CN112643467A - Intelligent grinding and inspecting production line for cover plate - Google Patents

Abstract

The invention discloses an intelligent grinding and detecting production line for cover plates, which comprises a feeding conveying line and a discharging conveying line which are arranged side by side, wherein a plurality of intelligent grinding and detecting integrated machines are arranged on two sides of the feeding conveying line and the discharging conveying line; the intelligent grinding and detecting integrated machine comprises a base, wherein a workbench assembly used for placing materials to be ground is arranged on the base, a Y-axis linear module used for transferring the materials to be ground from a material loading position to a processing position is arranged below the workbench assembly, a first grinding assembly used for grinding the materials to be ground is arranged above the workbench assembly, a detection assembly is arranged on one side of the first grinding assembly, and the detection assembly comprises a CCD camera used for detecting the appearance and the grinding precision of the materials; still be equipped with the manipulator that is located material level department from top to bottom on the base, the manipulator is used for getting the material on the material loading transfer chain and puts on the workstation subassembly/be used for getting the material on the workstation subassembly and put on the unloading transfer chain.

Description

Intelligent grinding and inspecting production line for cover plate

Technical Field

The invention relates to the field of mechanical equipment, in particular to an intelligent grinding and detecting production line for a cover plate.

Background

The grinding machine is a grinding machine for grinding the surface of a workpiece by using a grinding head coated with or embedded with an abrasive, and is mainly used for grinding high-precision planes, internal and external cylindrical surfaces, conical surfaces, spherical surfaces, threaded surfaces and other molded surfaces in the workpiece.

A grinding machine generally includes a grinding spindle, a grinding head mounted on the grinding spindle for moving the grinding head along the grinding spindle, and a drive mechanism. The grinding head moves towards the position of the workpiece to be ground under the driving of the driving mechanism so as to grind the edge of the workpiece to be ground, after the workpiece is ground, the driving mechanism drives the grinding head to move towards the direction far away from the workpiece, and then the ground workpiece is transferred to a finished product area.

In the prior art, each grinding machine is usually configured with one worker, or a plurality of grinding machines are configured with one worker, so that the workers can complete the loading and unloading operation of workpieces. However, the manual feeding and discharging mode has the defects of low production efficiency and high labor cost.

Disclosure of Invention

The invention mainly aims to provide an intelligent grinding and inspecting production line for a cover plate, and aims to solve the technical problems in the background technology.

In order to achieve the purpose, the invention provides an intelligent grinding and inspecting production line for a cover plate, which comprises a feeding conveying line and a discharging conveying line which are arranged side by side, wherein a plurality of intelligent grinding and inspecting integrated machines are arranged on two sides of the feeding conveying line and the discharging conveying line;

the intelligent grinding and detecting integrated machine comprises a base, wherein a workbench assembly used for placing materials to be ground is arranged on the base, a Y-axis linear module used for transferring the materials to be ground from a material loading position to a processing position is arranged below the workbench assembly, a first grinding assembly used for grinding the materials to be ground is arranged above the workbench assembly, a detection assembly is arranged on one side of the first grinding assembly, and the detection assembly comprises a CCD camera used for detecting the appearance and the grinding precision of the materials;

the base is further provided with a manipulator located at the upper material level and the lower material level, and the manipulator is used for taking and placing the materials on the feeding conveying line on the workbench assembly/on the discharging conveying line.

Preferably, the material loading transfer chain with the unloading transfer chain all includes the frame, be equipped with two interval distribution's curb plate in the frame, two be equipped with a plurality of interval distribution's pivot between the curb plate, the cover is equipped with a plurality of flange wheels in the pivot, adjacent two the distance is predetermine at the flange wheel interval.

Preferably, the production line is examined to apron intelligence mill still including stretching in portal frame on the base, both sides are equipped with respectively around the portal frame first grinding component with the determine module, the sharp module of Y axle is located the below of portal frame, be equipped with the sharp module of first X axle that is located its front side on the portal frame, be equipped with first slide between the sharp module of first X axle and the first grinding component.

Preferably, first grinding component includes second slide and the straight line module of first Z axle, the straight line module of first Z axle is located first slide with between the second slide, be equipped with first grinding main shaft on the second slide, the below of first grinding main shaft is equipped with the grinding rod rather than being connected.

Preferably, apron intelligence grinds and examines production line still include with the second grinding component that first grinding component set up side by side, the second grinding component with be equipped with the third slide between the straight line module of first X axle, the second grinding component includes fourth slide and the straight line module of second Z axle, the straight line module of second Z axle is located the third slide with between the fourth slide, be equipped with the second on the fourth slide and grind the main shaft, the below of second grinding main shaft is equipped with the grinding miller rather than being connected.

Preferably, the second sliding base and the fourth sliding base are both provided with a water spraying assembly, the water spraying assembly comprises a water spraying head and a plurality of nozzles connected with pipelines of the water spraying head, and the plurality of nozzles are located on the peripheral sides of the grinding rod and the grinding wheel.

Preferably, the production line is examined to apron intelligence mill still including locating the air knife subassembly of portal frame rear side, the air knife subassembly include with the air knife mounting panel that the portal frame is connected with locate the air knife on the air knife mounting panel.

Preferably, apron intelligence grinds and examines production line still including locating the second X axle straight line module of portal frame rear side, the second X axle straight line module pass through the fifth slide with detecting component connects.

Preferably, the workstation subassembly include with Y axle straight line module sliding connection's sixth slide, be equipped with rotary platform on the sixth slide, rotary platform is equipped with the tool that is used for placing the material.

Preferably, the manipulator includes that two intervals are located support column on the base, two be connected with the straight line module of third X axle between the support column, the straight line module of third X axle extends in the top of material loading transfer chain with the unloading transfer chain, the output execution end of the straight line module of third X axle is connected with the straight line module of third Z axle, the output execution end of the straight line module of third Z axle is connected with the sucking disc subassembly that is used for snatching the material.

Compared with the prior art, the embodiment of the invention has the beneficial technical effects that:

the invention provides an intelligent grinding and detecting production line for a cover plate, which comprises the steps of firstly taking and placing materials on a feeding conveying line on a workbench assembly by a manipulator, then moving the workbench assembly from a feeding position to the position below a detection assembly by a Y-axis linear module for visual positioning, moving the workbench assembly to a processing position by the Y-axis linear module after positioning is completed, grinding and processing the materials by a first grinding assembly positioned above the workbench assembly after the workbench assembly is moved to the processing position, moving the workbench assembly to the position below the detection assembly by the Y-axis linear module after grinding is completed, detecting the grinding precision and appearance of the ground materials by the detection assembly, moving the workbench assembly to a discharging position by the Y-axis linear module after detection of the materials is completed, and finally taking and placing the materials on the workbench assembly on a discharging conveying line by the manipulator, wherein the feeding position is coincided with the blanking position.

The production line is examined to apron intelligence mill that this embodiment provided, it is equipped with intelligence mill including two material loading transfer chain and the unloading transfer chain that set up side by side and examines the all-in-one with the unloading transfer chain, and the manipulator that the all-in-one was examined to intelligence mill can snatch the material from the material loading transfer chain, also can snatch the material after the grinding on the unloading transfer chain, and it is compared in artifical unloading, can improve production efficiency greatly. Simultaneously, the intelligence that this embodiment provided is ground and is examined all-in-one can grind the material simultaneously and detect, need not to shift the material after grinding to special check out test set department again and detect to further improve production efficiency, and can reduce cost in business.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an intelligent grinding and inspecting production line for cover plates according to the invention;

FIG. 2 is a schematic structural diagram of a feeding conveyor line and a discharging conveyor line of the cover plate intelligent grinding and inspecting production line;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic structural diagram of an intelligent grinding and inspection integrated machine of the cover plate intelligent grinding and inspection production line;

FIG. 5 is a schematic structural diagram of the intelligent grinding and inspection integrated machine shown in FIG. 4 at a viewing angle;

FIG. 6 is a schematic structural diagram of the intelligent grinding and inspection integrated machine shown in FIG. 4 from another view angle;

fig. 7 is a schematic structural diagram of the gantry, the first grinding assembly, the second grinding assembly and the detection assembly of the intelligent grinding and inspection all-in-one machine shown in fig. 4 at a view angle;

fig. 8 is a schematic structural diagram of the gantry, the first grinding assembly, the second grinding assembly and the detection assembly of the intelligent grinding and inspection all-in-one machine shown in fig. 4 at another view angle;

FIG. 9 is a schematic diagram of a first grinding assembly of the intelligent integrated grinding and inspection machine shown in FIG. 4;

FIG. 10 is a schematic diagram of a second grinding assembly of the intelligent integrated grinder/inspector shown in FIG. 4;

FIG. 11 is a schematic structural diagram of a workbench assembly of the intelligent integrated grinding and inspection machine shown in FIG. 4;

fig. 12 is a schematic structural diagram of a manipulator of the intelligent grinding and inspection all-in-one machine shown in fig. 4.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be illustrative of the present invention and should not be construed as limiting the present invention, and all other embodiments that can be obtained by one skilled in the art based on the embodiments of the present invention without inventive efforts shall fall within the scope of protection of the present invention.

Example one

The embodiment of the invention provides an intelligent grinding and inspecting production line for a cover plate, and referring to fig. 1-6, the intelligent grinding and inspecting production line for the cover plate comprises a feeding conveying line 100 and a discharging conveying line 200 which are arranged side by side, and a plurality of intelligent grinding and inspecting integrated machines 300 are arranged on two sides of the feeding conveying line 200;

the intelligent grinding and detecting integrated machine 300 comprises a base 1, wherein a workbench component 2 used for placing materials to be ground is arranged on the base 1, a Y-axis linear module 3 used for transferring the materials to be ground from a material loading position to a processing position is arranged below the workbench component 2, a first grinding component 4 used for grinding the materials to be ground is arranged above the workbench component 2, a detection component 5 is arranged on one side of the first grinding component 4, and the detection component 5 comprises a CCD camera used for detecting the appearance and the grinding precision of the materials;

the base 1 is further provided with a manipulator 70 located at the upper and lower material positions, and the manipulator 70 is used for taking and placing the material on the feeding conveying line 100 on the workbench assembly 2/for taking and placing the material on the workbench assembly 2 on the discharging conveying line 200.

The main function of the feeding conveyor line 100 according to the embodiment of the present invention is to convey a material to be ground, the feeding conveyor line 100 has a beginning end and a tail end, the beginning end of the feeding conveyor line 100 refers to one end of the feeding conveyor line 100 where the material starts to be conveyed, and the tail end of the feeding conveyor line 100 refers to the other end of the feeding conveyor line 100. At the beginning of the feeding conveyor line 100, the material to be ground may be manually or robotically placed on the feeding conveyor line 100 such that the material to be ground is conveyed along the conveying direction of the feeding conveyor line 100.

The main function of the blanking conveying line 200 provided by the embodiment of the present invention is to convey ground materials, the blanking conveying line 200 has a beginning and an end, the beginning of the blanking conveying line 200 refers to the end of the blanking conveying line 200 where the material starts to be conveyed, and the end of the blanking conveying line 200 refers to the other end of the blanking conveying line 200. At the end of the lower material conveying line 200, the ground material may be manually or robotically conveyed to a predetermined area.

The base 1 provided by the embodiment of the invention mainly has the function of installing the workbench assembly 2, the Y-axis linear module 3, the first grinding assembly 4 and the detection assembly 5, the base 1 is constructed in a rectangular structure, and the rear side of the base 1 is provided with a trunk for installing components such as a lubricating pump, an oil filter, an electromagnetic valve and the like. Preferably, a left side plate is provided on the left side of the base 1, a right side plate is provided on the right side of the base 1, a front sealing plate is provided on the front side of the base 1, and a sheet metal cover is provided on the base 1. Further, still be provided with the drainage facing subassembly that is used for the drainage on base 1, the drainage facing subassembly specifically includes straight tube, three-way valve, joint and filter screen, and the filter screen is used for filtering the residue that produces when grinding the material.

The workbench assembly 2 provided by the embodiment of the invention has the main functions of placing materials to be ground, and before the materials are ground, the materials need to be placed on the workbench assembly 2 through hands or a mechanical arm so as to fix a workpiece through the workbench assembly 2 and prevent the workpiece from moving during grinding. Preferably, the worktable assembly 2 may include a positioning structure, and the positioning structure is mainly used for positioning the material placed on the worktable assembly 2 to ensure that the material to be ground is located at a preset position of the worktable assembly 2, thereby improving the grinding quality. Specifically, the positioning structure may be a clamp block disposed on the side of the workpiece placement position to position the workpiece to be ground by the clamp block.

The Y-axis linear module 3 provided by the embodiment of the invention mainly has the main function of driving the workbench component 2 to reciprocate at the processing position and the upper and lower material positions, wherein the processing position is below the position of the first grinding component 4, and the positions of the feeding position and the discharging position are overlapped, namely the feeding position and the discharging position are actually the same position, and the feeding position and the discharging position are positioned at the rear side of the detection component 5. More specifically, with the Y-axis linear module 3 as a reference, one end of the Y-axis linear module 3 near the first polishing assembly 4 is a front end, the other end of the Y-axis linear module 3 is a rear end, and the feeding position and the discharging position are located at the rear end of the Y-axis linear module 3.

The first grinding assembly 4 provided by the embodiment of the invention mainly grinds materials, and is mainly used for edge grinding, chamfering or hole expanding processing of LCD panels/Touch panels. The first grinding assembly 4 can move relative to the material to be ground placed on the workbench assembly 2, so that the first grinding assembly 4 is positioned at the edge position of the material to be ground, and edge grinding of the material to be ground is realized.

The detection assembly 5 provided by the embodiment of the invention has the main functions of carrying out grinding precision detection and appearance detection on the ground materials, wherein the appearance detection specifically comprises cracks, edge breakage and the like, so that the quality detection is carried out on the ground materials after the grinding is finished, and the defective goods are prevented from being packaged and delivered out of a factory. Specifically, the detection component 5 comprises a CCD camera, and the CCD camera is used for performing visual positioning on the material to be ground and detecting the appearance and the grinding precision of the material. Concretely, will place the workstation subassembly 2 that remains to grind the material at Y axle sharp module 3 and remove to detection component 5 below after, earlier carry out visual localization through detection component 5 to the material of waiting to grind on the workstation subassembly, remove workstation subassembly 2 to the processing position by Y axle sharp module 3 after the location again, wait to process the completion back, remove the workstation subassembly to detection component 5 below by Y axle sharp module 3 again, in order to carry out outward appearance and precision detection to the material after grinding, then remove workstation subassembly 2 to unloading position by Y axle sharp module 3 again. .

Example two

Referring to fig. 2, the feeding conveyor line 100 and the discharging conveyor line 200 according to the embodiment of the present invention each include a frame 120, two side plates 121 are disposed on the frame 120 at intervals, a plurality of rotating shafts 122 are disposed between the two side plates 121 at intervals, a plurality of edge blocking wheels 123 are sleeved on the rotating shafts 122, and a preset distance is provided between two adjacent edge blocking wheels 123. In this embodiment, the feeding conveyor line 100 and the discharging conveyor line 200 have the same structure, and each of the feeding conveyor line and the discharging conveyor line includes two side plates 121 spaced apart from each other, a plurality of rotating shafts 122 are rotatably connected between the two side plates 121 spaced apart from each other, the plurality of rotating shafts 122 can be driven by a motor to rotate, and as for a transmission mechanism between the motor and the rotating shafts 122, this embodiment is not limited thereto, and only needs to rotate the rotating shafts 122. The rotating shaft 122 is sleeved with a plurality of flange wheels 123, each flange wheel 123 is a roller with flanges, each flange is mainly used for abutting against the side edge of a material, two adjacent flange wheels 123 form an accommodating space for accommodating the material, and the material is placed between the two adjacent flange wheels 123, so that the material can be conveyed along the conveying direction. It should be noted that the preset distance between two adjacent edge wheels 123 is adapted to the width of the material.

EXAMPLE III

Referring to fig. 7 and 9, the intelligent grinding and inspecting all-in-one machine 300 provided by the embodiment of the invention further includes a gantry 6 stretching over the base 1, the front side and the rear side of the gantry 6 are respectively provided with a first grinding assembly 4 and a detection assembly 5, the Y-axis linear module 3 is located below the gantry 6, the gantry 6 is provided with a first X-axis linear module 7 located at the front side of the gantry 6, and a first sliding seat 8 is arranged between the first X-axis linear module 7 and the first grinding assembly 4. In this embodiment, the gantry 6 spans over the base 1, and the gantry 6 specifically includes two spaced columns and a beam disposed between the two columns. It should be noted that the front-back direction defined herein is referred to as a Y-axis linear module 3, one end of the Y-axis linear module 3 close to the first polishing assembly 4 is a front end, and the other end of the Y-axis linear module 3 is a rear end. After the Y-axis linear module 3 is filled with materials to be ground and moved to a processing position, the workpiece is ground by the first grinding assembly 4, the workbench assembly 2 is moved to the lower side of the detection assembly 5 by the Y-axis linear module 3 after the grinding is finished, the materials on the workbench assembly 2 are detected by the detection assembly 5, and after the materials to be ground are detected, the workbench assembly 2 is moved to a discharging position by the Y-axis linear module 3. More specifically, the first slide 8 can reciprocate along the X-axis under the driving of the first X-axis linear module 7, and since the first polishing assembly 4 is connected to the first slide 8 in a transmission manner, the first slide 8 moves to drive the first polishing assembly 4 to move along the X-axis, so that the first polishing assembly 4 polishes along the edge portion of the material.

Example four

Referring to fig. 9, the first polishing assembly 4 according to the embodiment of the present invention includes a second slide 41 and a first Z-axis linear module 42, the first Z-axis linear module 42 is disposed between the first slide 8 and the second slide 41, a first polishing spindle 43 is disposed on the second slide 41, and a polishing rod 44 connected to the first polishing spindle 43 is disposed below the first polishing spindle 43. In this embodiment, the first polishing assembly 4 is in transmission connection with the first slide 8 through the second slide 41, the second slide 41 can reciprocate along the X-axis under the driving of the first slide 8, and since the first polishing spindle 43 is disposed on the second slide 41, the first polishing spindle 43 will follow the second slide 41 to reciprocate along the X-axis. Further, a first Z-axis linear module 42 is disposed between the first slider 8 and the second slider 41, a slider of the first Z-axis linear module 42 can reciprocate along the Z-axis on a linear guide rail of the first Z-axis linear module 42, and the second slider 41 can reciprocate along the Z-axis along with the slider of the first Z-axis linear module 42 because the slider of the first Z-axis linear module 42 is connected with the second slider 41. The grinding rods 44 can be used not only for roughing and finishing the material, but also for chamfering and reaming the material, which can be selected according to the material processing requirements.

EXAMPLE five

Referring to fig. 7 and 10, the intelligent grinding and inspecting integrated machine 300 according to the embodiment of the present invention further includes a second grinding assembly 9 arranged side by side with the first grinding assembly 4, a third sliding seat 10 is arranged between the second grinding assembly 9 and the first X-axis linear module 7, the second grinding assembly 9 includes a fourth sliding seat 91 and a second Z-axis linear module 92, the second Z-axis linear module 92 is arranged between the third sliding seat 10 and the fourth sliding seat 91, a second grinding spindle 93 is arranged on the fourth sliding seat 91, and a grinding wheel 94 connected to the second grinding spindle 93 is arranged below the second grinding spindle 93. In this embodiment, a second grinding assembly 9 is further disposed on the gantry 6, and the second grinding assembly 9 can reciprocate along the X-axis along with a third slide 10. Specifically, a third slide seat 10 is arranged between the second grinding assembly 9 and the first X-axis linear module 7, the slide block of the first X-axis linear module 7 can reciprocate on the linear guide rail of the first X-axis linear module 7 along the X-axis, and because the third slide seat 10 is connected with the slide block of the first X-axis linear module 7, the third slide seat 10 can move on the linear guide rail of the first X-axis linear module 7 along with the slide block of the first X-axis linear module 7. The second grinding assembly 9 is in driving connection with the third slide 10, and when the third slide 10 moves along the X-axis, the second grinding assembly 9 is driven to move along the X-axis. Further, a second Z-axis linear module 92 is disposed between the second slide 41 and the fourth slide 91, a slider of the second Z-axis linear module 92 can reciprocate along the Z-axis on a linear guide rail of the second Z-axis linear module 92, and the fourth slide 91 can reciprocate along the Z-axis following the slider of the second Z-axis linear module 92 because the slider of the second Z-axis linear module 92 is connected to the fourth slide 91. It should be noted that the grinding wheel 94 has a much higher grinding efficiency than the grinding rod 44, so that the material not ground by the grinding rod 44 can be ground by only the grinding wheel 94 to improve the grinding efficiency of the material. For the materials to be ground by the grinding rod 44, such as materials with slotted holes, because the diameter of the grinding wheel 94 is large, the inner wall of the slotted hole of the material cannot be ground, so the grinding rod 44 is needed to grind the materials, but the grinding wheel 94 is also used to grind the edge part of the materials.

EXAMPLE six

Referring to fig. 9 and 10, the second slide 41 and the fourth slide 91 according to the embodiment of the present invention are each provided with a water spraying assembly, which includes a water spraying head 201 and a plurality of nozzles 202 connected to a pipe thereof, wherein the plurality of nozzles 202 are located on the peripheral sides of the grinding rod 44 and the grinding wheel 94. In this embodiment, dust is generated when the workpiece is ground by the grinding rod 44 and the grinding wheel 94, and therefore, it is necessary to remove the dust. Preferably, the second slide 41 and the fourth slide 91 are each provided with a sprinkler head 201, and the sprinkler head 201 is connected to the plurality of nozzles 202 through water pipes to conduct the sprinkler head 201 and the plurality of first nozzles 202. Thus, the water sprayed from the water spray head 201 flows into each nozzle 202 through the water pipe, and is sprayed from each nozzle 202 toward the grinding rod 44. It will be appreciated that the first nozzle 202 not only serves to remove dust, but also to dissipate heat from the grinding rod 44 and grinding wheel 94, since the grinding rod 44 and grinding wheel 94 generate a large amount of heat during grinding of the workpiece, which could cause damage to the grinding rod 44 and grinding wheel 94 if not cooled in a timely manner.

EXAMPLE seven

Referring to fig. 8, the intelligent grinding and inspection integrated machine 300 according to the embodiment of the present invention further includes an air knife assembly 40 disposed at the rear side of the gantry 6, and the air knife assembly 40 includes an air knife mounting plate 401 connected to the gantry 6 and an air knife 402 disposed on the air knife mounting plate 401. In this embodiment, after the material is ground, the Y-axis linear module 3 moves the worktable assembly 2 to the lower side of the air knife 402 assembly 40, so as to dry and clean the material by the hot air sent out by the air knife 402. Specifically, the air knife 402 assembly 40 is arranged on the gantry 6 and comprises an air knife 402 mounting plate 401 and an air knife 402, the air knife 402 is arranged on the air knife 402 mounting plate 401, the air knife 402 mounting plate 401 is connected with the gantry 6, and the air knife 402 is vertically downward.

Example eight

Referring to fig. 8, the intelligent grinding and inspecting all-in-one machine 300 according to the embodiment of the present invention further includes a second X-axis linear module 50 disposed at the rear side of the gantry 6, and the second X-axis linear module 50 is connected to the detecting assembly 5 through a fifth sliding seat 60. In this embodiment, the second X-axis linear module 50 is specifically disposed on the beam of the gantry 6 and is opposite to the first X-axis linear module 7. The slider of the second X-axis linear module 50 can reciprocate along the X-axis on the linear guide of the second X-axis linear module 50, and the fifth slider 60 is disposed on the slider of the second X-axis linear module 50, so that the fifth slider 60 can move along the X-axis along with the slider of the second X-axis linear module 50, thereby driving the detecting component 5 to move along the X-axis. It can be understood that, when the appearance and the grinding precision of the material are detected, the second X-axis linear module 50 drives the detection assembly 5 to move to the position right above the workbench assembly 2 so as to detect the material on the workbench assembly 2. After the detection is completed, the second X-axis linear module 50 drives the detection assembly 5 to move to the initial position, and the detection assembly 5 provided in this embodiment is mainly used for performing sampling detection on the materials, and certainly, each material can be detected, and at this time, the detection assembly 5 is kept stationary at the preset position.

Example nine

Referring to fig. 11, the workbench assembly 2 according to the embodiment of the present invention includes a sixth sliding base 21 slidably connected to the Y-axis linear module 3, a rotating platform 22 is disposed on the sixth sliding base 21, and the rotating platform 22 is provided with a fixture 23 for placing a material. In this embodiment, taking a rectangular glass cover plate as an example, after two opposite right-angled edges of the glass cover plate are ground, the rotating platform 22 drives the jig 23 disposed thereon to rotate clockwise by 90 degrees or counterclockwise by 90 degrees, so as to grind the other two opposite right-angled edges of the glass cover plate.

Example ten

Referring to fig. 12, the robot 70 according to the embodiment of the present invention includes two support columns 701 spaced apart from each other on the base 1, a third X-axis linear module 702 is connected between the two support columns 701, the third X-axis linear module 702 extends above the feeding conveyor line 100 and the discharging conveyor line 200, an output execution end of the third X-axis linear module 702 is connected to a third Z-axis linear module 703, and an output execution end of the third Z-axis linear module 703 is connected to a chuck assembly 704 for gripping a material. In this embodiment, the robot 70 is disposed at the loading and unloading position, so that the robot 70 can automatically load and unload materials. Specifically, the material to be ground on the feeding conveying line 100 is placed on the workbench assembly 2 through the manipulator 70, the Y-axis linear module 3 moves the material to the processing position, after the grinding is completed, the workbench assembly 2 is moved to the discharging position through the Y-axis linear module 3, and finally the material on the workbench assembly 2 is taken and placed on the discharging conveying line 200 through the manipulator 70. Preferably, the robot 70 provided in this embodiment specifically includes a third X-axis linear module 702, a third Z-axis linear module 703 connected to the third X-axis linear module 702 in a sliding manner, and a chuck assembly 704 for grasping a material, where the chuck assembly 704 can reciprocate along the X-axis and the Z-axis under the driving of the third X-axis linear module 702 and the third Z-axis linear module 703.

The following are only some or preferred embodiments of the present invention, and no limitation to the scope of the present invention should be construed by the accompanying drawings or any other claims, and all changes, equivalents and modifications made by the following description and drawings, which are directly or indirectly applicable to the technical fields related thereto, are intended to be embraced therein.

Claims (10)

1. The intelligent grinding and detecting production line for the cover plate is characterized by comprising a feeding conveying line and a discharging conveying line which are arranged side by side, wherein a plurality of intelligent grinding and detecting integrated machines are arranged on two sides of the feeding conveying line and the discharging conveying line;

the intelligent grinding and detecting integrated machine comprises a base, wherein a workbench assembly used for placing materials to be ground is arranged on the base, a Y-axis linear module used for transferring the materials to be ground from a material loading position to a processing position is arranged below the workbench assembly, a first grinding assembly used for grinding the materials to be ground is arranged above the workbench assembly, a detection assembly is arranged on one side of the first grinding assembly, and the detection assembly comprises a CCD camera used for detecting the appearance and the grinding precision of the materials;

the base is further provided with a manipulator located at the upper material level and the lower material level, and the manipulator is used for taking and placing the materials on the feeding conveying line on the workbench assembly/on the discharging conveying line.

2. The production line is examined to apron intelligence mill of claim 1, characterized in that, material loading transfer chain with the unloading transfer chain all includes the frame, be equipped with two interval distribution's curb plate in the frame, be equipped with a plurality of interval distribution's pivot between two the curb plate, the cover is equipped with a plurality of flange wheels in the pivot, two adjacent flange wheel interval preset distance.

3. The intelligent cover plate grinding and inspecting production line of claim 1, further comprising a portal frame spanning the base, wherein the first grinding assembly and the detection assembly are respectively arranged on the front side and the rear side of the portal frame, the Y-axis linear module is located below the portal frame, a first X-axis linear module located on the front side of the portal frame is arranged on the portal frame, and a first sliding seat is arranged between the first X-axis linear module and the first grinding assembly.

4. The intelligent cover plate grinding and inspecting production line according to claim 3, wherein the first grinding assembly comprises a second sliding seat and a first Z-axis linear module, the first Z-axis linear module is arranged between the first sliding seat and the second sliding seat, a first grinding spindle is arranged on the second sliding seat, and a grinding rod connected with the first grinding spindle is arranged below the first grinding spindle.

5. The intelligent cover plate grinding and inspecting production line according to claim 4, further comprising a second grinding assembly arranged side by side with the first grinding assembly, wherein a third slide seat is arranged between the second grinding assembly and the first X-axis linear module, the second grinding assembly comprises a fourth slide seat and a second Z-axis linear module, the second Z-axis linear module is arranged between the third slide seat and the fourth slide seat, a second grinding spindle is arranged on the fourth slide seat, and a grinding wheel connected with the second grinding spindle is arranged below the second grinding spindle.

6. The cover plate intelligent grinding production line according to claim 5, wherein a water spraying assembly is arranged on each of the second sliding base and the fourth sliding base, the water spraying assembly comprises a water spraying head and a plurality of nozzles connected with pipelines of the water spraying head, and the plurality of nozzles are located on the peripheral sides of the grinding rod and the grinding wheel.

7. The cover plate intelligent grinding production line of claim 6, further comprising an air knife assembly arranged on the rear side of the portal frame, wherein the air knife assembly comprises an air knife mounting plate connected with the portal frame and an air knife arranged on the air knife mounting plate.

8. The intelligent cover plate grinding and inspecting production line of claim 1, further comprising a second X-axis linear module arranged on the rear side of the portal frame, wherein the second X-axis linear module is connected with the detection assembly through a fifth sliding seat.

9. The intelligent cover plate grinding and inspecting production line of claim 1, wherein the workbench assembly comprises a sixth sliding seat in sliding connection with the Y-axis linear module, a rotating platform is arranged on the sixth sliding seat, and a jig for placing materials is arranged on the rotating platform.

10. The intelligent cover plate grinding and inspecting production line of any one of claims 1 to 9, wherein the manipulator comprises two support columns arranged on the base at intervals, a third X-axis linear module is connected between the two support columns, the third X-axis linear module extends above the feeding conveying line and the discharging conveying line, an output execution end of the third X-axis linear module is connected with a third Z-axis linear module, and an output execution end of the third Z-axis linear module is connected with a sucker assembly for grabbing materials.

Images