the mechanical installation and debugging are more time-consuming, the device for detecting the arc edge defect of the glass cover plate of the mobile phone, disclosed by the utility model, assembles each part module and installs the parts on the gantry frame after finishing;

(1) rotating the fine-tuning Z-direction adjusting module 40, horizontally moving the mobile phone glass cover plate arc edge defect detection device, adjusting the whole device to a position approximately aligned with the arc edge of the glass, and fastening the Z-direction adjusting module 40; in the illustrated embodiment, by rotating the adjusting screw of the third sliding subunit 41, the three feed screws drive the sliding table to move, so as to drive the defect detection device to move horizontally, so as to adjust the whole device to a position approximately aligned with the arc edge of the glass and fasten the device. In addition, cell-phone glass apron arc limit defect detecting device still includes a slip table fixed plate 42, and slip table fixed plate 42 is fixed continuous with the portal frame, and Z is located on the portal frame to adjusting module 40 through slip table fixed plate 42. In addition, the entire device can be mounted directly at a position approximately aligned with the glass arc edge.

(2) Adjusting the horizontal tilt adjustment module 30 to rotate the entire device to a suitable angle, approximately aligned with the glass arc edge;

in the illustrated embodiment, the two fastening screws disposed in the waist-shaped hole on the angle connecting plate are loosened, the adjusting screw on the first swing adjusting displacement table 31 is rotated to an appropriate angle by horizontally swinging the adjusting device, the entire device is approximately aligned with the arc edge of the glass, and then the fixing screw on the adjusting displacement table and the two fastening screws on the angle connecting plate are tightened to fix the angle.

(3) The installation angle of the light source is adjusted, the light source is powered on, the aperture of the lens is adjusted to be the maximum, and the installation angle of the light source is adjusted by adjusting the position of the light source on the arc-shaped groove 211.

In the illustrated embodiment, two arc-shaped grooves 211 are installed on the light source fixing and mounting plate, and the light source can slide in the arc-shaped grooves 211 and is fixed in the arc-shaped grooves 211 through screws so as to adjust the angle and position of the light source conveniently; when the light source position is adjusted, the three light sources are adjusted to a proper light-emitting angle by combining the brightness condition of the linear array camera lens imaging, so that the light of the light sources is emitted to the arc edge of the cover plate. In the adjusting process, the illumination intensity of the CCD camera can be observed through the line-scan camera image acquisition software, the relative position of the light source to the glass to be measured is adjusted through the light source position adjusting unit, the image uniformity and the light source brightness are adjusted, if the image is uniformly sensitive and the brightness is proper, if the image gray value is judged to be about 200, the light source is judged to be adjusted to the proper position.

In addition, when the light source angle is adjusted, the relative position between the front and rear adjusting plates 23 and the light source module 10 can be finely adjusted according to actual needs, so that the light source angle is properly adjusted, the lens and the light source do not interfere, and the CCD camera is uniformly sensitive to light (observed through software).

(4) Adjusting the camera swing adjusting assembly to swing and adjust the camera lens assembly to a proper angle in the XY plane so that the camera lens can be approximately aligned with the arc edge of the cover plate;

firstly loosening the fastening screw between the camera fastening plate 64 and the connecting bottom plate, then adjusting the adjusting screw on the second swing adjusting displacement table 62, swinging and adjusting the camera lens component to a proper angle in an XY plane, screwing the fixing screw on the second swing adjusting displacement table 62 after the camera lens can be approximately aligned with the arc edge of the cover plate, and finally screwing the fastening screw between the camera fastening plate 64 and the connecting bottom plate.

(5) Adjusting the axial adjusting component of the camera by combining the theoretical value of the working distance of the lens of the camera; firstly, the distance between the lowest end of the camera lens and the edge of the arc edge of the actual glass cover plate is actually measured, then the fastening screw between the camera fastening plate 64 and the side wall of the second sliding subunit is loosened, the adjusting screw of the second sliding subunit is adjusted, so that the whole camera lens component module moves along the axial direction of the camera lens, the working distance is adjusted to a theoretical value, and then the fastening screw between the camera fastening plate 64 and the side wall of the second sliding subunit 61 is screwed. When the adjusting screw on the second sliding subunit 61 is screwed, the three feed screws drive the sliding table to move, the sliding table and the camera fixing plate are fastened together through screws, and the camera fixing plate is connected with the camera lens module 50 through fixing screws, so that the camera lens module 50 can be adjusted to move integrally along the axial direction of the camera lens through the adjusting screw, and fine adjustment is realized.

(6) Focusing is carried out by combining the actual imaging effect of the linear array camera. Setting parameters of the line-scan camera, collecting the image in a static state, combining the definition of the light stripe, and connecting the camera fastening plate 64 with the camera fastening plate

The fastening screws between the sidewalls of the second sliding sub-unit are loosened, the adjusting screws on the camera axial adjustment assembly (i.e., the adjusting screws of the second sliding sub-unit) are finely adjusted until the image reaches the clearest position, and then the position is kept still, locking the fastening screws between the camera fastening plate 64 and the sidewalls of the second sliding sub-unit. And then adjusting a focusing ring on the lens of the linear array camera, observing the image while adjusting the focusing ring until the image is clearest, locking a focusing fastening screw on the lens of the camera, and if the brightness of the image is found to be brighter, adjusting the aperture to be proper, and locking the aperture fastening screw.

After all the adjustment is finished, after the corresponding parameters are set, when the motor of the feeding mechanism is judged to move to the designated position, the acquisition signal of the linear array camera is triggered, the linear array camera starts to acquire images, the number of trigger pulses is set, the servo motor 72 stops acquiring after moving to the designated position, and after the acquisition is finished, the camera 52 can automatically generate an image of the arc edge of the glass cover plate, the image is clear, and the image is formed at the arc edge.

The above embodiment numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments.

The above is only the preferred embodiment of the present invention, and not the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings or the direct or indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a cell-phone glass apron arc limit defect detecting device which characterized in that: the method comprises the following steps: the device comprises a camera lens module, a camera lens adjusting module for adjusting the camera lens module, a light source adjusting module for adjusting the lighting angle of the light source module, a horizontal upward swinging adjusting module and a glass feeding module for conveying glass to be detected to a specified position;

the light source module is used for providing illumination light sources and comprises at least one group of high-brightness light sources;

the camera lens module comprises a camera and a camera lens fixedly connected with the camera;

the light source adjusting module comprises a light source fixing component and a light source distance adjusting component which are sequentially connected; the light source fixing assembly is used for adjusting the upward swing of the light source module on an XY plane and comprises at least one group of light source mounting plates, one side of each light source mounting plate is arranged in parallel to the X-axis direction, the other side of each light source mounting plate is arranged in parallel to the axial direction of the camera lens, each light source mounting plate is provided with at least one arc-shaped groove along the X-axis direction, and the light sources are detachably and fixedly connected with the arc-shaped grooves, so that each light source can move on the XY plane through the arc-shaped grooves; the light source distance adjusting assembly is used for adjusting the distance between the light source and the glass to be detected and comprises a light source fixing plate, a light source position adjusting unit and a connecting plate which are sequentially connected from bottom to top; the light source position adjusting unit comprises a first sliding subunit, the first sliding subunit is arranged in parallel to the axial direction of the camera lens and can move back and forth along the axial direction of the camera lens, one end of the light source fixing plate is fixedly connected with one group of the light source mounting plates, the other end of the light source fixing plate is fixedly connected with the light source position adjusting unit so as to drive the light source module to move integrally along the axial direction of the camera lens under the driving of the first sliding subunit, one end of the connecting plate is fixedly connected with the sliding block of the first sliding subunit, and the other end of the connecting plate is fixedly connected with the horizontal upward swinging adjusting module;

the camera lens adjusting module is fixedly connected with the camera and comprises a camera axial adjusting assembly and a camera swing adjusting assembly;

the camera axial adjusting assembly is used for adjusting the camera lens module along the axial direction of the camera lens and comprises a second sliding subunit, the second sliding subunit is parallel to the axial direction of the camera lens and can move back and forth along the axial direction of the camera lens, and one side wall of the camera is fixedly connected with the camera axial adjusting assembly so as to move along the axial direction of the camera lens under the driving of the camera axial adjusting assembly;

the camera swing adjusting assembly is used for adjusting the upward swing of the camera lens module on an XY plane and comprises a second swing adjusting displacement table, an adapter plate and an L-shaped camera fastening plate, the second swing adjusting displacement table and the adapter plate are arranged in parallel to the XY plane, the upper end face of the second swing adjusting displacement table is fixedly connected with the horizontal upward swing adjusting module, and the lower end face of the second swing adjusting displacement table is fixedly connected with a sliding block of the second sliding subunit through the adapter plate; the camera fastening plate is arranged between the camera lens module and the horizontal pitch adjustment module, one edge of the L-shaped camera fastening plate is detachably connected with the side wall of the second slider sheet, and the other edge of the L-shaped camera fastening plate is fixedly connected with the horizontal pitch adjustment module;

the horizontal pitch adjustment module is respectively fixedly connected with the camera lens adjustment module and the light source adjustment module so as to be used for adjusting the pitch angle of the camera lens module and the light source module on a YZ plane.

2. The device for detecting the arc edge defect of the mobile phone glass cover plate according to claim 1, characterized in that: the horizontal pitching adjusting module comprises a first swinging adjusting displacement table and an angle connecting plate, the first swinging adjusting displacement table is parallel to a YZ plane, the lower end face of the first swinging adjusting displacement table is fixedly arranged, the upper end face of the first swinging adjusting displacement table is fixedly connected with the angle connecting plate to drive the angle connecting plate to adjust pitching on the YZ plane, and the other end face of the angle connecting plate is fixedly connected with the connecting plate, the second swinging adjusting displacement table and the camera fastening plate to drive the light source module and the camera lens module to do pendulum movement on the YZ plane integrally.

3. The device for detecting the arc edge defect of the mobile phone glass cover plate according to claim 2, wherein: the angle connecting plate comprises a connecting side plate and a connecting bottom plate, the connecting side plate is arranged in parallel to a YZ plane, one end face of the connecting side plate is fixedly connected with the first swing adjusting displacement table so as to drive other components to adjust the pitching of the YZ plane under the driving of the first swing adjusting displacement table, two waist-shaped openings are symmetrically formed in the connecting side plate, and the connecting side plate is fixedly connected with an external portal frame or a Z-direction adjusting module through screws penetrating through the waist-shaped openings; the connecting bottom plate is arranged parallel to the XY plane, a U-shaped opening is formed in one end, connected with the connecting bottom plate, of the connecting plate, and the connecting plate is fixedly connected with the connecting bottom plate through screws after being clamped and connected with the connecting bottom plate through the U-shaped opening; the connecting bottom plate is fixedly connected with the other edge of the camera fastening plate through a screw, and the connecting bottom plate is fixedly connected with the second swing adjusting displacement table through a screw.

4. The device for detecting the arc edge defect of the mobile phone glass cover plate according to claim 1, characterized in that: light source position adjustment unit still includes regulating plate around one, the regulating plate is located around the front and back light source fixed plate with between the first subunit that slides, around regulating plate one end with the slip table of first subunit that slides links to each other with fixed, the regulating plate other end is equipped with one row at least horizontal fluting along the X axle direction around, the light source fixed plate corresponds the horizontal fluting is equipped with the screw hole, the light source fixed plate with via passing between the regulating plate around the front and back the slotted fastening screw fixed connection of level, so that light source module can via horizontal fluting is along X axle direction back-and-forth movement.

5. The device for detecting the arc edge defect of the mobile phone glass cover plate according to claim 4, wherein: a groove is further formed in the front adjusting plate and the rear adjusting plate along the X-axis direction, a boss is arranged on the light source fixing plate corresponding to the groove, and the boss is connected with the groove in an embedded mode.

6. The apparatus as claimed in claim 1, wherein a displacement slot is formed in a plate of the L-shaped camera fastening plate, which is connected to a side wall of the second slider unit at one side thereof, along an axial direction of the camera lens, the side wall of the second slider unit is correspondingly provided with at least one screw hole, the camera fastening plate is fixedly connected to the second slider unit via a fastening screw passing through the displacement slot, and the other side of the camera fastening plate is fixedly connected to the horizontal tilt adjustment module via a screw.

7. The device for detecting the arc edge defect of the mobile phone glass cover plate according to claim 1, characterized in that: still include a Z to adjusting module, Z is used for to adjusting module the light source module and the holistic horizontal position of camera lens module is adjusted, and it includes third subunit that slides, the third subunit that slides is arranged and can be followed Z axle direction and come and go, third subunit bottom that slides links to each other with outside portal frame is fixed, the slider of third subunit that slides with the level is faced upward to swing and is adjusted the module and fixed linking to each other, in order to drive the light source module with camera lens module moves along Z axle direction.

8. The device for detecting the arc edge defect of the mobile phone glass cover plate according to claim 7, wherein: the mobile phone glass cover plate arc edge defect detection device further comprises a sliding table fixing plate, the sliding table fixing plate is fixedly connected with the portal frame, and the Z-direction adjusting module is arranged on the portal frame through the sliding table fixing plate.

9. The device for detecting the arc edge defect of the mobile phone glass cover plate according to claim 1, characterized in that: the glass feeding module comprises a conveying guide rail, a motor, a motion control card, a photoelectric sensor and a jig for bearing a mobile phone glass cover plate, the photoelectric sensor is fixed on one side of the conveying guide rail, the mobile phone glass cover plate jig is horizontally placed on the conveying guide rail and is driven by the conveying guide rail to move forwards at a uniform horizontal speed, the jig and a mobile phone shell are relatively fixed and kept horizontal, the photoelectric sensor is installed on a specific position of the conveying guide rail, when a base with the jig moves to the position, the photoelectric sensor sends an image acquisition signal, when the base moves to the specific position, the image acquisition is stopped, and a high-definition high-resolution image is generated.

10. The device for detecting the arc edge defect of the mobile phone glass cover plate according to claim 1, characterized in that: the second swing adjusting displacement table is a rotary manual displacement table;

and/or the first sliding subunit and the second sliding subunit are simple adjusting components;

and/or two groups of arc-shaped grooves are respectively arranged on each light source fixing plate, and the distance between the two groups of arc-shaped grooves is arranged corresponding to the mounting hole positions on the side wall of the light source;

and/or the light source module comprises two groups of high-angle light sources arranged in the middle of the arc-shaped groove and one or two low-angle light sources arranged at the left end and the right end of the arc-shaped groove.

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