CN213580726U - Automatic optical inspection blanking machine of AOI - Google Patents

Abstract

The utility model discloses a material loading and unloading machine for AOI automatic optical detection, including frame, loading attachment, extracting device, unloader and controlling means, loading attachment includes input mechanism, feed mechanism and visual positioning mechanism, input mechanism includes at least two sets ofly, and it sets up along vertical direction in the frame for the input LCD screen magazine that awaits measuring, extracting device sets up loading attachment and unloader's front side intermediate position for absorb the LCD screen, unloader includes output mechanism, unloading mechanism and mechanical positioning mechanism, output mechanism includes at least two sets ofly, and it sets up along vertical direction in the frame, be used for exporting qualified LCD screen magazine. The utility model provides a material loading and unloading machine for AOI automatic optical detection accomplishes AOI unloading process integration on an equipment, saves space cost and human cost, and equipment operation is whole to be controlled through automatic, and is efficient, reduction in production cost, and go up the unloading location accurate, and the testing result reliability is high.

Description

Automatic optical inspection blanking machine of AOI

Technical Field

The utility model relates to a supporting device field of AOI check out test set, concretely relates to automatic optical inspection of AOI goes up blanking machine.

Background

AOI is called automatic optical inspection, which is based on optical principle to detect the circuit abnormality (circuit open or short defects caused by scratch due to process and improper operation) of TFT-CELL and Module exposed electrode area.

The feeding and discharging of the existing AOI are mainly completed through an assembly line process or a manual work, the assembly line process needs to occupy a large space field, the manual feeding and discharging operation mode efficiency is low, and large labor cost needs to be consumed for detecting batch liquid crystal screens, so that the cost of products is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a blanking machine on automatic optical inspection of AOI accomplishes the unloading process integration on an equipment with AOI, saves space cost and human cost, and equipment operation is whole to be controlled through automatic, and is efficient, reduction in production cost, and go up the unloading location accurate, and the testing result reliability is high.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a material loading and unloading machine is detected to automatic optics of AOI, includes frame, loading attachment, extracting device, unloader and controlling means, wherein:

the feeding device comprises an input mechanism, a feeding mechanism and a visual positioning mechanism, wherein the input mechanism comprises at least two groups, is arranged on the rack along the vertical direction and is used for inputting the liquid crystal screen box to be detected, the feeding mechanism is arranged at the output end of the input mechanism in a lifting manner and is used for bearing the liquid crystal screen box to be detected on the input mechanism, and the visual positioning mechanism is arranged above the feeding mechanism and is used for acquiring the azimuth information of the liquid crystal screen to be detected in the material box;

the material taking device is arranged in the middle of the front sides of the feeding device and the discharging device and used for sucking the liquid crystal screen, and the material taking device comprises a mechanical arm and a first vacuum material sucking device arranged on the mechanical arm;

the blanking device comprises an output mechanism, a blanking mechanism and a mechanical positioning mechanism, wherein the output mechanism comprises at least two groups, the output mechanism is arranged in the rack along the vertical direction and used for outputting the qualified liquid crystal screen material box, the blanking mechanism is arranged at the input end of the output mechanism in a lifting manner, the blanking mechanism is used for placing the qualified liquid crystal screen material box, and the mechanical positioning mechanism is arranged on the blanking mechanism and used for positioning the qualified liquid crystal screen material box.

Preferably, the input mechanism comprises a first conveying frame, a first conveying roller set and a first conveying motor, the first conveying frame is fixedly arranged on the rack, the first conveying roller set is rotatably arranged on the first conveying frame and is driven by the first conveying motor, a first output positioning sensor is arranged at the output end of the first conveying frame, and a first input positioning sensor is arranged at the input end of the first conveying frame;

the feeding mechanism comprises a feeding slide rail, a feeding frame, a feeding screw rod, a feeding base, a feeding motor, a second conveying frame, a second conveying roller set and a second conveying motor, a feeding base plate is arranged on the frame, the feeding slide rail and the feeding base are fixedly arranged on the feeding base plate, a feeding slide seat which is slidably arranged on the feeding slide rail is arranged on the feeding frame, the feeding screw rod is rotatably arranged on the feeding base and is driven by the feeding motor, the feeding frame is matched with the feeding screw rod, the second conveying frame is fixedly arranged on the feeding frame, the second conveying roller set is rotatably arranged on the second conveying frame and is driven by the second conveying motor, the second conveying roller set is matched with the first conveying roller set, a second mounting block is arranged on the feeding frame, and a second mounting groove is formed in the second mounting block, and a second positioning sensor is arranged in the second mounting groove, and a feeding travel slide rail and a feeding travel switch which is arranged on the feeding base plate in a sliding manner are fixedly arranged on the feeding base plate.

Preferably, the output mechanism comprises a third conveying frame, a third conveying roller set and a third conveying motor, the third conveying frame is fixedly arranged on the rack, the third conveying roller set is rotatably arranged on the third conveying frame and is driven by the third conveying motor, a third output positioning sensor is arranged at the output end of the third conveying frame, and a third input positioning sensor is arranged at the input end of the third conveying frame;

the blanking mechanism comprises a blanking slide rail, a blanking frame, a blanking screw rod, a blanking base, a blanking motor, a fourth conveying frame, a fourth conveying roller set and a fourth conveying motor, a blanking base plate is arranged on the frame, the blanking slide rail and the blanking base are fixedly arranged on the blanking base plate, a blanking slide seat which is arranged on the blanking slide rail in a sliding manner is arranged on the blanking frame, the blanking screw rod is rotatably arranged on the blanking base and driven by the blanking motor, the blanking frame is matched with the blanking screw rod, the fourth conveying frame is fixedly arranged on the blanking frame, the fourth conveying roller set is rotatably arranged on the fourth conveying frame and driven by the fourth conveying motor, the fourth conveying roller set is matched with the third conveying roller set, a fourth mounting block is arranged on the blanking frame, and a fourth mounting groove is formed in the fourth mounting block, and a fourth positioning sensor is arranged in the fourth mounting groove, and a discharging travel slide rail and a discharging travel switch which is arranged on the discharging base plate in a sliding manner are fixedly arranged on the discharging base plate.

Preferably, the vision positioning mechanism includes camera lens mounting panel, CCD camera and image processing module, the camera lens mounting panel sets up be used for the installation in the frame the CCD camera, the CCD camera is used for gathering the image information in the magazine that obtains on the feed mechanism, and send to image processing module reachs the azimuth information that the LCD screen that awaits measuring is located the magazine.

Preferably, mechanical positioning mechanism is including location slide rail, location base, location slide, location lead screw and location kelly, the location slide rail sets up unloading mechanism is last, and both ends have set firmly the location base, be equipped with two sets of opposite direction's of slip location slides on the slide rail of location, the location lead screw rotates and sets up on the location base, and one end is equipped with and rotates the rudder hand and be used for locking the rotatory latch fitting of rotation rudder hand, the location lead screw with the location slide cooperatees, the location kelly sets up be used for the position both sides of the empty magazine of the qualified LCD screen in location on the location slide.

Preferably, the transfer device comprises an installation base, a vacuum suction platform, a turnover base, a turnover block, a turnover motor and a second vacuum suction device, the vacuum suction platform is fixedly arranged on the installation base, a positioning groove is formed in the vacuum suction platform, a fifth positioning sensor is arranged in the positioning groove, the turnover base is arranged on one side of the vacuum suction platform, the turnover block is rotatably arranged on the turnover base through a turnover shaft and driven by the turnover motor, an angle sensor is further connected to the turnover shaft, and the second vacuum suction device is arranged on the turnover block.

Preferably, the first vacuum suction device comprises a first suction frame and a first movable suction nozzle, a first adjusting groove is formed in the first suction frame, a first sliding bottom plate is slidably arranged on the first adjusting groove, a first threaded column penetrating through the first adjusting groove is arranged on the first sliding bottom plate, the first threaded column is matched with a first nut to fix the first sliding bottom plate on the first adjusting groove, and the first movable suction nozzle is arranged on the first sliding bottom plate.

The second vacuum material suction device comprises a second material suction frame, a second fixed suction nozzle and a second movable suction nozzle, the second material suction frame is provided with the second fixed suction nozzle at the center, a second adjusting groove is formed in the second material suction frame, a second sliding bottom plate is arranged on the second adjusting groove in a sliding mode, the second sliding bottom plate is provided with a second threaded column penetrating through the second adjusting groove, the second threaded column is matched with a second nut, the second sliding bottom plate is fixed to the second adjusting groove, and the second movable suction nozzle is arranged on the second sliding bottom plate.

Preferably, the precision positioning device comprises a fixed substrate, a transverse moving block, a transverse moving motor, a vertical moving substrate, a vertical moving hand wheel, a vertical moving block and a CCD, wherein the fixed substrate and the transverse moving substrate are fixedly arranged on the rack, the transverse moving substrate is provided with a transverse moving track, the transverse moving block is arranged on the transverse moving track in a sliding manner and driven by the transverse moving motor, the transverse moving block and the fixed substrate are respectively provided with a vertical moving substrate, the vertical moving substrate is provided with a vertical moving track, the vertical moving block is arranged on the vertical moving track in a sliding manner and driven by the vertical moving hand wheel, the vertical moving block is provided with the CCD, and the transverse moving substrate is provided with a transverse moving stroke limit switch.

Preferably, the device also comprises a static removing device arranged above the input mechanism, the static removing device comprises a fixed base, a sliding base, a mounting rack, a connecting rack and an ion fan, the fixed base is arranged on the frame, clamping blocks are arranged on two sides of the fixed base, the clamping blocks and the fixed base are matched to form clamping grooves for the sliding base to slide, the sliding base is provided with a lock groove, the lock groove is provided with a sliding lock piece used for locking the sliding base on the fixed base, one end of the sliding base is connected with the mounting rack, the connecting racks are arranged on two sides of the mounting rack, the air inlet and outlet device is characterized in that a rotary opening is formed in the connecting frame, connecting arms are arranged on two sides of the ion fan, a rotary column connected to the rotary opening in a rotating mode is arranged on each connecting arm, and a plurality of air outlets and air inlet pipes are arranged on the ion fan.

Preferably, the defective product storage rack further comprises a defective product storage rack which is connected to the rack through a hinge, a transverse adjusting groove, a longitudinal adjusting groove and an induction groove are formed in the defective product storage rack, a transverse stop block and a transverse locking piece used for fixing the transverse stop block are arranged on the transverse adjusting groove in a sliding mode, a longitudinal stop block and a longitudinal locking piece used for fixing the longitudinal stop block are arranged on the longitudinal adjusting groove in a sliding mode, a sixth positioning sensor is arranged below the induction groove, and a clamping plate is further arranged on the defective product storage rack.

After the technical scheme is adopted, compared with the background art, the utility model, have following advantage:

1. the utility model relates to a blanking machine on automatic optical inspection of AOI accomplishes the unloading process integration on an equipment on AOI, saves space cost and human cost, and equipment operation is whole to be controlled through automatic, and is efficient, reduction in production cost, and go up the unloading location accurate, and the testing result reliability is high.

2. The utility model relates to a blanking machine on AOI automatic optical detection, its loading mechanism of loading attachment is used for automatic feeding with the cooperation of multiunit input mechanism, and unloader's unloading mechanism is used for automatic unloading with the cooperation of multiunit output mechanism, can carry a plurality of magazines that are used for placing the LCD screen, and many AOI blanking machines can be controlled to an operative employee, reduce the human cost.

3. The utility model relates to a material loading and unloading machine is detected to AOI automatic optics, wherein be equipped with turn-over mechanism in the device, can carry away by unloader after carrying out the turn-over with the LCD screen that detects.

4. The utility model relates to a material loading and unloading machine is detected to AOI automatic optics, the last vision positioning mechanism that is equipped with of loading attachment acquires the azimuth information of the LCD screen that awaits measuring in the magazine, and the robotic arm accuracy of being convenient for snatchs the LCD screen that awaits measuring in the article magazine, and unloader is equipped with mechanical positioning mechanism, fixes a position the position of the empty magazine of qualified products, and the robotic arm of being convenient for will detect the accurate empty magazine of putting into of qualified LCD screen.

5. The utility model relates to a blanking machine on AOI automatic optical detection is equipped with a plurality of positioning sensor, and goes up the unloading location accurate, improves the degree of automation of device, and the testing result reliability is high.

6. The utility model relates to a material loading and unloading machine is detected to AOI automatic optics, first removal suction nozzle on the material device is inhaled in first vacuum and second vacuum inhale the second on the material device and remove the suction nozzle and can be directed against the LCD screen adjusting position of unidimensional, and the effect of absorption LCD screen is more stable.

Drawings

FIG. 1 is a schematic view of the assembly structure of the present invention;

FIG. 2 is a schematic view of another perspective structure of the assembly of the present invention;

FIG. 3 is a schematic structural diagram of the output mechanism and the input mechanism of the present invention;

fig. 4 is another view angle structure diagram of the output mechanism and the input mechanism of the present invention;

fig. 5 is a schematic structural view of the feeding mechanism of the present invention;

FIG. 6 is a schematic view of the structure of the blanking mechanism of the present invention;

FIG. 7 is a schematic structural view of the mechanical positioning mechanism of the present invention;

fig. 8 is a schematic structural view of a second conveying roller set in the feeding mechanism of the present invention;

FIG. 9 is a schematic view of the structure of the vision positioning mechanism of the present invention;

fig. 10 is a schematic structural view of the material taking device of the present invention;

fig. 11 is a schematic structural view of the first vacuum suction device of the present invention;

FIG. 12 is a schematic view of the structure of the transfer device of the present invention;

fig. 13 is a schematic structural view of the fine positioning device of the present invention;

FIG. 14 is a schematic structural view of the static electricity removing device of the present invention;

fig. 15 is the utility model discloses the platform structure schematic diagram is placed to the substandard product.

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 below 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 are not intended to limit the invention.

In the present invention, it should be noted that the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are all based on the orientation or position relationship shown in the drawings, and are only for convenience of description and simplification of the present invention, but do not indicate or imply that the device or element of the present invention must have a specific orientation, and thus, should not be construed as limiting the present invention.

Examples

Cooperate fig. 1 to fig. 15 to show, the utility model discloses an automatic optical inspection blanking machine of AOI, including frame 1, loading attachment 2, extracting device 3 and unloader 4, wherein:

referring to fig. 1 and 2, the feeding device 2 includes an input mechanism 21, a feeding mechanism 22 and a visual positioning mechanism 23, the input mechanism 21 includes two sets of upper and lower mechanisms, and is disposed on the frame 1 along a vertical direction for inputting the liquid crystal screen magazine to be tested, the feeding mechanism 22 is disposed at an output end of the input mechanism 21 in a lifting manner for receiving the liquid crystal screen magazine to be tested on the input mechanism 21, and the visual positioning mechanism 23 is disposed above the feeding mechanism 22 for obtaining the orientation information of the liquid crystal screen to be tested in the magazine;

the material taking device 3 is arranged in the middle position of the front sides of the feeding device 2 and the discharging device 4 and used for sucking the liquid crystal screen, and the material taking device 3 comprises a mechanical arm 31 and a first vacuum material sucking device 32 arranged on the mechanical arm 31;

the discharging device 4 comprises an output mechanism 41, a discharging mechanism 42 and a mechanical positioning mechanism 43, the output mechanism 41 comprises an upper group and a lower group, the upper group and the lower group are arranged on the rack 1 along the vertical direction and are used for outputting qualified liquid crystal screen material boxes, the discharging mechanism 42 can be arranged at the input end of the output mechanism 41 in a lifting mode, the discharging mechanism 42 is used for placing qualified liquid crystal screen material boxes, and the mechanical positioning mechanism 43 is arranged on the discharging mechanism 42 and is used for positioning the qualified liquid crystal screen material boxes.

Referring to fig. 3 and 4, the input mechanism 21 includes a first conveying frame 211, a first conveying roller set 212 and a first conveying motor 213, the first conveying frame 211 is fixed on the frame 1, the first conveying roller set 212 is rotatably disposed on the first conveying frame 211 and driven by the first conveying motor 213, an output end of the first conveying frame 211 is provided with a first output positioning sensor 2111, and an input end of the first conveying frame 211 is provided with a first input positioning sensor 2112;

referring to fig. 5 and 8, the feeding mechanism 22 includes a feeding slide rail 221, a feeding rack 222, a feeding wire rod 223, a feeding base 224, a feeding motor 225, a second conveying rack 226, a second conveying roller set 227 and a second conveying motor 228, the frame 1 is provided with a feeding base plate 11, the feeding slide rail 221 and the feeding base 224 are fixedly disposed on the feeding base plate 11, the feeding rack 222 is provided with a feeding slide 2221 slidably disposed on the feeding slide rail 221, the feeding wire rod 223 is rotatably disposed on the feeding base 224 and driven by the feeding motor 225, the feeding rack 222 is matched with the feeding wire rod 223, the second conveying rack 226 is fixedly disposed on the feeding rack 222, the second conveying roller set 227 is rotatably disposed on the second conveying rack 226 and driven by the second conveying motor 228, the second conveying roller set 227 is matched with the first conveying roller set 212, the feeding rack 222 is provided with a second mounting block 2222, the second mounting block 2223 is disposed on the second mounting block 2222, a second positioning sensor 2224 is arranged in the second mounting groove 2223, the feeding base plate 11 is provided with a feeding stroke slide rail 111 and a feeding stroke switch 112, the feeding stroke switch 112 is slidably arranged on the feeding stroke slide rail 111, and the feeding stroke switch comprises two starting and stopping stroke points for controlling the limit positions of the upper and lower points of the feeding mechanism, so that feeding is performed by matching the upper and lower groups of input mechanisms 21, and the stroke distance can be adjusted by the two starting and stopping stroke points through the feeding stroke slide rail 111.

Referring to fig. 3 and 4, the output mechanism 41 includes a third conveying frame 411, a third conveying roller set 412 and a third conveying motor 413, the third conveying frame 411 is fixed on the frame 1, the third conveying roller set 412 is rotatably disposed on the third conveying frame 411 and driven by the third conveying motor 413, the output end of the third conveying frame 411 is provided with a third output positioning sensor 4111, and the input end is provided with a third input positioning sensor 4112;

referring to fig. 6, the blanking mechanism 42 includes a blanking slide rail 421, a blanking frame 422, a blanking screw 423, a blanking base 424, a blanking motor 425, a fourth conveying frame 426, a fourth conveying roller group 427, and a fourth conveying motor 428, a blanking base plate 12 is disposed on the frame 1, the blanking slide rail 421 and the blanking base 424 are fixedly disposed on the blanking base plate 12, a blanking slide seat 4221 slidably disposed on the blanking slide rail 421 is disposed on the blanking frame 422, the blanking screw 423 is rotatably disposed on the blanking base 424 and driven by the blanking motor 425, the blanking frame 422 is engaged with the blanking screw 423, the fourth conveying frame 426 is fixedly disposed on the blanking frame 422, the fourth conveying roller group 427 is rotatably disposed on the fourth conveying frame 426 and driven by the fourth conveying motor 428, the fourth conveying roller group 427 is engaged with the third conveying roller group 412, a fourth mounting block 4222 is disposed on the lower conveying frame 422, a fourth mounting block 4223 is disposed on the fourth mounting block 4222, a fourth positioning sensor 4224 is arranged in the fourth mounting groove 4223, a blanking travel slide rail 121 and a blanking travel switch 122 are arranged on the blanking base plate 12, the blanking travel switch 122 is slidably arranged on the blanking travel slide rail 121, the blanking travel switch 122 comprises two starting and stopping travel points for controlling the limit positions of the upper and lower points of the blanking mechanism 42, so that the upper and lower groups of output mechanisms 41 are matched for feeding, and the travel distance can be adjusted by the two starting and stopping travel points through the blanking travel slide rail 121.

Referring to fig. 9, the visual positioning mechanism 23 includes a lens mounting plate 231, a CCD camera 232 and an image processing module 233, the lens mounting plate 231 is disposed on the frame 1 for mounting the CCD camera 232, the CCD camera 232 is used for acquiring image information in the magazine on the feeding mechanism 22, and sending the image information to the image processing module 233 to obtain azimuth information of the liquid crystal screen to be measured in the magazine, so that the robot arm 31 can accurately grasp the liquid crystal screen to be measured.

Referring to fig. 7, the mechanical positioning mechanism 43 includes a positioning rail 431, a positioning base 432, a positioning slider 433, a positioning screw 434 and a positioning bar 435, the positioning rail 431 is disposed on the blanking mechanism 42, the positioning base 432 is fixedly disposed at two ends of the positioning rail 431, two sets of positioning sliders 433 having opposite sliding directions are disposed on the positioning rail 431, the positioning screw 434 is rotatably disposed on the positioning base 232, a rotary locking member 4341 for locking the rotary rudder 4341 is disposed at one end of the positioning screw 434, the positioning screw 434 is engaged with the positioning slider 433, and the positioning bar 435 is disposed at two sides of the positioning slider 433 for positioning the qualified empty magazine of the lcd panel, so that the manipulator 31 can conveniently place the qualified lcd panel.

Referring to fig. 12, the transfer device 5 is further included, the transfer device 5 includes an installation base 51, a vacuum suction platform 52, an overturning base 53, an overturning block 54, an overturning motor 55 and a second vacuum suction device 56, the vacuum suction platform 52 is fixedly arranged on the installation base 51, a positioning groove 521 is formed in the vacuum suction platform 52, a fifth positioning sensor 522 is arranged in the positioning groove 521, the overturning base 53 is arranged on one side of the vacuum suction platform 52, the overturning block 54 is rotatably arranged on the overturning base 53 through an overturning shaft 541 and is driven by the overturning motor 55, the overturning shaft 541 is further connected with an angle sensor 542 for positioning an overturning angle of the second vacuum suction device 56 so as to suck a liquid crystal screen for overturning, and the second vacuum suction device 56 is arranged on the overturning block 54.

Referring to fig. 11, the first vacuum suction device 32 includes a first suction frame 321 and a first movable suction nozzle 322, the first suction frame 321 has a first adjusting groove 3211, the first adjusting groove 3211 is slidably provided with a first sliding bottom plate 323, the first sliding bottom plate 323 has a first threaded post 3231 passing through the first adjusting groove 3211, the first threaded post 3231 is matched with a first nut 3232 to fix the first sliding bottom plate 323 on the first adjusting groove 3211, and the first movable suction nozzle 322 is disposed on the first sliding bottom plate 322.

Referring to fig. 12, the second vacuum sucking device 56 includes a second sucking frame 561, a second fixed suction nozzle 562 and a second movable suction nozzle 563, the second fixed suction nozzle 562 is disposed at a center of the second sucking frame 561, a second adjusting groove 5611 is disposed on the second sucking frame 561, a second sliding bottom plate 564 is slidably disposed on the second adjusting groove 5611, the second sliding bottom plate 564 is disposed with a second screw column 5641 passing through the second adjusting groove 5611, the second screw column 5641 is engaged with a second nut 5642 to fix the second sliding bottom plate 564 on the second adjusting groove 5611, and the second movable suction nozzle 563 is disposed on the second sliding bottom plate 564.

Referring to fig. 13, the fine positioning device 6 further includes a fine positioning device 6, the fine positioning device 6 includes a fixed substrate 61, a traverse substrate 62, a traverse block 63, a traverse motor 64, a vertical moving substrate 65, a vertical moving hand wheel 66, a vertical moving block 67 and a CCD68, the fixed substrate 61 and the traverse substrate 62 are both fixed on the frame 1, the traverse substrate 62 is provided with a traverse rail 621, the traverse block 63 is slidably disposed on the traverse rail 621 and driven by the traverse motor 64, the traverse block 63 and the fixed substrate 61 are both provided with the vertical moving substrate 65, the vertical moving substrate 65 is provided with a vertical moving rail 651, the vertical moving block 67 is slidably disposed on the vertical moving rail 651 and driven by the vertical moving hand wheel 66, the vertical moving block 67 is provided with a CCD68, the traverse substrate 62 is provided with a traverse stroke limit switch 69, the CCD68 includes a fixed CCD681 at a horizontal position on the fixed substrate 61 and a moving CCD682 on the traverse block 63 capable of moving horizontally along with the traverse block 63, the position of the mobile CCD682 can be adjusted according to the size of the liquid crystal screen.

Referring to fig. 14, the static eliminator 7 is further included, the static eliminator 7 is disposed above the input mechanism 21, the static eliminator 7 includes a fixed base 71, a sliding base 72, a mounting rack 73, a connecting rack 74 and an ion blower 75, the fixed base 71 is disposed on the rack 1, two sides of the fixed base 71 are provided with a fixture block 76, the fixture block 76 and the fixed base 71 cooperate to form a fixture slot 711 for the sliding of the sliding base 72, the sliding base 72 is provided with a locking slot 721, the locking slot 721 is provided with a sliding locking piece 722 for locking the sliding base 72 on the fixed base, one end of the sliding base 72 is connected with the mounting rack 73, two sides of the mounting rack 73 are provided with the connecting rack 74, the connecting rack 74 is provided with a rotation port 741, the ion blower 75 is used for removing static electricity on the surface of the liquid crystal panel to be tested, two sides of the ion blower are provided with connecting arms 77, the connecting arm 77 is provided with, the ion blower 75 is provided with a plurality of air outlets 751 and an air inlet pipe 752 by adjusting the distance of the slide base 72.

Please refer to fig. 15, further comprising a defective product placing table 8, wherein the defective product placing table 8 is connected to the rack 1 through a hinge 81, the defective product placing table 8 is provided with a horizontal adjusting slot 81, a vertical adjusting slot 82 and a sensing slot 83, the horizontal adjusting slot 81 is slidably provided with a horizontal stopper 84 and a horizontal locking piece 841 for fixing the horizontal stopper 84, the vertical adjusting slot 82 is slidably provided with a vertical stopper 85 and a vertical locking piece 851 for fixing the vertical stopper 85, a sixth positioning sensor 86 is arranged below the sensing slot 83, the defective product placing table 8 is further provided with a clamping plate 87, and the clamping plate 87, the horizontal stopper 84 and the vertical stopper 85 are matched for clamping defective product empty magazines and can be adjusted according to the size of the liquid crystal screen.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a material loading and unloading machine is detected to AOI automatic optics which characterized in that: including frame, loading attachment, extracting device, unloader and controlling means, wherein:

the feeding device comprises an input mechanism, a feeding mechanism and a visual positioning mechanism, wherein the input mechanism comprises at least two groups, is arranged on the rack along the vertical direction and is used for inputting the liquid crystal screen box to be detected, the feeding mechanism is arranged at the output end of the input mechanism in a lifting manner and is used for bearing the liquid crystal screen box to be detected on the input mechanism, and the visual positioning mechanism is arranged above the feeding mechanism and is used for acquiring the azimuth information of the liquid crystal screen to be detected in the material box;

the material taking device is arranged in the middle of the front sides of the feeding device and the discharging device and used for sucking the liquid crystal screen, and the material taking device comprises a mechanical arm and a first vacuum material sucking device arranged on the mechanical arm;

the blanking device comprises an output mechanism, a blanking mechanism and a mechanical positioning mechanism, wherein the output mechanism comprises at least two groups, the output mechanism is arranged in the rack along the vertical direction and used for outputting the qualified liquid crystal screen material box, the blanking mechanism is arranged at the input end of the output mechanism in a lifting manner, the blanking mechanism is used for placing the qualified liquid crystal screen material box, and the mechanical positioning mechanism is arranged on the blanking mechanism and used for positioning the qualified liquid crystal screen material box.

2. The AOI automatic optical inspection loader of claim 1, wherein:

the input mechanism comprises a first conveying frame, a first conveying roller set and a first conveying motor, the first conveying frame is fixedly arranged on the frame, the first conveying roller set is rotatably arranged on the first conveying frame and is driven by the first conveying motor, a first output positioning sensor is arranged at the output end of the first conveying frame, and a first input positioning sensor is arranged at the input end of the first conveying frame;

the feeding mechanism comprises a feeding slide rail, a feeding frame, a feeding screw rod, a feeding base, a feeding motor, a second conveying frame, a second conveying roller set and a second conveying motor, a feeding base plate is arranged on the frame, the feeding slide rail and the feeding base are fixedly arranged on the feeding base plate, a feeding slide seat which is slidably arranged on the feeding slide rail is arranged on the feeding frame, the feeding screw rod is rotatably arranged on the feeding base and is driven by the feeding motor, the feeding frame is matched with the feeding screw rod, the second conveying frame is fixedly arranged on the feeding frame, the second conveying roller set is rotatably arranged on the second conveying frame and is driven by the second conveying motor, the second conveying roller set is matched with the first conveying roller set, a second mounting block is arranged on the feeding frame, and a second mounting groove is formed in the second mounting block, and a second positioning sensor is arranged in the second mounting groove, and a feeding travel slide rail and a feeding travel switch which is arranged on the feeding base plate in a sliding manner are fixedly arranged on the feeding base plate.

3. The AOI automatic optical inspection loader of claim 1, wherein:

the output mechanism comprises a third conveying frame, a third conveying roller set and a third conveying motor, the third conveying frame is fixedly arranged on the rack, the third conveying roller set is rotatably arranged on the third conveying frame and is driven by the third conveying motor, a third output positioning sensor is arranged at the output end of the third conveying frame, and a third input positioning sensor is arranged at the input end of the third conveying frame;

the blanking mechanism comprises a blanking slide rail, a blanking frame, a blanking screw rod, a blanking base, a blanking motor, a fourth conveying frame, a fourth conveying roller set and a fourth conveying motor, a blanking base plate is arranged on the frame, the blanking slide rail and the blanking base are fixedly arranged on the blanking base plate, a blanking slide seat which is arranged on the blanking slide rail in a sliding manner is arranged on the blanking frame, the blanking screw rod is rotatably arranged on the blanking base and driven by the blanking motor, the blanking frame is matched with the blanking screw rod, the fourth conveying frame is fixedly arranged on the blanking frame, the fourth conveying roller set is rotatably arranged on the fourth conveying frame and driven by the fourth conveying motor, the fourth conveying roller set is matched with the third conveying roller set, a fourth mounting block is arranged on the blanking frame, and a fourth mounting groove is formed in the fourth mounting block, and a fourth positioning sensor is arranged in the fourth mounting groove, and a discharging travel slide rail and a discharging travel switch which is arranged on the discharging base plate in a sliding manner are fixedly arranged on the discharging base plate.

4. The AOI automatic optical inspection loader of claim 1, wherein: the vision positioning mechanism comprises a lens mounting plate, a CCD camera and an image processing module, wherein the lens mounting plate is arranged on the frame and used for mounting the CCD camera, the CCD camera is used for collecting image information in a material box on the feeding mechanism and sending the image information to the image processing module to obtain azimuth information of a liquid crystal screen to be detected in the material box.

5. The AOI automatic optical inspection loader of claim 1, wherein: mechanical positioning mechanism is including location slide rail, location base, location slide, location lead screw and location kelly, the location slide rail sets up unloading mechanism is last, and both ends have set firmly the location base, be equipped with two sets of slip opposite direction's location slide on the slide rail of location, location lead screw rotates and sets up on the base of location, and one end is equipped with and rotates the rudderman and be used for locking the rotatory latch fitting of rotation rudderman, location lead screw with the location slide cooperatees, the setting of location kelly is in the position that is used for fixing a position the empty magazine of qualified LCD screen on the slide.

6. The AOI automatic optical inspection loader of claim 1, wherein: the vacuum material sucking device comprises a mounting base, a vacuum material sucking platform, a turnover base, a turnover block, a turnover motor and a second vacuum material sucking device, wherein the vacuum material sucking platform is fixedly arranged on the mounting base, a positioning groove is formed in the vacuum material sucking platform, a fifth positioning sensor is arranged in the positioning groove, the turnover base is arranged on one side of the vacuum material sucking platform, the turnover block is rotatably arranged on the turnover base through a turnover shaft and driven by the turnover motor, an angle sensor is further connected to the turnover shaft, and the second vacuum material sucking device is arranged on the turnover block.

7. The AOI automatic optical inspection loader of claim 6, wherein:

the first vacuum material sucking frame of the first vacuum material sucking device is provided with a first adjusting groove, a first sliding bottom plate is arranged on the first adjusting groove in a sliding mode, a first threaded column penetrating through the first adjusting groove is arranged on the first sliding bottom plate, the first threaded column is matched with a first nut to fix the first sliding bottom plate on the first adjusting groove, and the first movable suction nozzle is arranged on the first sliding bottom plate,

the second vacuum material suction device comprises a second material suction frame, a second fixed suction nozzle and a second movable suction nozzle, the second material suction frame is provided with the second fixed suction nozzle at the center, a second adjusting groove is formed in the second material suction frame, a second sliding bottom plate is arranged on the second adjusting groove in a sliding mode, the second sliding bottom plate is provided with a second threaded column penetrating through the second adjusting groove, the second threaded column is matched with a second nut, the second sliding bottom plate is fixed to the second adjusting groove, and the second movable suction nozzle is arranged on the second sliding bottom plate.

8. The AOI automatic optical inspection loader of claim 6, wherein: the precise positioning device comprises a fixed substrate, a transverse moving block, a transverse moving motor, a vertical moving substrate, a vertical moving hand wheel, a vertical moving block and a CCD (charge coupled device), wherein the fixed substrate and the transverse moving substrate are fixedly arranged on the rack, the transverse moving substrate is provided with a transverse moving track, the transverse moving block is arranged on the transverse moving track in a sliding mode and driven by the transverse moving motor, the transverse moving block and the fixed substrate are provided with vertical moving substrates, the vertical moving substrate is provided with a vertical moving track, the vertical moving block is arranged on the vertical moving track in a sliding mode and driven by the vertical moving hand wheel, the vertical moving block is provided with the CCD, and the transverse moving substrate is provided with a transverse moving stroke limit switch.

9. The AOI automatic optical inspection loader of claim 1, wherein: also comprises a static removing device arranged above the input mechanism, the static removing device comprises a fixed base, a sliding base, a mounting rack, a connecting rack and an ion fan, the fixed base is arranged on the frame, clamping blocks are arranged on two sides of the fixed base, the clamping blocks and the fixed base are matched to form clamping grooves for the sliding base to slide, the sliding base is provided with a lock groove, the lock groove is provided with a sliding lock piece used for locking the sliding base on the fixed base, one end of the sliding base is connected with the mounting rack, the connecting racks are arranged on two sides of the mounting rack, the air inlet and outlet device is characterized in that a rotary opening is formed in the connecting frame, connecting arms are arranged on two sides of the ion fan, a rotary column connected to the rotary opening in a rotating mode is arranged on each connecting arm, and a plurality of air outlets and air inlet pipes are arranged on the ion fan.

10. The AOI automatic optical inspection loader of claim 1, wherein: the device is characterized by further comprising a defective product placing table, the defective product placing table is connected to the rack through a hinge, a transverse adjusting groove, a longitudinal adjusting groove and an induction groove are formed in the defective product placing table, a transverse stop block and a transverse locking piece used for fixing the transverse stop block are arranged on the transverse adjusting groove in a sliding mode, a longitudinal stop block and a longitudinal locking piece used for fixing the longitudinal stop block are arranged on the longitudinal adjusting groove in a sliding mode, a sixth positioning sensor is arranged below the induction groove, and a clamping plate is further arranged on the defective product placing table.

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