CN112693003A

CN112693003A - Crack detects disconnect-type calcium carbonate board processing apparatus

Info

Publication number: CN112693003A
Application number: CN202011588141.1A
Authority: CN
Inventors: 王远
Original assignee: Individual
Current assignee: Anhui Sanhe Construction Co ltd
Priority date: 2020-12-29
Filing date: 2020-12-29
Publication date: 2021-04-23
Anticipated expiration: 2040-12-29
Also published as: CN112693003B

Abstract

The invention relates to a calcium carbonate plate, in particular to a split type calcium carbonate plate processing device for crack detection. The technical problem to be solved is as follows: provided is a split type calcium carbonate plate processing device for crack detection. The technical scheme is as follows: a split type calcium carbonate board processing device for crack detection comprises a connecting underframe, a top mounting plate, a first transmission mechanism, a second transmission mechanism, a separation stirring system, a fragmentation detection system, a crack detection system and the like; the top mounting plate is welded with the connecting underframe; the first transmission mechanism is connected with the connecting underframe. The invention realizes the cutting of the long-distance calcium carbonate plate, stirs the adjacent calcium carbonate plate with a short distance after the cutting is finished to enlarge the distance, detects and separates the cracked calcium carbonate after the cutting, detects the cracks of the calcium carbonate plate without cracking, and automatically detects whether the calcium carbonate plate has the effect of cracks invisible to naked eyes.

Description

Crack detects disconnect-type calcium carbonate board processing apparatus

Technical Field

The invention relates to a calcium carbonate plate, in particular to a split type calcium carbonate plate processing device for crack detection.

Background

The calcium silicate board is used as a novel green environment-friendly building material, has the advantages of superior fire resistance, moisture resistance and super-long service life besides the functions of the traditional gypsum board, and is widely applied to suspended ceiling and partition walls of industrial and commercial engineering buildings, lining boards of home decoration and furniture, lining boards of billboards, shed boards of warehouses, network floors, wall boards of indoor projects such as tunnels and the like.

At present, in the prior art, in the process of processing and producing the calcium carbonate plate, the calcium carbonate plate is a long-distance continuous calcium carbonate plate, and needs to be subsequently cut into blocks, and in the cutting process, after a saw blade is cut to the inner side of the calcium carbonate plate, the calcium carbonate plate can generate cracks under the condition of uneven stress on part of the saw blade; meanwhile, after the calcium carbonate board is cut into blocks, the calcium carbonate board is impacted by external force in the conveying process, cracks and part of cracks invisible to naked eyes can be generated, and if the calcium carbonate board with the cracks is used for buildings, the supporting strength of the calcium carbonate board does not reach the standard, so that the personal safety is influenced; meanwhile, due to uncertainty of manpower in the manual stacking process, the calcium carbonate plate is easy to collide, and the collided calcium carbonate plate can be damaged to different degrees; mostly in the current production process, the artificial naked eyes carry out crack identification and screening to the calcium carbonate board, and is inefficient, and the naked eye precision is low, and detection effect is poor.

In order to solve the problems, a split type calcium carbonate plate processing device for crack detection is provided.

Disclosure of Invention

In order to overcome the defects that in the prior art, the calcium carbonate plate is a long-distance continuous calcium carbonate plate and needs to be subsequently cut into blocks in the processing and production process of the calcium carbonate plate, and cracks are generated on the calcium carbonate plate under the condition that partial stress is uneven after a saw blade is cut to the inner side of the calcium carbonate plate in the cutting process; meanwhile, after the calcium carbonate board is cut into blocks, the calcium carbonate board is impacted by external force in the conveying process, cracks and part of cracks invisible to naked eyes can be generated, and if the calcium carbonate board with the cracks is used for buildings, the supporting strength of the calcium carbonate board does not reach the standard, so that the personal safety is influenced; meanwhile, due to uncertainty of manpower in the manual stacking process, the calcium carbonate plate is easy to collide, and the collided calcium carbonate plate can be damaged to different degrees; mostly be in the current production process artifical naked eye to carry out crack identification screening to the calcium carbonate board, it is inefficient, and the naked eye precision is low, the poor shortcoming of detection effect, the technical problem who solves: provided is a split type calcium carbonate plate processing device for crack detection.

The technical scheme is as follows: a crack detection disconnect-type calcium carbonate board processing apparatus includes:

connecting the underframe;

the top mounting plate is welded with the connecting underframe;

the first conveying mechanism is connected with the connecting underframe;

the second conveying mechanism is connected with the connecting underframe;

the separation poking system is connected with the top mounting plate;

the fragmentation detection system is connected with the separation poking system and the top mounting plate;

the crack detection system is connected with the top mounting plate and the fragmentation detection system;

the jacking auxiliary system is connected with the second conveying mechanism;

the first camera is connected with the top mounting plate.

Further, the partitioned poking system comprises:

the first electric lifting column is connected with the top mounting plate;

the upper part of the first mounting frame is connected with the first electric lifting column through a bolt;

the first power motor is connected with the first mounting frame through bolts;

the first rotating shaft rod is fixedly connected with an output shaft of the first power motor and is rotationally connected with the first mounting frame;

the axis of the first cutting saw blade is fixedly connected with the first rotating shaft rod;

the upper part of the first fixed frame column is welded with the top mounting plate;

the upper part of the second fixed frame column is welded with the top mounting plate;

one side of the limit control frame plate is welded with the first fixed frame column, and the other side of the limit control frame plate is welded with the second fixed frame column;

the first collecting frame is in bolted connection with the limiting control frame plate;

the fixed middle frame column is connected with the first collecting frame;

the first driving wheel is rotatably connected with the fixed middle frame column;

the first elastic telescopic rod is fixedly connected with the first driving wheel;

the first connecting shaft seat is connected with the first elastic telescopic rod;

the rotating shaft column is rotatably connected with the first connecting shaft base;

the first connecting rod is rotatably connected with the rotating shaft column;

the inner side of the first sliding sleeve is in sliding connection with the first connecting rod;

the upper part of the toggle clamp is welded with the first connecting rod;

the first limiting slide bar is fixedly connected with the first collecting frame, and the outer surface of the first limiting slide bar is in sliding connection with the first sliding sleeve;

the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt;

the first bearing rear frame plate is rotatably connected with the second driving wheel, and the lower part of the first bearing rear frame plate is welded with the top mounting plate;

the axis of the first bevel gear is fixedly connected with the second driving wheel;

the second bevel gear is meshed with the first bevel gear;

and the third driving wheel is fixedly connected with the second bevel gear, the axis of the third driving wheel is rotatably connected with the top mounting plate, and the third driving wheel is connected with the fragmentation detection system.

Further, the fragmentation detection system comprises:

a second power motor;

the motor base plate is connected with the second power motor through bolts, and the lower part of the motor base plate is connected with the top mounting plate through bolts;

the second rotating shaft rod is fixedly connected with the output shaft of the second power motor;

the axle center of the fourth driving wheel is fixedly connected with the second rotating shaft rod;

the axis of the fifth driving wheel is fixedly connected with the second rotating shaft rod, and the fifth driving wheel is connected with the crack detection system;

the axis of the sixth driving wheel is fixedly connected with the second rotating shaft rod, and the outer ring surface of the sixth driving wheel is in transmission connection with the third driving wheel through a belt;

the outer ring surface of the seventh driving wheel is in transmission connection with the fourth driving wheel through a belt;

the third rotating shaft rod is fixedly connected with the seventh driving wheel, and the outer surface of the third rotating shaft rod is rotatably connected with the top mounting plate;

the axle center of the first flat gear is fixedly connected with the third rotating shaft rod;

the upper part of the second electric lifting column is connected with the top mounting plate through a bolt;

the upper part of the third electric lifting column is connected with the top mounting plate through a bolt;

one side of the first gathering plate is connected with the second electric lifting column, and the other side of the first gathering plate is connected with the third electric lifting column;

the first connecting sliding column is in sliding connection with the first gathering plate;

the upper part of the first bending pressure rod is welded with the first connecting sliding column;

the upper part of the second connecting sliding column is in sliding connection with the first gathering plate;

the upper part of the second bending pressure rod is welded with the second connecting sliding column;

one side of the first transmission frame is welded with the first bending pressure rod, and the other side of the first transmission frame is welded with the second bending pressure rod;

the cam is in transmission connection with the first transmission frame;

the inner side of the second transmission frame is in transmission connection with the cam;

the first connecting sleeve block is welded with the second transmission frame;

the third bending pressure rod is fixedly connected with the first connecting sleeve block;

the fourth rotating shaft rod is fixedly connected with the cam;

the first bearing frame is rotationally connected with the fourth rotating shaft rod, and the lower part of the first bearing frame is welded with the first collecting plate;

and the axle center of the second flat gear is fixedly connected with the fourth rotating shaft rod.

Further, the crack detection system comprises:

the outer surface of the fifth rotating shaft rod is rotatably connected with the top mounting plate;

the shaft center of the eighth driving wheel is fixedly connected with the fifth rotating shaft rod, and the outer ring surface of the eighth driving wheel is in transmission connection with the fifth driving wheel through a belt;

the axle center of the third flat gear is fixedly connected with the fifth rotating shaft rod;

the fourth flat gear is meshed with the third flat gear;

the axis of the ninth driving wheel is fixedly connected with the fourth flat gear;

the first screw rod is fixedly connected with the ninth driving wheel;

the second bearing frame is rotationally connected with the first screw rod;

the outer ring surface of the tenth driving wheel is in transmission connection with the ninth driving wheel through a belt;

the second screw rod is fixedly connected with the tenth transmission wheel and is rotationally connected with the second bearing frame;

the upper part of the lifting assembly plate is welded with the second bearing frame;

the upper part of the fourth electric lifting column is connected with the top mounting plate, and the lower part of the fourth electric lifting column is connected with the lifting assembly plate through bolts;

the upper part of the fifth electric lifting column is connected with the top mounting plate, and the lower part of the fifth electric lifting column is connected with the lifting assembly plate through bolts;

the inner side of the internal thread sliding plate is in transmission connection with the first screw rod and the second screw rod in sequence;

the upper part of the second camera is connected with the internal thread sliding plate;

the upper part of the first downward pressing ball rod is welded with the internal thread sliding plate;

the upper part of the second lower ball rod is welded with the internal thread sliding plate;

the upper part of the third bearing frame is welded with the lifting assembly plate, and the third bearing frame is rotationally connected with the first screw rod;

the upper part of the second limiting slide bar is welded with the lifting assembly plate, and the lower part of the second limiting slide bar is welded with the third bearing frame;

the upper part of the fourth bearing frame is welded with the lifting assembly plate, and the fourth bearing frame is rotationally connected with the second screw rod;

and the upper part of the third limiting slide bar is welded with the lifting assembly plate, and the lower part of the third limiting slide bar is welded with the fourth bearing frame.

Further, the auxiliary system for jacking comprises:

the limiting movable sliding track plate is connected with the second conveying mechanism through bolts;

the lower part of the fixed vertical plate is welded with the limiting movable slideway plate;

the fixed connecting sleeve is rotatably connected with the fixed vertical plate;

the first electric push rod is sleeved with the fixed connecting sleeve;

the connecting shaft frame plate is connected with the first electric push rod;

the upper top roller is rotatably connected with the connecting shaft frame plate;

the upper part of the electric lifting seat is connected with the connecting shaft frame plate, and the lower part of the electric lifting seat is in sliding connection with the limiting movable slideway plate.

Furthermore, the inner sides of the two clamping strips of the toggle clamp are respectively provided with a hard silica gel block.

Furthermore, the lower side of the limiting control frame plate is an inclined plane which is tightened inwards.

The invention has the advantages that: firstly, in order to solve the problems that in the prior art, a calcium carbonate plate is a long-distance continuous calcium carbonate plate and needs to be subsequently cut into blocks in the processing and production process of the calcium carbonate plate, and in the cutting process, the calcium carbonate plate can generate cracks under the condition that partial stress is not uniform after a saw blade is cut to the inner side of the calcium carbonate plate; meanwhile, after the calcium carbonate board is cut into blocks, the calcium carbonate board is impacted by external force in the conveying process, cracks and part of cracks invisible to naked eyes can be generated, and if the calcium carbonate board with the cracks is used for buildings, the supporting strength of the calcium carbonate board does not reach the standard, so that the personal safety is influenced; meanwhile, due to uncertainty of manpower in the manual stacking process, the calcium carbonate plate is easy to collide, and the collided calcium carbonate plate can be damaged to different degrees; in the existing production process, the calcium carbonate plate is mostly subjected to crack identification and screening by artificial naked eyes, so that the problems of low efficiency, low precision of naked eyes and poor detection effect are solved;

designing a separation shifting system, a fragmentation detection system, a crack detection system and an upper jacking auxiliary system, when in use, firstly controlling the separation shifting system to cut continuous calcium carbonate plates, then shifting the continuous adjacent calcium carbonate plates after cutting to the right by the separation shifting system to separate a distance between the calcium carbonate plate and the previous calcium carbonate plate, so as to be convenient for subsequent detection, carrying out fragmentation detection on the calcium carbonate plates by the fragmentation detection system, observing the conditions of the plates through a first camera, detecting the cracked and broken plates and manually sorting the plates, then matching the crack detection system and the upper jacking auxiliary system to detect the calcium carbonate plates, detecting whether cracks exist in the plates, judging that the plates are unqualified when the cracks exist, and picking out the cracked calcium carbonate plates;

the cutting of the long-distance calcium carbonate plate is realized, the adjacent calcium carbonate plate with a short distance after the cutting is finished is shifted to enlarge the distance, the cracked calcium carbonate after the cutting is detected and separated, the crack detection is carried out on the calcium carbonate plate without cracking, and the effect of automatically detecting whether the crack invisible to naked eyes exists is achieved.

Drawings

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

FIG. 2 is a schematic view of a partitioned dialing system according to the present invention;

FIG. 3 is a schematic diagram of a fragmentation detection system of the present invention;

FIG. 4 is a schematic structural diagram of a crack detection system according to the present invention;

FIG. 5 is a schematic diagram of the overhead assistance system of the present invention;

FIG. 6 is a schematic perspective view of a toggle clamp according to the present invention;

fig. 7 is a schematic perspective view of a limit control frame plate according to the present invention.

Reference numerals: 1_ link chassis, 2_ top mounting plate, 3_ first transport mechanism, 4_ second transport mechanism, 5_ split toggle system, 6_ fracture detection system, 7_ crack detection system, 8_ overhead assistance system, 9_ first camera, 501_ first motorized lift column, 502_ first mounting frame, 503_ first motor, 504_ first spindle rod, 505_ first cutting blade, 506_ first carriage column, 507_ second carriage column, 508_ limit control frame plate, 509_ first aggregate rack, 5010_ fixed middle carriage column, 5011_ first drive wheel, 5012_ first flexible telescopic rod, 5013_ first link shaft seat, 5014_ pivot shaft column, 5015_ first link rod, 5016_ first slide sleeve, 5017_ toggle clamp, 5018_ first limit slide bar, 5019_ second carriage plate, 5020_ first bearing rear frame plate, 5021_ first bevel gear, 5022_ second bevel gear, 5023_ third transmission wheel, 601_ second power motor, 602_ motor seat plate, 603_ second rotation shaft rod, 604_ fourth transmission wheel, 605_ fifth transmission wheel, 606_ sixth transmission wheel, 607_ seventh transmission wheel, 608_ third rotation shaft rod, 609_ first flat gear, 6010_ second electric lifting column, 6011_ third electric lifting column, 6012_ first gathering plate, 6013_ first connecting sliding column, 6014_ first bending pressing rod, 6015_ second connecting sliding column, 6016_ second bending pressing rod, 6017_ first transmission frame, 6018_ cam, 6019_ second transmission frame, 6020_ first connecting sleeve block, 6021_ third bending pressing rod, 6022_ fourth rotation shaft rod, 6023_ first bearing frame, 6024_ second flat gear, 701_ fifth rotation shaft, 702_ eighth transmission wheel, 704_ third gear, 6018_ fourth flat gear, 6022_ ninth transmission wheel, 705_ second bearing frame, 706_ screw rod, 708_ tenth driving wheel, 709_ second screw rod, 7010_ lifting collection plate, 7011_ fourth electric lifting column, 7012_ fifth electric lifting column, 7013_ internal thread sliding plate, 7014_ second camera, 7015_ first lower ball rod, 7016_ second lower ball rod, 7017_ third bearing frame, 7018_ second limit sliding rod, 7019_ fourth bearing frame, 7020_ third limit sliding rod, 801_ limit moving slide way plate, 802_ fixed riser, 803_ fixed connecting sleeve, 804_ first electric push rod, 805_ connecting shaft frame plate, 806_ upper top roller and 807_ electric lifting seat.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A split type calcium carbonate board processing device for crack detection is shown in figures 1-7 and comprises a connecting underframe 1, a top mounting plate 2, a first transmission mechanism 3, a second transmission mechanism 4, a separation stirring system 5, a fragmentation detection system 6, a crack detection system 7, an upper jacking auxiliary system 8 and a first camera 9; the top mounting plate 2 is welded with the connecting underframe 1; the first conveying mechanism 3 is connected with the connecting underframe 1; the second transmission mechanism 4 is connected with the connecting underframe 1; the separation poking system 5 is connected with the top mounting plate 2; the fragmentation detection system 6 is connected with the separation toggle system 5, and the fragmentation detection system 6 is connected with the top mounting plate 2; the crack detection system 7 is connected with the top mounting plate 2, and the crack detection system 7 is connected with the fragmentation detection system 6; the jacking auxiliary system 8 is connected with the second conveying mechanism 4; the first camera 9 is connected to the top mounting plate 2.

When the crack detection separation type calcium carbonate plate processing device is used, the device is stably fixed to a working plane, then a power supply is connected to the device externally, a controller is connected to the device externally, then continuous calcium carbonate plates are conveyed to the right by a first conveying mechanism 3, when the calcium carbonate plates pass through a gap between the first conveying mechanism 3 and a second conveying mechanism 4, a separation poking system 5 is controlled to cut the continuous calcium carbonate plates, the continuous calcium carbonate plates are conveyed to the right by the second conveying mechanism 4 after cutting, then the separation poking system 5 pokes a continuous adjacent calcium carbonate plate after cutting to the right, so that the calcium carbonate plate is separated from a previous calcium carbonate plate by a distance for subsequent detection, then the second conveying mechanism 4 drives the calcium carbonate plates to convey to the right, namely the calcium carbonate plates move to the lower part of a crack detection system 6, and the crack detection system 6 carries out crack detection on the calcium carbonate plates, the condition of the board is observed through the first camera 9, the cracked and broken board is detected and manually sorted out, finally, the second conveying mechanism 4 drives the calcium carbonate board to be conveyed to the positions of the crack detection system 7 and the upper auxiliary system 8, the crack detection system 7 and the upper auxiliary system 8 are matched to detect the calcium carbonate board, whether the crack exists is detected, the crack is detected and is unqualified, the cracked calcium carbonate board is picked out, the long-distance calcium carbonate board is cut, the adjacent calcium carbonate board with the short distance after the cutting is finished is shifted to enlarge the distance, the cracked calcium carbonate after the cutting is detected and separated, the crack detection is carried out on the non-cracked calcium carbonate board, and the effect of detecting whether the crack which is invisible to naked eyes exists is automatically detected.

The separated toggle system 5 comprises a first electric lifting column 501, a first mounting frame 502, a first power motor 503, a first rotating shaft rod 504, a first cutting saw blade 505, a first fixed frame column 506, a second fixed frame column 507, a limit control frame plate 508, a first collecting frame 509, a fixed middle frame column 5010, a first driving wheel 5011, a first elastic telescopic rod 5012, a first connecting shaft seat 5013, a rotating shaft column 5014, a first connecting rod 5015, a first sliding sleeve 5016, a toggle clamp 5017, a first limit sliding rod 5018, a second driving wheel 5019, a first bearing rear frame plate 5020, a first bevel gear 5021, a second bevel gear 5022 and a third driving wheel 5023; the first electric lifting column 501 is connected with the top mounting plate 2; the upper part of the first mounting frame 502 is connected with a first electric lifting column 501 through bolts; the first power motor 503 is connected with the first mounting frame 502 through bolts; the first rotating shaft rod 504 is fixedly connected with an output shaft of the first power motor 503, and the first rotating shaft rod 504 is rotatably connected with the first mounting frame 502; the axis of the first cutting blade 505 is fixedly connected with the first rotating shaft rod 504; the upper part of the first fixed frame column 506 is welded with the top mounting plate 2; the upper part of the second fixed frame column 507 is welded with the top mounting plate 2; one side of the limit control frame plate 508 is welded with the first fixed frame column 506, and the other side of the limit control frame plate 508 is welded with the second fixed frame column 507; the first collecting frame 509 is connected with the limit control frame plate 508 through bolts; the fixed middle frame post 5010 is connected to the first gathering frame 509; the first driving wheel 5011 is rotatably connected with the fixed middle frame column 5010; the first elastic telescopic rod 5012 is fixedly connected with the first driving wheel 5011; the first connecting shaft base 5013 is connected with the first elastic telescopic rod 5012; the rotating shaft post 5014 is in rotating connection with the first connecting shaft base 5013; the first connecting rod 5015 is rotatably connected with the rotating shaft post 5014; the inner side of the first sliding sleeve 5016 is in sliding connection with the first connecting rod 5015; the upper part of the toggle clamp 5017 is welded with a first connecting rod 5015; the first limit slide bar 5018 is fixedly connected with the first collecting frame 509, and the outer surface of the first limit slide bar 5018 is in sliding connection with the first sliding sleeve 5016; the outer ring surface of the second transmission wheel 5019 is in transmission connection with the first transmission wheel 5011 through a belt; the first bearing rear frame plate 5020 is rotatably connected with the second transmission wheel 5019, and the lower part of the first bearing rear frame plate 5020 is welded with the top mounting plate 2; the axle center of the first bevel gear 5021 is fixedly connected with the second transmission wheel 5019; the second bevel gear 5022 is engaged with the first bevel gear 5021; the axis of the third driving wheel 5023 is fixedly connected with the second bevel gear 5022, the axis of the third driving wheel 5023 is rotatably connected with the top mounting plate 2, and the third driving wheel 5023 is connected with the fragmentation detection system 6.

Firstly, the first conveying mechanism 3 and the second conveying mechanism 4 convey the calcium carbonate plate to the right side to the separation toggle system 5, then the first conveying mechanism 3 and the second conveying mechanism 4 are controlled to stop running, at this time, the power of the first power motor 503 is controlled to be switched on, then the first power motor 503 drives the first rotating shaft rod 504 to rotate, then the first rotating shaft rod 504 drives the first cutting saw blade 505 to rotate, then the first cutting saw blade 505 rotates, then the first electric lifting column 501 is controlled to be pushed out downwards, further the first electric lifting column 501 drives the first mounting frame 502, the first power motor 503, the first rotating shaft rod 504 and the first cutting saw blade 505 to move downwards, further the first cutting saw blade 505 moves downwards in the rotating process, the first cutting saw blade 505 contacts the calcium carbonate plate to cut the calcium carbonate plate, after cutting, then the cut and separated calcium carbonate plate is continuously driven by the second conveying mechanism 4 to move to the position below the limit control frame 508, meanwhile, the sixth driving wheel 606 drives the third driving wheel 5023 to rotate through a belt, then the third driving wheel 5023 drives the second bevel gear 5022 to rotate, then the second bevel gear 5022 drives the first bevel gear 5021 to rotate, then the first bevel gear 5021 drives the second driving wheel 5019 to rotate, then the second driving wheel 5019 drives the first driving wheel 5011 to rotate through a belt, then the first driving wheel 5011 drives the first elastic telescopic rod 5012 to rotate, namely the first elastic telescopic rod 5012 rotates to drive the first connecting rod 5015 to move through the first connecting shaft seat 5013 and the rotating shaft post 5014, namely the first connecting rod 5015 drives the first sliding sleeve 5016 to slide rightwards on the surface of the first limit sliding rod 5018, because the first sliding sleeve 5016 limits the first connecting rod 5015, and the first connecting rod 5015 drives the first sliding sleeve 5016 to move, the first elastic telescopic rod 5012 always keeps a vertical state when rotating to the next half cycle, the first elastic telescopic rod 5012 drives the first connecting rod 5015 to slide downwards in the first sliding sleeve 5016 through the first connecting shaft seat 5013 and the rotating shaft post 5014, namely the first connecting rod 5015 drives the toggle clamp 5017 to move downwards, the toggle clamp 5017 contracts inwards after being limited by the limiting control frame plate 508 to clamp the front end and the rear end of the calcium carbonate plate respectively, meanwhile, the first connecting rod 5015 continues to move rightwards after being limited by the first sliding sleeve 5016, namely, the first connecting rod 5015 toggles the calcium carbonate plate to the right side through the toggle clamp 5017, the calcium carbonate plate on the right side and the calcium carbonate plate on the left side of the calcium carbonate plate on the right side are separated by a gap, and the toggling and the distance expansion of the calcium carbonate plate are completed.

The fragmentation detection system 6 comprises a second power motor 601, a motor seat plate 602, a second rotating shaft rod 603, a fourth driving wheel 604, a fifth driving wheel 605, a sixth driving wheel 606, a seventh driving wheel 607, a third rotating shaft rod 608, a first pinion 609, a second electric lifting column 6010, a third electric lifting column 6011, a first aggregation plate 6012, a first connecting sliding column 6013, a first bending pressure rod 6014, a second connecting sliding column 6015, a second bending pressure rod 6016, a first transmission frame 6017, a cam 6018, a second transmission frame 6019, a first connecting sleeve 6020, a third bending pressure rod 6011, a fourth rotating shaft rod 6022, a first bearing 6023 and a second pinion 6024; the motor base plate 602 is connected with the second power motor 601 through bolts, and the lower part of the motor base plate 602 is connected with the top mounting plate 2 through bolts; the second rotating shaft rod 603 is fixedly connected with an output shaft of the second power motor 601; the axle center of the fourth transmission wheel 604 is fixedly connected with the second rotating shaft rod 603; the axis of the fifth driving wheel 605 is fixedly connected with the second rotating shaft rod 603, and the fifth driving wheel 605 is connected with the crack detection system 7; the axis of the sixth driving wheel 606 is fixedly connected with the second rotating shaft rod 603, and the outer annular surface of the sixth driving wheel 606 is in transmission connection with a third driving wheel 5023 through a belt; the outer annular surface of the seventh transmission wheel 607 is in transmission connection with the fourth transmission wheel 604 through a belt; the third rotating shaft rod 608 is fixedly connected with the seventh transmission wheel 607, and the outer surface of the third rotating shaft rod 608 is rotatably connected with the top mounting plate 2; the axle center of the first pinion 609 is fixedly connected with the third rotating shaft 608; the upper part of the second electric lifting column 6010 is in bolted connection with the top mounting plate 2; the upper part of the third electric lifting column 6011 is in bolted connection with the top mounting plate 2; one side of the first collecting plate 6012 is connected to a second motorized lift column 6010, and the other side of the first collecting plate 6012 is connected to a third motorized lift column 6011; a first connecting strut 6013 is slidably connected to the first collecting plate 6012; welding the upper part of the first bending pressure rod 6014 with the first connecting slide column 6013; a first collecting plate 6012 is slidably connected to the upper side of the second connecting slide column 6015; the upper part of the second bending pressure rod 6016 is welded with a second connecting slide column 6015; one side of the first transmission frame 6017 is welded with a first bending compression bar 6014, and the other side of the first transmission frame 6017 is welded with a second bending compression bar 6016; the cam 6018 is in transmission connection with a first transmission frame 6017; the inner side of the second transmission frame 6019 is in transmission connection with a cam 6018; the first connecting sleeve block 6020 is welded with the second transmission frame 6019; the third bending press rod 6021 is fixedly connected with the first connecting sleeve block 6020; the fourth rotating shaft rod 6022 is fixedly connected with the cam 6018; the first bearing frame 6023 is rotatably connected with the fourth rotating shaft rod 6022, and the lower part of the first bearing frame 6023 is welded with the first collecting plate 6012; the axle center of the second flat gear 6024 is fixedly connected with the fourth rotating shaft rod 6022.

Firstly, controlling to switch on a power supply of a second power motor 601, then the second power motor 601 drives a second rotating shaft rod 603 to rotate, further the second rotating shaft rod 603 drives a fourth driving wheel 604, a fifth driving wheel 605 and a sixth driving wheel 606 to synchronously rotate, the fifth driving wheel 605 drives a crack detection system 7 to operate, simultaneously the sixth driving wheel 606 drives a separation toggle system 5 to operate, the fourth driving wheel 604 drives a seventh driving wheel 607 to rotate, further the seventh driving wheel 607 drives a third rotating shaft rod 608 to rotate, further the third rotating shaft rod 608 drives a first flat gear 609 to rotate, then controlling a second electric lifting column 6010 and a third electric lifting column 6011 to push downwards, namely the second electric lifting column 6010 and the third electric lifting column 6011 drive a first collecting plate 6012 to move downwards, namely all components connected below the first collecting plate 6012 and the first collecting plate 6012 move downwards synchronously, at this time, the calcium carbonate plate is located under the first assembly plate 6012, at this time, the first bending pressure rod 6014 and the second bending pressure rod 6016 respectively abut against the left side and the right side of the calcium carbonate plate, the first connection sleeve block 6020 and the third bending pressure rod 6021 are both provided with two, that is, the two third bending pressure rods 6021 respectively abut against the front side and the rear side of the calcium carbonate plate, meanwhile, the second flat gear 6024 moves to a position where it is meshed with the first flat gear 609, and then the first flat gear 609 drives the second flat gear 6024 to rotate, then the second flat gear 6024 drives the cam 6018 to rotate through the fourth rotating shaft 6022, then the cam 6018 rotates to drive the first transmission frame 6017 and the second transmission frame 6019 to reciprocate, that is, the cam 6018 rotates to drive the first transmission frame 7 to reciprocate left and right, the first transmission frame 6017 drives the first bending pressure rod 6014 and the second bending pressure rod 6016 to reciprocate back and forth, that is, that the first bending pressure rod 6014 and the second bending pressure rod 6015 are connected to the front connecting slide column 6015 respectively through the first connecting slide The second transmission frame 6019 is driven by the cam 6018 to reciprocate left and right, that is, the second transmission frame 6019 drives the third bending press rod 6021 to reciprocate left and right through the first connection sleeve 6020, that is, the first connection slide column 6013 and the second connection slide column 6015 reciprocate front and back under the first assembly plate 6012, and the third bending press rod 6021 reciprocates left and right under the first assembly plate 6012, so that the first bending press rod 6014 and the second bending press rod 6016 respectively support the left and right sides of the calcium carbonate plate to reciprocate front and back, and the two third bending press rods 6021 respectively support the front and back sides of the calcium carbonate plate to reciprocate left and right, so that the calcium carbonate plate is slightly shifted in two directions, if the calcium carbonate plate is broken, the calcium carbonate plate will be scattered in the shifting process, and then the condition of the plate is observed by the first camera 6029, the broken plates are detected and manually sorted.

The crack detection system 7 comprises a fifth rotating shaft rod 701, an eighth transmission wheel 702, a third spur gear 703, a fourth spur gear 704, a ninth transmission wheel 705, a first lead screw 706, a second bearing bracket 707, a tenth transmission wheel 708, a second lead screw 709, a lifting assembly plate 7010, a fourth electric lifting column 7011, a fifth electric lifting column 7012, an internal thread sliding plate 7013, a second camera 7014, a first downward pressing ball bar 7015, a second downward pressing ball bar 7016, a third bearing bracket 7017, a second limit slide bar 7018, a fourth bearing bracket 7019 and a third limit slide bar 7020; the outer surface of the fifth rotating shaft rod 701 is rotatably connected with the top mounting plate 2; the axle center of the eighth driving wheel 702 is fixedly connected with the fifth rotating shaft rod 701, and the outer annular surface of the eighth driving wheel 702 is in transmission connection with the fifth driving wheel 605 through a belt; the axis of the third spur gear 703 is fixedly connected with the fifth rotating shaft lever 701; the fourth spur gear 704 meshes with the third spur gear 703; the axis of the ninth driving wheel 705 is fixedly connected with a fourth flat gear 704; the first screw rod 706 is fixedly connected with the ninth driving wheel 705; the second bearing bracket 707 is rotationally connected with the first screw rod 706; the outer annular surface of the tenth driving wheel 708 is in transmission connection with the ninth driving wheel 705 through a belt; the second lead screw 709 is fixedly connected with the tenth transmission wheel 708, and the second lead screw 709 is rotatably connected with the second bearing frame 707; the upper part of the lifting assembly plate 7010 is welded with a second bearing frame 707; the upper part of the fourth electric lifting column 7011 is connected with the top mounting plate 2, and the lower part of the fourth electric lifting column 7011 is connected with a lifting assembly plate 7010 through bolts; the upper part of the fifth electric lifting column 7012 is connected with the top mounting plate 2, and the lower part of the fifth electric lifting column 7012 is connected with the lifting assembly plate 7010 through bolts; the inner side of the internal thread sliding plate 7013 is in transmission connection with a first screw rod 706 and a second screw rod 709 in sequence; the upper part of the second camera 7014 is connected with the internal thread sliding plate 7013; the upper part of the first lower pressing ball rod 7015 is welded with the internal thread sliding plate 7013; the upper part of the second push-down ball rod 7016 is welded with the internal thread sliding plate 7013; the upper part of the third bearing frame 7017 is welded with the lifting assembly plate 7010, and the third bearing frame 7017 is rotationally connected with the first screw rod 706; the upper part of the second limit slide bar 7018 is welded with the lifting assembly plate 7010, and the lower part of the second limit slide bar 7018 is welded with the third bearing frame 7017; the upper part of the fourth bearing frame 7019 is welded with the lifting assembly plate 7010, and the fourth bearing frame 7019 is rotationally connected with a second screw rod 709; the upper part of the third limit slide bar 7020 is welded with the lifting assembly plate 7010, and the lower part of the third limit slide bar 7020 is welded with the fourth bearing frame 7019.

Firstly, the second conveying mechanism 4 drives the calcium carbonate plate to be conveyed to the lower part of the crack detection system 7 rightwards, then the second conveying mechanism 4 is controlled to stop conveying, meanwhile, the fifth driving wheel 605 drives the eighth driving wheel 702 to rotate, then the eighth driving wheel 702 drives the fifth rotating shaft 701 to rotate, further, the fifth rotating shaft 701 drives the third pinion 703 to rotate, then, the third pinion 703 drives the fourth pinion 704 to rotate, further, the fourth pinion 704 drives the ninth driving wheel 705 to rotate, the ninth driving wheel 705 drives the first lead screw 706 to rotate, simultaneously, the ninth driving wheel 705 drives the tenth driving wheel 708 to rotate, then, the tenth driving wheel 708 drives the second lead screw 709 to rotate, simultaneously, the first lead screw 706 and the second lead screw 709 synchronously rotate to drive the internal thread sliding plate 7013 to move downwards, then, the sliding plate 7013 drives the second camera 7014, the third camera 701 and the third camera to rotate, The first downward pressing ball bar 7015 and the second downward pressing ball bar 7016 move downward, namely the first downward pressing ball bar 7015 and the second downward pressing ball bar 7016 slightly press the top surface of the calcium carbonate plate from the lower part, and simultaneously the upward jacking auxiliary system 8 is controlled to jack up the calcium carbonate plate from the lower part, under the combined action of the upper pressure and the lower thrust, if a crack exists in the calcium carbonate plate, the calcium carbonate plate can be immediately cracked, if no crack exists, the stress standard does not cause the crack to occur, and the detection of the calcium carbonate plate is completed.

The upper ejection auxiliary system 8 comprises a limited-displacement movable sliding track plate 801, a fixed vertical plate 802, a fixed connecting sleeve 803, a first electric push rod 804, a connecting frame plate 805, an upper ejection roller 806 and an electric lifting seat 807; the limiting movable sliding channel plate 801 is connected with the second conveying mechanism 4 through bolts; the lower part of the fixed vertical plate 802 is welded with the limiting movable slideway plate 801; the fixed connecting sleeve 803 is rotatably connected with the fixed vertical plate 802; the first electric push rod 804 is sleeved with the fixed connecting sleeve 803; the connecting shaft frame plate 805 is connected with the first electric push rod 804; the upper top roller 806 is rotatably connected with the connecting shaft frame plate 805; the upper part of the electric lifting seat 807 is connected with the connecting shaft frame plate 805, and the lower part of the electric lifting seat 807 is connected with the limiting moving slideway plate 801 in a sliding manner.

Namely, the second transmission mechanism 4 drives the calcium carbonate plate to move to the upper part of the upper auxiliary system 8 and then stops, the crack detection system 7 presses downwards, the electric lifting seat 807 is controlled to push upwards, the electric lifting seat 807 drives the connecting shaft frame plate 805 and the upper top roller 806 to move upwards, the upper top roller 806 presses upwards to jack up the soft conveyor belt of the second transmission mechanism 4, the calcium carbonate plate is slightly lifted upwards, the crack detection system 7 presses downwards on the top surface of the calcium carbonate plate, the first electric push rod 804 is controlled to contract, namely, the first electric push rod 804 drives the connecting shaft frame plate 805, the upper top roller 806 and the electric lifting seat 807 to move leftwards, namely, the electric lifting seat 807 slides leftwards on the inner side of the limiting movement slideway plate 801, namely, the upper top roller 806 rolls in the leftward movement process to slowly cover the whole calcium carbonate plate from right to left, the crack detection system 7 presses the calcium carbonate plate down and does not move, and then the crack detection of the whole calcium carbonate plate is completed.

The toggle clamp 5017 is provided with a hard silica gel block at the inner sides of the two clamping strips.

So as to improve the friction force between the two holding strips of the shifting clamp 5017 and the calcium carbonate plate and prevent the calcium carbonate plate from slipping when being shifted.

The lower side of the limit control frame plate 508 is an inward tightened slope.

So that toggle clamp 5017 in the downward motion in-process its two holding strip laminating spacing control deckle board 508 inboard inclined plane receives spacing of spacing control deckle board 508 in the downward motion in-process, and two holding strip deformation bending intervals diminish gradually, and then can firmly centre gripping fixedly with the calcium carbonate side.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims

1. A crack detection disconnect-type calcium carbonate board processing apparatus includes:

a connecting chassis (1);

the top mounting plate (2), the top mounting plate (2) is welded with the connecting underframe (1);

the first conveying mechanism (3), the first conveying mechanism (3) is connected with the connecting underframe (1);

it is characterized by also comprising:

the second conveying mechanism (4), the second conveying mechanism (4) is connected with the connecting underframe (1);

the separated poking system (5), the separated poking system (5) is connected with the top mounting plate (2);

the fragmentation detection system (6), the fragmentation detection system (6) is connected with the separation toggle system (5), and the fragmentation detection system (6) is connected with the top mounting plate (2);

the crack detection system (7), the crack detection system (7) is connected with the top mounting plate (2), and the crack detection system (7) is connected with the fragmentation detection system (6);

the jacking auxiliary system (8), the jacking auxiliary system (8) is connected with the second conveying mechanism (4);

the first camera (9), first camera (9) are connected with top mounting panel (2).

2. A split calcium carbonate board processing apparatus for crack detection as claimed in claim 1, wherein the separate toggle system (5) comprises:

the first electric lifting column (501), the first electric lifting column (501) is connected with the top mounting plate (2);

the upper part of the first mounting frame (502) is connected with a first electric lifting column (501) through a bolt;

the first power motor (503), the first power motor (503) and the first mounting frame (502) are in bolted connection;

the first rotating shaft rod (504), the first rotating shaft rod (504) is fixedly connected with an output shaft of a first power motor (503), and the first rotating shaft rod (504) is rotatably connected with the first mounting frame (502);

the axis of the first cutting saw blade (505) is fixedly connected with the first rotating shaft rod (504);

the upper part of the first fixing frame column (506) is welded with the top mounting plate (2);

the upper part of the second fixed frame column (507) is welded with the top mounting plate (2);

one side of the limit control frame plate (508) is welded with the first fixed frame column (506), and the other side of the limit control frame plate (508) is welded with the second fixed frame column (507);

the first collecting frame (509), the first collecting frame (509) is connected with the limit control frame plate (508) through bolts;

the fixed middle frame column (5010), the fixed middle frame column (5010) is connected with the first collecting frame (509);

the first transmission wheel (5011), the first transmission wheel (5011) is rotatably connected with the fixed middle frame column (5010);

the first elastic telescopic rod (5012), the first elastic telescopic rod (5012) is fixedly connected with the first driving wheel (5011);

the first connecting shaft seat (5013), the first connecting shaft seat (5013) is connected with the first elastic telescopic rod (5012);

the rotating shaft column (5014), the rotating shaft column (5014) is in rotating connection with the first connecting shaft seat (5013);

the first connecting rod (5015), the first connecting rod (5015) is rotatably connected with the rotating shaft column (5014);

the inner side of the first sliding sleeve (5016) is in sliding connection with the first connecting rod (5015);

the toggle clamp (5017), the upper part of the toggle clamp (5017) is welded with the first connecting rod (5015);

the first limiting slide bar (5018), the first limiting slide bar (5018) is fixedly connected with the first collecting frame (509), and the outer surface of the first limiting slide bar (5018) is in sliding connection with the first sliding sleeve (5016);

the outer ring surface of the second transmission wheel (5019) is in transmission connection with the first transmission wheel (5011) through a belt;

the first bearing rear frame plate (5020), the first bearing rear frame plate (5020) is in rotary connection with the second transmission wheel (5019), and the lower portion of the first bearing rear frame plate (5020) is welded with the top mounting plate (2);

the axis of the first bevel gear (5021) is fixedly connected with the second transmission wheel (5019);

the second bevel gear (5022), the second bevel gear (5022) and the first bevel gear (5021) are meshed;

and the axis of the third driving wheel (5023) is fixedly connected with the second bevel gear (5022), the axis of the third driving wheel (5023) is rotatably connected with the top mounting plate (2), and the third driving wheel (5023) is connected with the fragmentation detection system (6).

3. Crack detection split calcium carbonate board processing device according to claim 2, characterized in that the disintegration detection system (6) comprises:

a second power motor (601);

the motor base plate (602), the motor base plate (602) is in bolted connection with the second power motor (601), and the lower part of the motor base plate (602) is in bolted connection with the top mounting plate (2);

the second rotating shaft rod (603), the second rotating shaft rod (603) is fixedly connected with an output shaft of the second power motor (601);

the axle center of the fourth transmission wheel (604) is fixedly connected with the second rotating shaft rod (603);

the axis of the fifth driving wheel (605) is fixedly connected with the second rotating shaft rod (603), and the fifth driving wheel (605) is connected with the crack detection system (7);

the axis of the sixth driving wheel (606) is fixedly connected with the second rotating shaft rod (603), and the outer annular surface of the sixth driving wheel (606) is in transmission connection with the third driving wheel (5023) through a belt;

the outer ring surface of the seventh transmission wheel (607) is in transmission connection with the fourth transmission wheel (604) through a belt;

the third rotating shaft rod (608), the third rotating shaft rod (608) is fixedly connected with the seventh transmission wheel (607), and the outer surface of the third rotating shaft rod (608) is rotatably connected with the top mounting plate (2);

the axle center of the first flat gear (609) is fixedly connected with the third rotating shaft rod (608);

a second electric lifting column (6010), wherein the upper part of the second electric lifting column (6010) is connected with the top mounting plate (2) through bolts;

a third electric lifting column (6011), wherein the upper part of the third electric lifting column (6011) is in bolted connection with the top mounting plate (2);

one side of the first collection plate (6012) is connected with a second electric lifting column (6010), and the other side of the first collection plate (6012) is connected with a third electric lifting column (6011);

a first connecting slide column (6013), wherein the first connecting slide column (6013) is connected with the first collecting plate (6012) in a sliding mode;

a first bending pressure rod (6014), wherein the upper part of the first bending pressure rod (6014) is welded with a first connecting sliding column (6013);

a second connecting sliding column (6015), wherein the upper part of the second connecting sliding column (6015) is in sliding connection with the first collecting plate (6012);

a second bending pressure rod (6016), wherein the upper part of the second bending pressure rod (6016) is welded with a second connecting sliding column (6015);

one side of the first transmission frame (6017) is welded with the first bending pressure rod (6014), and the other side of the first transmission frame (6017) is welded with the second bending pressure rod (6016);

the cam (6018), the cam (6018) is in transmission connection with the first transmission frame (6017);

the inner side of the second transmission frame (6019) is in transmission connection with the cam (6018);

the first connecting sleeve block (6020), and the first connecting sleeve block (6020) is welded with the second transmission frame (6019);

the third bending pressure rod (6021), the third bending pressure rod (6021) is fixedly connected with the first connecting sleeve block (6020);

the fourth rotating shaft rod (6022), the fourth rotating shaft rod (6022) is fixedly connected with the cam (6018);

a first bearing frame (6023), wherein the first bearing frame (6023) is rotatably connected with the fourth rotating shaft rod (6022), and the lower part of the first bearing frame (6023) is welded with the first collecting plate (6012);

the second flat gear (6024), the axle center of the second flat gear (6024) is fixedly connected with the fourth rotating shaft rod (6022).

4. Crack detection split calcium carbonate board processing device according to claim 3 characterized in that the crack detection system (7) comprises:

the outer surface of the fifth rotating shaft rod (701) is in rotating connection with the top mounting plate (2);

the axis of the eighth driving wheel (702) is fixedly connected with the fifth rotating shaft rod (701), and the outer annular surface of the eighth driving wheel (702) is in transmission connection with the fifth driving wheel (605) through a belt;

a third gear (703), wherein the axis of the third gear (703) is fixedly connected with the fifth rotating shaft rod (701);

a fourth flat gear (704), the fourth flat gear (704) meshing with the third flat gear (703);

a ninth driving wheel (705), wherein the axis of the ninth driving wheel (705) is fixedly connected with a fourth flat gear (704);

the first screw rod (706), the first screw rod (706) is fixedly connected with the ninth driving wheel (705);

the second bearing frame (707), the second bearing frame (707) is connected with the first screw rod (706) in a rotating way;

the outer ring surface of the tenth driving wheel (708) is in transmission connection with the ninth driving wheel (705) through a belt;

the second screw rod (709), the second screw rod (709) is fixedly connected with the tenth transmission wheel (708), and the second screw rod (709) is rotatably connected with the second bearing frame (707);

the lifting assembly plate (7010) is welded with the second bearing frame (707) above the lifting assembly plate (7010);

the upper part of the fourth electric lifting column (7011) is connected with the top mounting plate (2), and the lower part of the fourth electric lifting column (7011) is connected with a lifting assembly plate (7010) through bolts;

the upper part of the fifth electric lifting column (7012) is connected with the top mounting plate (2), and the lower part of the fifth electric lifting column (7012) is connected with a lifting assembly plate (7010) through bolts;

the inner side of the internal thread sliding plate (7013) is in transmission connection with the first screw rod (706) and the second screw rod (709) in sequence;

the upper part of the second camera (7014) is connected with the internal thread sliding plate (7013);

the upper part of the first push-down ball rod (7015) is welded with the internal thread sliding plate (7013);

a second push rod (7016), wherein the upper part of the second push rod (7016) is welded with the internal thread sliding plate (7013);

the upper part of the third bearing frame (7017) is welded with the lifting assembly plate (7010), and the third bearing frame (7017) is rotatably connected with the first screw rod (706);

the upper part of the second limit slide bar (7018) is welded with the lifting assembly plate (7010), and the lower part of the second limit slide bar (7018) is welded with the third bearing frame (7017);

a fourth bearing frame (7019), wherein the lifting assembly plate (7010) is welded above the fourth bearing frame (7019), and the fourth bearing frame (7019) is rotatably connected with a second screw rod (709);

a third limit slide bar (7020), a lifting assembly plate (7010) is welded above the third limit slide bar (7020), and a fourth bearing frame (7019) is welded below the third limit slide bar (7020).

5. Crack detection split calcium carbonate board processing device according to claim 4, characterized in that the top auxiliary system (8) comprises:

the limiting moving slide way plate (801), and the limiting moving slide way plate (801) is in bolted connection with the second transmission mechanism (4);

a fixed vertical plate (802), wherein the lower part of the fixed vertical plate (802) is welded with the limiting movable slideway plate (801);

the fixed connecting sleeve (803), the fixed connecting sleeve (803) is connected with the fixed vertical plate (802) in a rotating way;

the first electric push rod (804), the first electric push rod (804) is sleeved with the fixed connecting sleeve (803);

the connecting shaft frame plate (805), the connecting shaft frame plate (805) is connected with the first electric push rod (804);

the upper top roller (806), the upper top roller (806) is connected with the connecting shaft frame plate (805) in a rotating way;

the upper part of the electric lifting seat (807) is connected with the connecting shaft frame plate (805), and the lower part of the electric lifting seat (807) is in sliding connection with the limiting moving slideway plate (801).

6. The split type calcium carbonate plate processing device for crack detection as claimed in claim 5, wherein the toggle clamp (5017) is provided with a hard silica gel block at the inner side of the two holding strips.

7. The split type calcium carbonate plate processing device for crack detection as claimed in claim 6, wherein the lower side of the limit control frame plate (508) is an inward-tightened slope.