CN211374564U - Glass detection device - Google Patents

Abstract

The application provides a glass detection device, including support body, the workstation of setting on the support body, set up the test table support on the workstation, set up the light on examining the test table support, set up the rectangle recess at workstation middle part, set up the lift objective table in the rectangle recess and set up the lift load handling device who examines test table support top in lift objective table top. The glass detection device is provided with the lifting object stage and the lifting object taking device, the object stage is movably arranged on the lifting device, the object stage can be used for placing a plurality of pieces of glass to be detected at one time, the number of times of taking and placing the pieces of glass to be detected is reduced, the detection efficiency of the glass is improved, the lifting object stage and the lifting object taking device are matched to quickly take the objects for detection, the working intensity of detection personnel is greatly reduced, and the detection efficiency of the glass is further improved; the lifting and fetching device can incline the glass to be detected at different angles, so that the multi-angle detection is convenient, and the accuracy of the glass detection is greatly improved.

Description

Glass detection device

Technical Field

The application relates to the technical field of detection devices, in particular to a glass detection device.

Background

The display screen glass leaves the factory and then uses a certain defective rate, the defective rate can seriously affect the product production of downstream display screen glass suppliers, and therefore the defective rate must be picked out after the display screen glass detection device detects the defective rate. Most display screen glass detection device on the market at present is comparatively complicated when mostly operating the use when the operation, causes measurement personnel's working strength great to lead to detection efficiency low, can not detect out the substandard product even.

Generally, after being processed in one process, the display screen glass needs to be subjected to quality inspection before entering the next process. If the surface is worn or scratched in the previous process, the grinding section needs to be returned to for grinding and remediation, and if the surface cannot be corrected after flat grinding, the product can be discarded. The speed and the quality of the quality inspection affect the speed of the whole process flow, and the invention aims to provide an economical and practical inspection bench which can improve the inspection efficiency of personnel, thereby improving the overall production efficiency of a factory.

Disclosure of Invention

The present application provides a glass inspection device for solving the above technical problems.

The technical scheme adopted by the application is as follows: a glass detection device is characterized by comprising a frame body, a workbench arranged on the frame body, a detection table support arranged on the workbench, an illuminating lamp arranged on the detection table support, a rectangular groove arranged in the middle of the workbench, a lifting object stage arranged in the rectangular groove and a lifting object taking device arranged at the top of the detection table support above the lifting object stage;

the detection table support comprises a support body and light screens arranged at the top and the left and right sides of the support body, and the illuminating lamps are arranged at the top of the support body; the lifting object stage comprises a lifting device and an object stage movably arranged on the lifting device; the lifting object taking device comprises a connecting rod, one end of the connecting rod is hinged to the lower portion of the top of the support body, a first driving air cylinder, a bottom plate, a plurality of second driving air cylinders and a sucker, wherein the end of the connecting rod is hinged to the lower portion of the top of the support body, one end of the bottom plate is hinged to the lower portion of the bottom of the top of the support body, the bottom plate is arranged below the connecting rod, the plurality.

Further, elevating gear drives actuating cylinder, the horizontal rectangle backup pad that sets up at the third drive actuating cylinder output, sets up a plurality of sliders of leading in horizontal rectangle backup pad periphery and sets up a plurality of vertical guide sliding groove on the rectangle recess lateral wall including the third that sets up in rectangle recess bottom center, lead the slider and slide and set up in vertical guide sliding groove.

Furthermore, four angles of the horizontal rectangular supporting plate are provided with clamping grooves, and lugs matched with the clamping grooves are arranged below the object stage.

Further, rectangle recess one side is equipped with first storing groove and second storing groove on the workstation, first storing groove and second storing groove all are equipped with the storing capping.

Further, it is equipped with the air-blast device to examine test table support top, the air-blast device is including setting up at the air-out groove that examines test table support top below and setting up the heating device that is linked together in support body one side and with air-out groove upper portion, heating device includes the barrel, sets up spiral heating wire on the barrel inner wall, sets up at barrel one end and the connecting pipe that is linked together with the air-out groove, sets up at the air-supply line of the barrel other end, sets up at the airstrainer of air-supply line tip and sets up the fan on the air-supply line.

The application has the advantages and positive effects that: the glass detection device is provided with the lifting object stage and the lifting object taking device, the object stage is movably arranged on the lifting device, the object stage can be used for placing a plurality of pieces of glass to be detected at one time, the number of times of taking and placing the pieces of glass to be detected is reduced, the detection efficiency of the glass is improved, the lifting object stage and the lifting object taking device are matched to quickly take the objects for detection, the working intensity of detection personnel is greatly reduced, and the detection efficiency of the glass is further improved; the lifting and fetching device can incline the glass to be detected at different angles, so that the multi-angle detection is convenient, and the accuracy of the glass detection is greatly improved.

In addition to the technical problems addressed by the present application, the technical features constituting the technical solutions, and the advantages brought by the technical features of the technical solutions described above, other technical problems solved by the present application, other technical features included in the technical solutions, and advantages brought by the technical features will be further described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of a glass inspection apparatus according to the background art of the present application;

FIG. 2 is a schematic structural diagram of a stand and a lifting/lowering stage provided in an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a lifting fetching device provided in the embodiment of the present application;

fig. 4 is a schematic structural diagram of a lifting device provided in an embodiment of the present application;

fig. 5 is a schematic diagram of a structure of a card slot and a bump provided in an embodiment of the present application;

fig. 6 is a schematic structural view of a first storage slot, a second storage slot and a storage slot cover provided in the embodiment of the present application;

fig. 7 is a schematic structural diagram of a blower device according to an embodiment of the present application.

In the figure: 1, a frame body; 2, a workbench; 3, detecting a table bracket; 310 a stent body; 320 a light shield; 4, illuminating lamps; 5, rectangular grooves; 6 lifting the object stage; 610 a lifting device; 611 a third driving cylinder; 612 a horizontal rectangular support plate; 613 a guide block; 614 vertical guide and slide grooves; a stage 620; 7 lifting and taking out device; 710 a connecting rod; 720 a first drive cylinder; 730 a base plate; 740 a second drive cylinder; 750 suction cup; 8, a clamping groove; 9 a bump; 10 a first storage tank; 11 a second storage tank; 12 a storage slot cover; 13 a blower device; 1310 air outlet groove; 1320 a heating device; 1321 a cylinder body; 1322 spiral heating wire; 1323 connecting tube; 1324 air inlet pipe; 1325 air screen; 1326 blower

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1, 2 and 3, a glass inspection device is characterized by comprising a frame body 1, a workbench 2 arranged on the frame body 1, an inspection table support 3 arranged on the workbench 2, an illuminating lamp 4 arranged on the inspection table support 3, a rectangular groove 5 arranged in the middle of the workbench 2, a lifting object stage 6 arranged in the rectangular groove 5 and a lifting object-taking device 7 arranged above the lifting object stage 6 and at the top of the inspection table support 3;

the inspection table bracket 3 comprises a bracket body 310 and light shielding plates 320 arranged at the top and the left and right sides of the bracket body 310, and the illuminating lamps 4 are arranged at the top of the bracket body 310; the lifting object stage 6 comprises a lifting device 610 and an object stage 620 movably arranged on the lifting device 610; the lifting and fetching device 7 comprises a connecting rod 710 hinged below the top of the bracket body 310, a first driving cylinder 720 with one end hinged below the top of the bracket body 310 and one end hinged below the connecting rod 710, a bottom plate 730 arranged below the connecting rod 710, a plurality of second driving cylinders 740 arranged below the bottom plate 730 and a suction cup 750 arranged below the output end of the second driving cylinders 740.

In this embodiment, the frame body 1 is a basic structure of the glass detection device, the workbench 2 is arranged on the upper portion of the frame body 1 and is an operation table for glass detection, and the detection table support 3 is arranged on the upper portion of the workbench 2 and is an auxiliary structure for glass detection, in this embodiment, the detection table support 3 comprises a support body 310 and light shielding plates 320 arranged on the top and left and right sides of the support body 310, and the light shielding plates 320 can effectively avoid the influence of external light on detection, thereby greatly improving the accuracy and detection efficiency of glass detection; in this embodiment, the illuminating lamp 4 is disposed on the top of the bracket body 310, so as to facilitate the detection of glass; in the embodiment, the rectangular groove 5 is formed in the middle of the working table 2, the lifting object stage 6 is arranged in the rectangular groove 5, the lifting object stage 6 is provided with the lifting device 610 and the movable object stage 620, the lifting device 610 can drive the object stage 620 to ascend or descend, the object stage 620 is movably arranged on the lifting device 610, the object stage 620 can be taken down from the lifting device 610 to contain the glass to be detected, the convenience of the lifting object stage 6 for bearing the glass to be detected is greatly improved, in the embodiment, the rectangular groove 5 is matched with the object stage 620, a plurality of pieces of glass to be detected can be placed on the object stage 620 at one time, the number of times for taking and placing the glass to be detected is reduced, and the detection efficiency of;

in this embodiment, the lifting and fetching device 7 is disposed below the top of the bracket body 310 and opposite to the lifting and fetching stage 6, the lifting and fetching device 7 is provided with a connecting rod 710, a first driving cylinder 720, a bottom plate 730, a plurality of second driving cylinders 740 and a suction cup 750, the connecting rod 710 is hinged below the top of the bracket body 310, the connecting rod 710 can swing back and forth along a hinge point, the end of the first driving cylinder 720 is hinged below the top of the bracket body 310 and located in front of the connecting rod 710, the output end of the first driving cylinder 720 is hinged below the connecting rod 710, and during operation, the first driving cylinder 720 can push the connecting rod 710 to move back and forth; in this embodiment, the bottom plate 730 is arranged below the connecting rod 710, the connecting rod 710 is perpendicular to the bottom plate 730, a plurality of second driving cylinders 740 are arranged below the bottom plate 730, in this embodiment, the number of the second driving cylinders 740 is preferably 4, the second driving cylinders 740 are uniformly arranged on the edge below the bottom plate 730, a suction cup 750 is arranged below the output end of each second driving cylinder 740, the suction cup 750 is connected with an external air source, when detecting glass, the second driving cylinders 740 drive the suction cups 750 to be close to the glass, after the suction cups 750 are in contact with the surface of the glass, negative air pressure is introduced into the suction cups 750 by the external air source, so that the glass is tightly attached below the suction cups 750, the second driving cylinders 740 drive the glass to be away from the objective table 620, meanwhile, the first driving cylinders 720 push the connecting rod 710 to rotate so that the glass inclines, and the.

In the embodiment, the lifting object stage 6 is matched with the lifting object taking device 7, so that objects can be taken quickly for detection, the working strength of detection personnel is greatly reduced, and the glass detection efficiency is further improved; the lifting and fetching device 7 can incline the glass to be detected at different angles, so that the multi-angle detection is convenient, and the accuracy of the glass detection is greatly improved.

In this embodiment, still be equipped with substandard product frame and finished product frame on the workstation 2, detect the completion back, through outside air supply to sucking disc 750 in for sucking disc 750 and glass separation, according to the condition that detects, place qualified glass on the finished product frame, unqualified places on the substandard product frame.

As shown in fig. 4, in a preferred embodiment, the lifting device 610 includes a third driving cylinder 611 disposed at the bottom center of the rectangular groove 5, a horizontal rectangular supporting plate 612 disposed at the output end of the third driving cylinder 611, a plurality of guide blocks 613 disposed at the outer periphery of the horizontal rectangular supporting plate 612, and a plurality of vertical guide slots 614 disposed on the side walls of the rectangular groove 5, wherein the guide blocks 613 are slidably disposed in the vertical guide slots 614.

In this embodiment, the lifting device 610 is provided with a third driving cylinder 611, a horizontal rectangular supporting plate 612, a plurality of guiding blocks 613 and a plurality of vertical guiding chutes 614, the end of the third driving cylinder 611 is disposed at the center of the bottom of the rectangular groove 5, the output end is vertically upward connected to the middle portion below the horizontal rectangular supporting plate 612, the output end of the third driving cylinder 611 can push the horizontal rectangular supporting plate 612 to ascend or descend, in this embodiment, the plurality of guiding blocks 613 are disposed on the periphery of the horizontal rectangular supporting plate 612, the plurality of vertical guiding chutes 614 are disposed on the side wall of the rectangular groove 5, and the guiding blocks 613 and the vertical guiding chutes 614 are matched to greatly improve the stability of the lifting device 610.

In a preferred embodiment, as shown in fig. 5, the horizontal rectangular supporting plate 612 is provided with four slots 8 at four corners, and the bumps 9 are disposed under the stage 620 and fit with the slots 8. In this embodiment, four corners of the horizontal rectangular supporting plate 612 are provided with the clamping grooves 8, and the lower portion of the object stage 620 is provided with the protruding blocks 9 matched with the clamping grooves 8, so that the object stage 620 is convenient to fix or take and place.

As shown in fig. 6, in a preferred embodiment, a first storage slot 10 and a second storage slot 11 are arranged on one side of the rectangular groove 5 on the working platform 2, and a storage slot cover 12 is arranged on each of the first storage slot 10 and the second storage slot 11.

In this embodiment, 5 one sides of rectangular recess are equipped with first storing groove 10 and second storing groove 11 on the workstation 2, can hold water or alcohol in the first storing groove 10, can place dustless cloth in the second storing groove 11, it washs the glass surface to be convenient for among the testing process, in this embodiment, first storing groove and second storing groove 11 all are equipped with storing capping 12, avoid volatilizing of water or alcohol, and the pollution of external dust to dustless cloth, be convenient for further improve the accuracy nature that glass detected.

As shown in fig. 7, in a preferred embodiment, the top of the testing table support 3 is provided with a blowing device 13, the blowing device 13 includes an air outlet groove 1310 arranged below the top of the testing table support 3 and a heating device 1320 arranged at one side of the frame body 1 and communicated with the upper portion of the air outlet groove 1310, the heating device 1320 includes a barrel 1321, a spiral heating wire 1322 arranged on the inner wall of the barrel 1321, a connecting pipe 1323 arranged at one end of the barrel 1321 and communicated with the air outlet groove 1310, an air inlet pipe 1324 arranged at the other end of the barrel 1321, an air filter 1325 arranged at the end of the air inlet pipe 1324 and a blower 1326 arranged on the air inlet pipe 1324.

In this embodiment, the top of the detection table support 3 is provided with the blowing device 13, the blowing device 13 is provided with an air outlet groove 1310 and a heating device 1320, the air outlet groove 1310 is arranged at the top of the detection table support 3, the opening is downward, the heating device 1320 is arranged at one side of the support body 1, in this embodiment, the heating device 1320 is provided with a barrel 1321, a spiral heating wire 1322, a connecting pipe 1323, an air inlet pipe 1324, an air filter net 1325 and a fan 1326, the barrel 1321 is arranged on the support body 1, the spiral heating wire 1322 is arranged on the inner wall of the barrel 1321, one end of the barrel 1321 is connected with the connecting pipe 1323, and is connected with the air outlet groove 1310 through the connecting pipe 1323, the other end of the barrel 1321 is provided with the air inlet pipe 1324, an air inlet of the air inlet pipe 1324 is provided with the air filter net 1325, which. In this embodiment, after the glass to be detected is cleaned with water or alcohol, the dust-free air filtered by the air filter 1325 is heated by the spiral heating wire 1322, and then the glass is dried through the air outlet groove 1310, so that the detection efficiency of the glass is further improved.

The embodiments of the present application have been described in detail, but the description is only for the preferred embodiments of the present application and should not be construed as limiting the scope of the application. All equivalent changes and modifications made within the scope of the present application shall fall within the scope of the present application.

Claims (5)

1. A glass detection device is characterized by comprising a frame body (1), a workbench (2) arranged on the frame body (1), a detection platform support (3) arranged on the workbench (2), an illuminating lamp (4) arranged on the detection platform support (3), a rectangular groove (5) arranged in the middle of the workbench (2), a lifting object stage (6) arranged in the rectangular groove (5) and a lifting object taking device (7) arranged above the lifting object stage (6) and at the top of the detection platform support (3);

the detection table bracket (3) comprises a bracket body (310) and shading plates (320) arranged at the top and the left and right sides of the bracket body (310), and the illuminating lamp (4) is arranged at the top of the bracket body (310); the lifting object stage (6) comprises a lifting device (610) and an object stage (620) movably arranged on the lifting device (610); the lifting fetching device (7) comprises a connecting rod (710) hinged below the top of the support body (310), a first driving cylinder (720) with one end hinged below the top of the support body (310) and one end hinged below the top of the connecting rod (710), a bottom plate (730) arranged below the connecting rod (710), a plurality of second driving cylinders (740) arranged below the bottom plate (730) and suckers (750) arranged below the output ends of the second driving cylinders (740).

2. The glass detecting device as claimed in claim 1, wherein the lifting device (610) comprises a third driving cylinder (611) disposed at the center of the bottom of the rectangular groove (5), a horizontal rectangular support plate (612) disposed at the output end of the third driving cylinder (611), a plurality of guide blocks (613) disposed at the periphery of the horizontal rectangular support plate (612), and a plurality of vertical guide grooves (614) disposed on the side walls of the rectangular groove (5), wherein the guide blocks (613) are slidably disposed in the vertical guide grooves (614).

3. The glass testing device as claimed in claim 2, wherein the horizontal rectangular supporting plate (612) is provided with a slot (8) at each of four corners, and a bump (9) is arranged below the object stage (620) and is matched with the slot (8).

4. The glass detection device according to claim 3, wherein a first storage groove (10) and a second storage groove (11) are formed in one side of the rectangular groove (5) on the workbench (2), and a storage groove cover (12) is arranged on each of the first storage groove (10) and the second storage groove (11).

5. The glass detection device according to claim 4, wherein a blowing device (13) is arranged at the top of the detection table support (3), the blowing device (13) comprises an air outlet groove (1310) arranged below the top of the detection table support (3) and a heating device (1320) arranged at one side of the support body (1) and communicated with the upper part of the air outlet groove (1310), and the heating device (1320) comprises a cylinder body (1321), a spiral heating wire (1322) arranged on the inner wall of the cylinder body (1321), a connecting pipe (1323) arranged at one end of the cylinder body (1321) and communicated with the air outlet groove (1310), an air inlet pipe (1324) arranged at the other end of the cylinder body (1321), an air filter screen (1325) arranged at the end of the air inlet pipe (1324) and a fan (1326) arranged on the air inlet pipe (1324).

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