CN111958382B - Pottery patching device - Google Patents

Abstract

The invention relates to the field of ceramics, in particular to a ceramic ware repairing device. The technical problem of the invention is that: a pottery repairing apparatus is provided. The technical implementation scheme of the invention is as follows: a pottery repairing device comprises a bottom frame, a control screen, a fixed-point trimming mechanism, an edge glaze trimming mechanism and the like; a shaping baking mechanism and a slideway; the chassis is connected with the control screen; the underframe is connected with a fixed point dressing mechanism; the bottom frame is connected with an edge glaze trimming mechanism; the underframe is connected with the shaping baking mechanism; the bottom frame is connected with the slide way. The invention realizes automatic feeding, detection, processing and splicing, combination and fixation and baking of the fragments, and multi-dimensionally prevents the problems of inconsistent glaze combination and unevenness of the repaired glaze; meanwhile, the method realizes low-cost repair, is convenient for equipment maintenance, and has a quick nail-free repair effect on common pottery and cultural relics.

Description

Pottery patching device

Technical Field

The invention relates to the field of ceramics, in particular to a ceramic ware repairing device.

Background

The types of modern ancient ceramic restoration are mainly: archaeological repair, museum exhibition repair and commercial repair. With the development of social economy, tourism culture among regions is more and more perfect, in commercial restoration, most regions carry forward local culture, and objects, ceramics and the like in some representative regions can be displayed after complete restoration, but the complete restoration technology is higher due to large demand; the existing repair equipment is not high in popularity and high in professional repair cost, and repair is given up in many places, so that the local culture cannot be displayed and developed completely; therefore, there is a need for a ceramic repair device that can repair ceramic articles quickly and has a low cost, and can satisfy the requirement of traceless repair.

Disclosure of Invention

In order to overcome the defect that tourism culture among regions is more and more perfect along with the development of social economy, in commercial restoration, most regions carry forward local culture, and objects, ceramics and the like in some representative regions can be displayed after being completely restored, but the complete restoration technology is higher due to large demand; the popularization of the existing repairing equipment is not high, the professional repairing cost is high, repairing can be abandoned in many places, and the defects that the local culture cannot be completely displayed and propagated are caused, and the technical problems of the invention are as follows: a pottery repairing apparatus is provided.

The technical implementation scheme of the invention is as follows: a ceramic ware repairing device comprises a bottom frame, a control screen, a fixed point trimming mechanism, an edge glaze trimming mechanism, a shaping baking mechanism and a slideway; the chassis is connected with the control screen; the underframe is connected with a fixed point dressing mechanism; the bottom frame is connected with an edge glaze trimming mechanism; the underframe is connected with the shaping baking mechanism; the underframe is connected with the slideway; the fixed point trimming mechanism is connected with the edge glaze trimming mechanism; the fixed point finishing mechanism is connected with the shaping baking mechanism; the edge glaze trimming mechanism is connected with the shaping and baking mechanism.

More preferably, the fixed-point trimming mechanism further comprises a first transmission wheel, a first support frame, a first gear, a first transmission rod, a second gear, a second support frame, a first double-rail slide rail, a first slide seat, a first fixed slide bar, a first lead screw, a third gear, a first clamping bar, a second clamping bar, a fourth gear, a first silica gel block, a second silica gel block, a first micro motor, a first bevel gear, a second lead screw, a third support frame, a second fixed slide bar, a third fixed slide bar, a first fixed frame, a first positioning roller, a first telescopic fixed frame, a second positioning roller, a fourth support frame, a second fixed frame, a third positioning roller, a second telescopic fixed frame, a fourth positioning roller, a first platen, a section scanner, a second double-rail slide rail, a first push rod, a second slide seat, a glue injection mechanism, a third slide seat, a cleaning mechanism, a fourth slide seat and a drilling mechanism; the outer surface of the first transmission rod is sequentially provided with a first transmission wheel, a first support frame, a first gear, a second gear and a second support frame; a first double-rail slide rail is arranged below the first transmission rod; the interior of the first double-rail slide rail is in sliding connection with the first slide seat; the first sliding seat is internally sequentially spliced with a first fixed sliding rod and a first screw rod; a third gear, a first clamping rod, a second clamping rod and a fourth gear are sequentially arranged on the outer surface of the first screw rod; the first clamping rod and the second clamping rod are respectively sleeved with the first fixed sliding rod; the first clamping rod is inserted into the first silica gel block; the first clamping rod is in bolted connection with the first micro motor through a rotating shaft; the output shaft of the first micro motor is inserted with the second silica gel block; a first bevel gear is arranged below the side of the first double-track sliding rail; the axis of the first bevel gear is inserted with the second screw rod through a rotating shaft; the outer surface of the second screw rod is connected with the third support frame in a screwing way; the outer surface of the second screw rod is in screwed connection with the fourth support frame; the third support frame and the fourth support frame are simultaneously inserted with the second fixed slide bar and the third fixed slide bar; the third supporting frame is sequentially connected with the first fixing frame and the first telescopic fixing frame; the first fixing frame is rotationally connected with the first positioning roller; the first telescopic fixing frame is rotationally connected with the second positioning roller; the fourth supporting frame is sequentially connected with the second fixing frame and the second telescopic fixing frame; the second fixing frame is rotationally connected with the third positioning roller; the second telescopic fixing frame is rotationally connected with the fourth positioning roller; a first platen is arranged below the fourth positioning roller; the upper part of the first bedplate is connected with the section scanner through a bolt; a second double-rail sliding rail is arranged below the first bedplate; the inner part of the second double-rail sliding rail is in sliding connection with the second sliding seat, the third sliding seat and the fourth sliding seat; the second sliding seat is connected with the glue injection mechanism; the third sliding seat is connected with the cleaning mechanism; the fourth sliding seat is connected with the drilling mechanism; a first push rod device is arranged below the fourth sliding seat; the first driving wheel is connected with the shaping baking mechanism; the first support frame is connected with the underframe; the second support frame and the first double-rail slide rail are both connected with the shaping baking mechanism; the first bedplate is connected with the underframe; the first bedplate is connected with the edge glaze trimming mechanism; the second double-rail sliding rail is connected with the underframe; the second screw rod, the second fixed slide bar and the third fixed slide bar are all connected with the bottom frame; the first push rod device is connected with the bottom frame; the first platen is connected with the slideway.

More preferably, the edge glaze trimming mechanism further comprises a second push rod device, a fifth sliding seat, a grinding roller, a second micro motor, a second bedplate, a stop block and a grating sensor; the second push rod device is connected with the fifth sliding seat through a bolt; the fifth sliding seat is rotatably connected with the polishing roller; the fifth sliding seat is connected with a second micro motor through a bolt; the output shaft of the second micro motor is inserted with the polishing roller; the fifth sliding seat is in sliding connection with the second bedplate; the fifth sliding seat is welded with the stop block; the fifth sliding seat is in screwed connection with the grating sensor; the second platen is connected with the shaping and baking mechanism; the second push rod device is connected with the underframe; the second platen is coupled to the chassis.

More preferably, the shaping and baking mechanism further comprises a stepping motor, a second transmission rod, a second bevel gear, a second transmission wheel, a third bevel gear, a third transmission rod, a fifth gear, a drying cabin, a fourth transmission wheel, a telescopic rod, a sliding sleeve rod frame, a fourth bevel gear, a first micro push rod, a cabin door, a heater, a first linear guide rail, a sixth gear, a first turntable, a second linear guide rail, a second micro push rod, a first air bag, a fixed sliding rail, a sliding sleeve seat, a first knob, a folding support arm, a second knob and a second air bag; the outer surface of the second transmission rod is sequentially provided with a stepping motor, a second bevel gear, a second transmission wheel and a third transmission wheel; the second bevel gear is meshed with the third bevel gear; the outer ring surface of the second driving wheel is in transmission connection with a fourth driving wheel through a belt; the inner axis of the third bevel gear is inserted with a third transmission rod; the outer surface of the third transmission rod is spliced with the fifth gear; the outer surface of the third transmission rod is rotatably connected with the drying cabin; the inner axis of the fourth driving wheel is inserted into the telescopic rod; the outer surface of the telescopic rod is sleeved with the sliding sleeve rod frame; the outer surface of the sliding sleeve rod frame is spliced with a fourth bevel gear; the outer surface of the sliding sleeve rod frame is connected with the first miniature push rod through a bolt; the inner side wall of the drying cabin is connected with the heater through bolts; two sides of the opening of the drying cabin are respectively provided with a cabin door; the lower part in the drying cabin is connected with a first linear guide rail; the inner part of the first linear guide rail is connected with a sixth gear through a rotating shaft arranged in a sliding block; the sixth gear is inserted with the first rotating disc through the rotating shaft; the upper part of the first rotating disc is spliced with the second rotating disc; the upper part in the drying cabin is connected with a second linear guide rail through a bolt; the second linear guide rail is in sliding connection with the second miniature push rod through a sliding block; three first air bags are arranged on the outer surface of the second miniature push rod at equal intervals; a fixed slide rail is arranged above the first rotary disc; the outer surface of the fixed slide rail is in sliding connection with the sliding sleeve seat; the sliding sleeve seat is connected with the first knob in a screwing way; the sliding sleeve seat is connected with the folding supporting arm; the folding support arm is connected with the second knob in a screwing way; the folding supporting arm is in sliding connection with the second air bag through a universal ball; the stepping motor is connected with the bottom frame; the second transmission rod is connected with the underframe; the outer ring surface of the third driving wheel is in transmission connection with the first driving wheel through a belt; the telescopic rod and the first miniature push rod are connected with the underframe; the drying cabin is connected with the underframe; the drying cabin is connected with the second bedplate; the drying cabin is connected with a third bevel gear and a third transmission rod.

More preferably, the cross section of the polishing roller is in a rectangular shape with a waisted shape, and the polishing roller is installed to be inclined by thirty-five degrees with the fifth sliding seat.

More preferably, a rectangular groove is formed in the middle of the first bedplate.

More preferably, the head of the needle tube of the glue injection mechanism is in a bevel opening shape, and an inverted bowl-shaped cover shell is inserted close to the head of the needle tube.

More preferably, decide the slide rail and be provided with three groups altogether, in first carousel top equidistance setting, every group simultaneously decides all to be provided with the sliding sleeve seat on the slide rail, and first knob, folding support arm, the structure that second knob and second gasbag are constituteed wholly totally, and is the setting of height form between the structure of three groups is whole.

More preferably, a cushion placing table is arranged in the drying cabin.

The invention has the beneficial effects that: the invention realizes automatic feeding, detection, processing and splicing, combination and fixation and baking of the fragments, and multi-dimensionally prevents the problems of inconsistent glaze combination and unevenness of the repaired glaze; meanwhile, the repair with low cost is realized, the equipment maintenance is convenient, and the quick nail-free repair effect is realized for common pottery and cultural relics;

the invention designs a fixed-point trimming mechanism, an edge glaze trimming mechanism and a shaping baking mechanism; when in use, the ceramic repairing device is firstly placed at a position to be used, then the power supply is switched on, and the required rubber inlet pipe, the drilling bit and the like are installed; starting a control screen control device on the underframe to operate, moving the irregular fragments to a fixed point trimming mechanism through a slideway, clamping the fragments by the fixed point trimming mechanism after detecting a fracture surface, then drilling holes on the fragments at fixed points, cleaning the holes and injecting glue; then the fixed-point trimming mechanism moves the edge glaze trimming mechanism to the edge glaze trimming mechanism for detecting and removing excessive edge glaze of fragments, then the fixed-point trimming mechanism moves the edge glaze trimming mechanism to the shaping baking mechanism, the edge glaze trimming mechanism and the bottle body are combined through manual matching, and then the edge glaze trimming mechanism is supported, fixed and dried through the shaping baking mechanism; and taking out the dried product midway to detect broken grains, repainting the glaze and baking again.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic perspective view of a fixed point dressing mechanism according to the present invention;

FIG. 4 is a schematic perspective view of a portion of the fixed point trimming mechanism of the present invention;

FIG. 5 is an enlarged view of region P of the present invention;

FIG. 6 is a schematic perspective view of a first embodiment of the edge glaze trimming mechanism of the present invention;

FIG. 7 is a perspective view of the edge glaze trimming mechanism of the present invention without the second platen;

FIG. 8 is a schematic perspective view of a first embodiment of the setting and baking mechanism of the present invention;

fig. 9 is a schematic perspective view of a second embodiment of the setting and baking mechanism of the present invention.

The parts are labeled as follows: 1: chassis, 2: control screen, 3: fixed-point trimming mechanism, 4: edge glaze trimming mechanism, 5: shaping and baking mechanism, 6: slideway, 301: first drive wheel, 302: first support frame, 303: first gear, 304: first drive lever, 305: second gear, 306: second support frame, 307: first dual rail slide, 308: first carriage, 309: first fixed slide bar, 3010: first lead screw, 3011: third gear, 3012: first clamping bar, 3013: second clamping bar, 3014: fourth gear, 3015: first silicone block, 3016: second silicone block, 3017: first micro motor, 3018: first bevel gear, 3019: second screw rod, 3020: third support, 3021: second stationary slide bar, 3022: third stationary slide bar, 3023: first mount, 3024: first positioning roller, 3025: first telescopic mount, 3026: second registration roller, 3027: fourth support, 3028: second mount, 3029: third registration roller, 3030: second telescopic fixing frame, 3031: fourth registration roller, 3032: first platen, 3033: cross-section scanner, 3034: second dual-rail slide rail, 3035: first pusher, 3036: second carriage, 3037: glue injection mechanism, 3038: third carriage, 3039: cleaning mechanism, 3040: fourth carriage, 3041: drilling mechanism, 401: second pusher, 402: fifth carriage, 403: grinding roller, 404: second micro motor, 405: second platen, 406: stop block, 407: grating sensor, 501: stepping motor, 502: second transmission lever, 503: second bevel gear, 504: second transmission wheel, 505: third transmission wheel, 506: third bevel gear, 507: third transmission rod, 508: fifth gear, 509: drying cabin, 5010: fourth drive wheel, 5011: telescopic link, 5012: sliding sleeve rod frame, 5013: fourth bevel gear, 5014: first micro pushrod, 5015: hatch door, 5016: heater, 5017: first linear guide, 5018: sixth gear, 5019: first carousel, 5020: second carousel, 5021: second linear guide, 5022: second micro pushrod, 5023: first balloon, 5024: fixed slide rail, 5025: sliding sleeve seat, 5026: first knob, 5027: folding support arm, 5028: second knob, 5029: a second air bag.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

A pottery repairing device is shown in figures 1-9 and comprises a bottom frame 1, a control screen 2, a fixed point trimming mechanism 3, an edge glaze trimming mechanism 4, a shaping baking mechanism 5 and a slideway 6; the underframe 1 is connected with the control screen 2; the underframe 1 is connected with a fixed point dressing mechanism 3; the underframe 1 is connected with an edge glaze trimming mechanism 4; the underframe 1 is connected with a shaping baking mechanism 5; the underframe 1 is connected with a slideway 6; the fixed point trimming mechanism 3 is connected with the edge glaze trimming mechanism 4; the fixed point trimming mechanism 3 is connected with the shaping baking mechanism 5; the edge glaze trimming mechanism 4 is connected with the shaping and baking mechanism 5.

When in use, the ceramic repairing device is firstly placed at a position to be used, then the power supply is switched on, and the required rubber inlet pipe, the drilling bit and the like are installed; then starting a control device of a control screen 2 on the underframe 1 to operate, firstly moving the irregular fragments to a fixed point trimming mechanism 3 through a slideway 6, detecting fracture surfaces, clamping the fragments by the fixed point trimming mechanism 3, and then performing fixed point drilling, hole cleaning and glue injection on the cracked edges of the fragments; then the fixed-point trimming mechanism 3 moves the fixed-point trimming mechanism to the edge glaze trimming mechanism 4 for detecting and removing excessive edge glaze fragments, then moves the fixed-point trimming mechanism to the shaping and baking mechanism 5, combines the fixed-point trimming mechanism with the bottle body through manual matching, and then supports, fixes and dries the fixed-point trimming mechanism and the edge glaze trimming mechanism through the shaping and baking mechanism 5; taking out the dried product midway to detect broken lines, painting the glaze again, and baking again; the invention realizes automatic feeding, detection, processing and splicing, combination and fixation and baking of the fragments, and multi-dimensionally prevents the problems of inconsistent glaze combination and unevenness of the repaired glaze; meanwhile, the method realizes low-cost repair, is convenient for equipment maintenance, and has a quick nail-free repair effect on common pottery and cultural relics.

The fixed-point dressing mechanism 3 further includes a first driving wheel 301, a first supporting frame 302, a first gear 303, a first driving rod 304, a second gear 305, a second supporting frame 306, a first dual-rail sliding rail 307, a first sliding seat 308, a first fixed sliding rod 309, a first lead screw 3010, a third gear 3011, a first clamp rod 3012, a second clamp rod 3013, a fourth gear 3014, a first silica gel block 3015, a second silica gel block 3016, a first micro motor 3017, a first bevel gear 3018, a second lead screw 3019, a third supporting frame 3020, a second fixed sliding rod 3021, a third fixed sliding rod 3022, a first fixed frame 3023, a first positioning roller 3024, a first telescopic fixed frame 3025, a second positioning roller 3026, a fourth supporting frame 3027, a second fixed frame 3028, a third positioning roller 3029, a second telescopic platen 3030, a fourth positioning roller fixed frame 3021, a first positioning roller 3022, a cross-section scanner 3033, a second dual-rail sliding rail 3034, a first dual-rail sliding rail 3035, a second fixed frame 3028, a third positioning roller 3029, a second telescopic platen 3030, a second positioning roller 3020, a second fixed frame 3021, a second fixed frame 3022, a second positioning roller 3024, a second positioning roller, a second, A second sliding seat 3036, a glue injection mechanism 3037, a third sliding seat 3038, a cleaning mechanism 3039, a fourth sliding seat 3040 and a drilling mechanism 3041; the outer surface of the first transmission rod 304 is sequentially provided with a first transmission wheel 301, a first support frame 302, a first gear 303, a second gear 305 and a second support frame 306; a first double-rail slide rail 307 is arranged below the first transmission rod 304; the inside of the first dual-rail slide rail 307 is connected with the first slide carriage 308 in a sliding manner; the first sliding seat 308 is inserted into the first fixed sliding rod 309 and the first screw rod 3010 in sequence; a third gear 3011, a first clamping rod 3012, a second clamping rod 3013 and a fourth gear 3014 are sequentially arranged on the outer surface of the first screw rod 3010; the first clamp bar 3012 and the second clamp bar 3013 are respectively sleeved with the first fixed slide bar 309; the first clamping rod 3012 is inserted into the first silica gel block 3015; the first clamping rod 3012 is connected to the first micro motor 3017 through a rotating shaft; an output shaft of the first micro motor 3017 is inserted into the second silica gel block 3016; a first bevel gear 3018 is arranged below the first double-track sliding rail 307; the axis of the first bevel gear 3018 is inserted into the second lead screw 3019 through a rotating shaft; the outer surface of the second lead screw 3019 is screwed with the third support 3020; the outer surface of the second lead screw 3019 is screwed with the fourth support 3027; the third support rack 3020 and the fourth support rack 3027 are simultaneously inserted into the second fixed slide bar 3021 and the third fixed slide bar 3022; the third supporting frame 3020 is connected to the first fixing frame 3023 and the first telescopic fixing frame 3025 in sequence; the first fixing frame 3023 is rotatably connected with the first positioning roller 3024; the first telescopic fixing rack 3025 is rotatably connected with the second positioning roller 3026; the fourth supporting frame 3027 is sequentially connected with the second fixing frame 3028 and the second telescopic fixing frame 3030; the second fixed frame 3028 is rotatably connected with the third positioning roller 3029; the second telescopic fixing frame 3030 is rotatably connected with the fourth positioning roller 3031; a first platen 3032 is arranged below the fourth positioning roller 3031; the upper part of the first bedplate 3032 is connected with a section scanner 3033 through a bolt; a second double-rail sliding rail 3034 is arranged below the first bedplate 3032; the inside of the second double-rail sliding rail 3034 is connected with a second sliding seat 3036, a third sliding seat 3038 and a fourth sliding seat 3040 in a sliding manner; the second sliding seat 3036 is connected with the glue injection mechanism 3037; the third sliding seat 3038 is connected with a cleaning mechanism 3039; the fourth slide carriage 3040 is connected to a drilling mechanism 3041; a first push rod 3035 is arranged below the fourth sliding seat 3040; the first driving wheel 301 is connected with the shaping baking mechanism 5; the first support frame 302 is connected with the underframe 1; the second supporting frame 306 and the first double-rail sliding rail 307 are both connected with the shaping baking mechanism 5; the first platen 3032 is connected with the chassis 1; the first bedplate 3032 is connected with the edge glaze trimming mechanism 4; the second double-rail sliding rail 3034 is connected with the underframe 1; the second lead screw 3019, the second fixed slide bar 3021 and the third fixed slide bar 3022 are all connected to the base frame 1; the first handspike 3035 is connected with the chassis 1; the first platen 3032 is connected to a chute 6.

Firstly, in the feeding process, because a rectangular groove is formed in each of two side baffles on one side of a slide way 6 in contact with a first platen 3032, a first slide seat 308 is controlled to slide in a first double-rail slide way 307 to drive a first fixed slide bar 309, a first lead screw 3010, a third gear 3011, a first clamping bar 3012, a second clamping bar 3013, a fourth gear 3014, a first silica gel block 3015, a second silica gel block 3016 and a first micro motor 3017 to move to the upper part of the rectangular groove on the two sides of the slide way 6, then when fragments slide to the opening of the rectangular groove through the slide way 6, as a third transmission wheel 505 transmits the first transmission wheel 301 to operate, the first transmission wheel 301 rotates to drive the first transmission rod 304 on a first support frame 302 and a second support frame 306 to simultaneously drive the second gear 305 and the first gear 303 to rotate, and then the first slide seat 308 continues to slide to drive the fourth gear 3014 to mesh with the first gear 303; then the first gear 303 drives the fourth gear 3014 to rotate to drive the first lead screw 3010 to drive the first clamping bar 3012 and the second clamping bar 3013 to move in the same direction, because the outer surface of the first lead screw 3010 is provided with a bidirectional thread, the first clamping bar 3012 and the second clamping bar 3013 move in the same direction, at this time, the third gear 3011 controls, then the first clamping bar 3012 and the second clamping bar 3013 drive the first silica gel block 3015 and the second silica gel block 3016 to clamp the fragments at the same time, when clamping, the fragments are detected by the section scanner 3033 when sliding to the rectangular slot, then when the first silica gel block 3015 and the second silica gel block 3016 clamp the fragments, the second silica gel block 3016 is rotated by the first micro motor 3017 to drive the second silica gel block 3016 to rotate, when the second silica gel block 3016 is rotated to clamp the fragments, the fragments are driven to rotate to the proper angle, and at the same time the second silica gel block 3016 rotates, the middle part of the opposite surface of the second silica gel block 3016 is provided with a cambered surface bulge, so that the automatic gravity downward rotation of the fragments can be realized in a micro-clamping state, and then the first sliding seat 308 slides to ensure that the fourth gear 3014 above the first sliding seat is not meshed with the first gear 303 any more; then the first sliding seat 308 slides to the middle of the first double-track sliding rail 307, and fragments of the first sliding seat can be moved to the middle of the first positioning roller 3024, the second positioning roller 3026, the third positioning roller 3029 and the fourth positioning roller 3031 by the lifting of the first clamping rod 3012 and the second clamping rod 3013, because the fragments of the first sliding seat are generally irregular rectangles, when the fragments are clamped by the first silica gel block 3015 and the second silica gel block 3016 and move to the middle of the roller body, the fracture surfaces of the fragments face to one side of the roller body respectively; then when the fragments of the fragments are adjusted to the position to be spliced and fixed in advance through the first silica gel block 3015 and the second silica gel block 3016, the fracture surface faces downwards, when the fourth bevel gear 5013 is meshed with the first bevel gear 3018, the second lead screw 3019 is driven to rotate through the first bevel gear 3018, the same outer surface of the first bevel gear 3018 is provided with bidirectional threads, when the third bevel gear 3018 rotates, under the coordination of the second fixed slide rod 3021 and the third fixed slide rod 3022, the third support 3020 and the fourth support 3027 are driven to move oppositely, the third support 3020 and the fourth support 3027 move oppositely, respectively, the first fixing frame 3023 is driven to drive the first positioning roller 3024, the first telescopic fixing frame 3025 drives the second positioning roller 3026, the second fixing frame 3028 drives the third positioning roller 3029, the second telescopic fixing frame 3030 drives the fourth positioning roller 3031 to clamp the fragments, and the roller bodies are made of rubber, so that the fragments are not damaged, at this time, the first clamping bar 3012 and the second clamping bar 3013 are contracted and reset, because the first silica gel block 3015 and the second silica gel block 3016 are slightly fixed, they can be directly separated from the fragments, then the fourth sliding base 3040 drives the drilling mechanism 3041 to slide in the second double-rail sliding rail 3034, the vertical position reaches the position where the fragments are to be drilled, the first pusher 3035 carries out telescopic matching to drill the top of the electric drill, after drilling, the fourth sliding base 3040 drives the drilling mechanism 3041 to reset and slide away, the third sliding base 3038 drives the cleaning mechanism 3039 to slide in the second double-rail sliding rail 3034, the vertical position reaches the position after the fragments are drilled, then the air washing of the hole slot is carried out, the low-strength air column can carry out quick dust cleaning on the hole slot and the periphery of the hole slot, then after dust cleaning, the third sliding base 3038 drives the cleaning mechanism 3039 to reset and slide away, then the second sliding base 3036 drives the glue injection mechanism 3037 to slide in the second double-rail sliding rail 3034, and the vertical position reaches the position after the fragments are drilled, then the first push rod 3035 is in telescopic fit to push the glue injector upwards for matching glue injection, meanwhile, the glue injection mechanism 3037 is in a bevel mouth shape at the needle tube head part, an inverted bowl-shaped cover is inserted close to the needle tube head part, rapid introduction of clay gel can be realized, the cover can have a shielding effect during dust cleaning, the clay gel forms a connecting rib in a micro-position, then the first clamp rod 3012 and the second clamp rod 3013 are repeatedly and telescopically reset to respectively drive the first silica gel block 3015 and the second silica gel block 3016 to clamp fragments, the fragment angle is adjusted in a matching manner to enable the fragments to be drilled in multiple positions, after dust cleaning and glue injection are carried out, the first clamp rod 3012 and the second clamp rod 3013 descend to respectively drive the first silica gel block 3015 and the second silica gel block 3016 to clamp the fragments, at the moment, the four roller bodies do not fix the fragments any more, then the first slide rail 308 continues to slide in the first double rail 307, the cut pieces are vertically stopped above the edge glaze trimming mechanism 4, redundant glaze edge treatment is carried out on the cut pieces through the edge glaze trimming mechanism 4, the first sliding seat 308 continues to slide in the first double-rail sliding rail 307 after treatment, the third gear 3011 of the first sliding seat is meshed with the second gear 305, the second gear 305 is driven to rotate reversely, the first clamping rod 3012 and the second clamping rod 3013 of the first sliding seat are opened, and the cut pieces slide and fall to a cushion placing table in the drying cabin 509; the automatic feeding, detection, positioning and drilling, dust removal and glue injection are realized on the fragments, and the processing of redundant glaze edges is matched.

The edge glaze trimming mechanism 4 further comprises a second push rod 401, a fifth slide seat 402, a grinding roller 403, a second micro motor 404, a second platen 405, a stop block 406 and a grating sensor 407; the second pusher 401 is bolted to the fifth carriage 402; the fifth slide carriage 402 is rotatably connected with a grinding roller 403; the fifth slide carriage 402 is bolted to a second micro-motor 404; an output shaft of the second micro motor 404 is inserted into the polishing roller 403; the fifth carriage 402 is slidably connected to the second platen 405; the fifth slide 402 is welded to the stop 406; the fifth sliding base 402 is screwed with the grating sensor 407; the second platen 405 is connected to the shaping and baking mechanism 5; the second pusher 401 is connected with the chassis 1; the second platen 405 is connected to the chassis 1.

When redundant glaze edges are processed, the positions of the redundant glaze edges of fragments are detected through the cooperation of the stop block 406 and the grating sensor 407, when a light beam is not penetrated, the glaze edges exist, at the moment, the fifth sliding seat 402 is driven by the second push rod 401 to slide on the second platen 405, and meanwhile, the polishing roller 403 and the second micro motor 404 are driven to move, the second micro motor 404 rotates to drive the polishing roller 403 to polish the redundant glaze edges, the cross section of the polishing roller 403 is in a rectangular shape with a waisted shape, the polishing roller 403 is inclined by thirty-five degrees with the fifth sliding seat 402 when being installed, and when being polished, the cambered surface with the waisted shape only polishes the redundant glaze edges of the fragments when rotating, and cannot contact with the positions of glue injection ribs, so that the detection and processing of the redundant glaze edges are realized; prevent the redundant glaze edge of the broken surface of the fragments from influencing the repair of the fragments and the bottle body.

The shaping baking mechanism 5 further comprises a stepping motor 501, a second transmission rod 502, a second bevel gear 503, a second transmission wheel 504, a third transmission wheel 505, a third bevel gear 506, a third transmission rod 507, a fifth gear 508, a drying cabin 509, a fourth transmission wheel 5010, a telescopic rod 5011, a sliding sleeve rod rack 5012, a fourth bevel gear 5013, a first micro push rod 5014, a cabin door 5015, a heater 5016, a first linear guide rail 5017, a sixth gear 5018, a first rotary disc 5019, a second rotary disc 5020, a second linear guide rail 5021, a second micro push rod 5022, a first air bag 5023, a fixed sliding rail 5024, a sliding sleeve seat 5025, a first knob 5026, a folding support arm 5027, a second knob 5028 and a second air bag 5029; the outer surface of the second transmission rod 502 is sequentially provided with a stepping motor 501, a second bevel gear 503, a second transmission wheel 504 and a third transmission wheel 505; the second bevel gear 503 is meshed with the third bevel gear 506; the outer annular surface of the second driving wheel 504 is in transmission connection with a fourth driving wheel 5010 through a belt; the inner axis of the third bevel gear 506 is inserted into the third transmission rod 507; the outer surface of the third transmission rod 507 is inserted into the fifth gear 508; the outer surface of the third transmission rod 507 is rotatably connected with the drying cabin 509; the inner axis of the fourth transmission wheel 5010 is spliced with the telescopic rod 5011; the outer surface of the telescopic rod 5011 is sleeved with a sliding sleeve rod frame 5012; the outer surface of the sliding sleeve rod frame 5012 is spliced with the fourth bevel gear 5013; the outer surface of the sliding sleeve rod frame 5012 is in bolted connection with a first miniature push rod 5014; the inner side wall of the drying chamber 509 is connected with the heater 5016 through bolts; two sides of the opening of the drying cabin 509 are respectively provided with a cabin door 5015; the lower part in the drying cabin 509 is connected with a first linear guide rail 5017; the inner part of the first linear guide rail 5017 is connected with a sixth gear 5018 through a rotating shaft arranged in a sliding block; the sixth gear 5018 is spliced with the first rotary disc 5019 through a rotary shaft; the upper part of the first rotating disc 5019 is spliced with the second rotating disc 5020; the upper part in the drying cabin 509 is connected with a second linear guide rail 5021 through a bolt; the second linear guide 5021 is in sliding connection with the second micro push rod 5022 through a slider; three first air bags 5023 are equidistantly arranged on the outer surface of the second micro push rod 5022; a fixed sliding rail 5024 is arranged above the first rotating disc 5019; the outer surface of the fixed sliding rail 5024 is in sliding connection with the sliding sleeve seat 5025; the sliding sleeve seat 5025 is screwed with the first knob 5026; the sliding sleeve seat 5025 is connected with the folding supporting arm 5027; the folding support arm 5027 is screwed with the second knob 5028; the folding support arm 5027 is in sliding connection with the second air bag 5029 through a universal ball; the stepping motor 501 is connected with the underframe 1; the second transmission rod 502 is connected with the chassis 1; the outer ring surface of the third driving wheel 505 is in driving connection with the first driving wheel 301 through a belt; the telescopic rod 5011 and the first miniature push rod 5014 are connected with the underframe 1; the drying compartment 509 is connected with the chassis 1; the drying compartment 509 is connected to the second platen 405; the drying compartment 509 is connected with a third bevel gear 506 and a third transmission rod 507.

The final repair has two operation modes, one is that the bottle body is drilled on the position for drilling the broken blocks, the external equipment is also drilled, and the dust cleaning and glue injection treatment are carried out, or the bottle body is directly repaired after being directly cleaned; then the repairer places the bottle body on a second rotary disc 5020 on a first rotary disc 5019, then controls a second linear guide rail 5021 above the drying cabin 509 to move, so that a second micro push rod 5022 extends and retracts to drive a plurality of first air bags 5023 to extend into the bottle body to form an inner support, then the broken blocks on a cushion placing table in the drying cabin 509 are taken to be placed at the broken position of the bottle body, then the bottle body and the broken blocks are clamped through the matching of three groups of fixed sliding rails 5024, a sliding sleeve seat 5025, a first knob 5026, a folding support arm 5027, a second knob 5028 and a second air bag 5029, the clamping force is manually adjusted, the first knob 5026 and the second knob 5028 can be matched with the folding support arm 7, meanwhile, the second air bag 5029 has a certain thick hardness after being inflated, and has enough elasticity, and then the second rotary disc 5020 on the first rotary disc 5019 and the bottle body and the like are driven to move together through the first linear guide rail 5017, meanwhile, the second linear guide rail 5021 moves to drive the second micro push rod 5022 and the first air bags 5023 to simultaneously move together, so that the second micro push rod 5022 and the first air bags 5023 move towards the drying cabin 509, the sixth gear 5018 is meshed with the fifth gear 508, the stepping motor 501 drives the second transmission rod 502 to drive the second bevel gear 503 to be meshed with the third transmission rod 507 to rotate, the third transmission rod 507 rotates the fifth gear 508 and simultaneously drives the second turntable 5020 and the bottle body to rotate, at the moment, the cabin door 5015 is closed, the heater 5016 is simultaneously turned on, rotary automatic drying is realized, the combined fracture surface needs to be moved out midway during drying, then, the glaze is treated, is recoated, and is baked again; when the bottle body is not drilled, the gradual temperature rise adjustment needs to be carried out for many times, so that the gel can be softened in the crack and uniformly distributed, and then the bottle body is dried and fixed; if the bottle body is provided with the drilled hole, multi-gear adjustment of temperature can be reduced, and melting combination of the gel rib and the drilled hole of the bottle body can be realized; realizing more efficient fixed repair; meanwhile, the second transmission rod 502 drives the second transmission wheel 504 to transmit the fourth transmission wheel 5010 to drive the telescopic rod 5011 to rotate, when the first micro push rod 5014 drives the sliding rod holder 5012 to extend and retract, the telescopic rod 5011 rotates to slide on the telescopic rod 5011, the sliding rod holder 5012 drives the fourth bevel gear 5013 to move, and the fourth bevel gear 5013 can be selectively meshed with the first bevel gear 3018 in a matched manner; the third driving wheel 505 can be driven with the first driving wheel 301; the combined repair of the bottle body and the fragments is realized, and meanwhile, the bottle body and the fragments are protected, fixed and combined in a multi-dimensional manner for matching detection; the uniform repair of the lacquer glaze is realized; meanwhile, the fixed point trimming mechanism 3 can be linked to operate.

According to the invention, the cross section of the polishing roller 403 is in a waisted rectangular shape, and the polishing roller 403 is inclined at thirty-five degrees with the fifth sliding seat 402 when being installed.

Can cooperate and polish to the unnecessary glaze limit of fragment, the cambered surface of receipts waist position can not disturb the gel muscle when rotating simultaneously.

In the invention, a rectangular groove is arranged in the middle of the first bedplate 3032.

The clamping of the fragments can be coordinated with the movement of the fixed point trimming mechanism 3.

The head of the needle tube of the glue injection mechanism 3037 is in an oblique mouth shape, and an inverted bowl-shaped cover shell is inserted close to the head of the needle tube.

Can be matched with the needle tube to carry out certain dustproof protection.

In the invention, three groups of fixed sliding rails 5024 are arranged at equal intervals above the first rotating disc 5019, and meanwhile, three groups of integral structures consisting of sliding sleeve seats 5025, first knobs 5026, folding supporting arms 5027, second knobs 5028 and second air bags 5029 are arranged on each group of fixed sliding rails 5024, and the three groups of integral structures are arranged in a high-low manner.

Can realize fixed of multidimension degree, the protection of multi-angle is adjusted fixedly.

In the present invention, a cushion placing table is provided in the drying compartment 509.

The fragments can be placed in a transfer way.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims (8)

1. A ceramic ware repairing device comprises a bottom frame and a control screen; the device is characterized by comprising a fixed-point trimming mechanism, an edge glaze trimming mechanism, a shaping baking mechanism and a slideway; the underframe is connected with the control screen; the underframe is connected with a fixed point dressing mechanism; the bottom frame is connected with an edge glaze trimming mechanism; the underframe is connected with the shaping baking mechanism; the bottom frame is connected with the slide way; the fixed point trimming mechanism is connected with the edge glaze trimming mechanism; the fixed point finishing mechanism is connected with the shaping baking mechanism; the edge glaze trimming mechanism is connected with the shaping and baking mechanism;

the fixed point trimming mechanism also comprises a first driving wheel, a first support frame, a first gear, a first transmission rod, a second gear, a second support frame, a first double-rail slide rail, a first slide seat, a first fixed slide rod, a first screw rod, a third gear, a first clamping rod, a second clamping rod, a fourth gear, a first silica gel block, a second silica gel block, a first micro motor, a first bevel gear, a second screw rod, a third support frame, a second fixed slide rod, a third fixed slide rod, a first fixing frame, a first positioning roller, a first telescopic fixing frame, a second positioning roller, a fourth support frame, a second fixing frame, a third positioning roller, a second telescopic fixing frame, a fourth positioning roller, a first platen, a section scanner, a second double-rail slide rail, a first push rod device, a second slide seat, a glue injection mechanism, a third slide seat, a cleaning mechanism, a fourth slide seat and a drilling mechanism; the outer surface of the first transmission rod is sequentially provided with a first transmission wheel, a first support frame, a first gear, a second gear and a second support frame; a first double-rail slide rail is arranged below the first transmission rod; the interior of the first double-rail slide rail is in sliding connection with the first slide seat; the first sliding seat is internally sequentially spliced with a first fixed sliding rod and a first screw rod; a third gear, a first clamping rod, a second clamping rod and a fourth gear are sequentially arranged on the outer surface of the first screw rod; the first clamping rod and the second clamping rod are respectively sleeved with the first fixed sliding rod; the first clamping rod is inserted into the first silica gel block; the first clamping rod is in bolted connection with the first micro motor through a rotating shaft; the output shaft of the first micro motor is inserted with the second silica gel block; a first bevel gear is arranged below the side of the first double-rail sliding rail; the axis of the first bevel gear is inserted with the second screw rod through a rotating shaft; the outer surface of the second screw rod is connected with the third support frame in a screwing way; the outer surface of the second screw rod is in screwed connection with the fourth support frame; the third support frame and the fourth support frame are simultaneously inserted with the second fixed sliding rod and the third fixed sliding rod; the third supporting frame is sequentially connected with the first fixing frame and the first telescopic fixing frame; the first fixing frame is rotationally connected with the first positioning roller; the first telescopic fixing frame is rotationally connected with the second positioning roller; the fourth supporting frame is sequentially connected with the second fixing frame and the second telescopic fixing frame; the second fixing frame is rotationally connected with the third positioning roller; the second telescopic fixing frame is rotationally connected with the fourth positioning roller; a first platen is arranged below the fourth positioning roller; the upper part of the first bedplate is connected with the section scanner through a bolt; a second double-rail sliding rail is arranged below the first bedplate; the inner part of the second double-rail sliding rail is in sliding connection with the second sliding seat, the third sliding seat and the fourth sliding seat; the second sliding seat is connected with the glue injection mechanism; the third sliding seat is connected with the cleaning mechanism; the fourth sliding seat is connected with the drilling mechanism; a first push rod device is arranged below the fourth sliding seat; the first driving wheel is connected with the shaping baking mechanism; the first supporting frame is connected with the underframe; the second support frame and the first double-rail slide rail are both connected with the shaping baking mechanism; the first bedplate is connected with the underframe; the first bedplate is connected with the edge glaze trimming mechanism; the second double-rail sliding rail is connected with the underframe; the second screw rod, the second fixed sliding rod and the third fixed sliding rod are all connected with the bottom frame; the first push rod device is connected with the bottom frame; the first platen is connected with the slideway.

2. The apparatus for repairing a ceramic ware as set forth in claim 1, wherein the edge glaze trimming means further comprises a second pusher, a fifth slide carriage, a grinding roller, a second micro motor, a second platen, a stopper and a grating sensor; the second push rod device is connected with the fifth sliding seat through a bolt; the fifth sliding seat is rotatably connected with the polishing roller; the fifth sliding seat is connected with a second micro motor through a bolt; the output shaft of the second micro motor is inserted with the polishing roller; the fifth sliding seat is in sliding connection with the second bedplate; the fifth sliding seat is welded with the stop block; the fifth sliding seat is in screwed connection with the grating sensor; the second platen is connected with the shaping and baking mechanism; the second push rod device is connected with the bottom frame; the second platen is coupled to the chassis.

3. The ceramic ware repairing apparatus according to claim 2, wherein the shaping baking mechanism further comprises a stepping motor, a second transmission rod, a second bevel gear, a second transmission wheel, a third bevel gear, a third transmission rod, a fifth gear, a drying cabin, a fourth transmission wheel, a telescopic rod, a sliding sleeve rod rack, a fourth bevel gear, a first micro push rod, a cabin door, a heater, a first linear guide rail, a sixth gear, a first rotary disk, a second linear guide rail, a second micro push rod, a first air bag, a fixed slide rail, a sliding sleeve seat, a first knob, a folding support arm, a second knob and a second air bag; the outer surface of the second transmission rod is sequentially provided with a stepping motor, a second bevel gear, a second transmission wheel and a third transmission wheel; the second bevel gear is meshed with the third bevel gear; the outer ring surface of the second driving wheel is in transmission connection with a fourth driving wheel through a belt; the inner axis of the third bevel gear is inserted with a third transmission rod; the outer surface of the third transmission rod is spliced with the fifth gear; the outer surface of the third transmission rod is rotatably connected with the drying cabin; the inner axis of the fourth driving wheel is inserted into the telescopic rod; the outer surface of the telescopic rod is sleeved with the sliding sleeve rod frame; the outer surface of the sliding sleeve rod frame is spliced with a fourth bevel gear; the outer surface of the sliding sleeve rod frame is connected with the first miniature push rod through a bolt; the inner side wall of the drying cabin is connected with the heater through bolts; two sides of the opening of the drying cabin are respectively provided with a cabin door; the lower part in the drying cabin is connected with a first linear guide rail; the interior of the first linear guide rail is connected with a sixth gear through a rotating shaft arranged in a sliding block; the sixth gear is inserted with the first rotating disc through the rotating shaft; the upper part of the first rotating disc is inserted with the second rotating disc; the upper part in the drying cabin is connected with a second linear guide rail through a bolt; the second linear guide rail is in sliding connection with the second miniature push rod through a sliding block; three first air bags are arranged on the outer surface of the second miniature push rod at equal intervals; a fixed slide rail is arranged above the first rotary disc; the outer surface of the fixed slide rail is in sliding connection with the sliding sleeve seat; the sliding sleeve seat is connected with the first knob in a screwing way; the sliding sleeve seat is connected with the folding supporting arm; the folding support arm is connected with the second knob in a screwing way; the folding supporting arm is in sliding connection with the second air bag through a universal ball; the stepping motor is connected with the bottom frame; the second transmission rod is connected with the underframe; the outer ring surface of the third driving wheel is in transmission connection with the first driving wheel through a belt; the telescopic rod and the first miniature push rod are connected with the underframe; the drying cabin is connected with the underframe; the drying cabin is connected with the second bedplate; the drying cabin is connected with a third bevel gear and a third transmission rod.

4. A ceramic ware repairing device as claimed in claim 3, wherein the grinding roller is of a rectangular shape with a waisted cross-section and is mounted with an inclination of thirty-five degrees to the fifth carriage.

5. The apparatus as claimed in claim 4, wherein a rectangular groove is formed in an inner central portion of the first platen.

6. The apparatus as claimed in claim 5, wherein the needle head of the glue injection mechanism is beveled and an inverted bowl-shaped casing is inserted adjacent to the needle head.

7. The apparatus as claimed in claim 6, wherein the fixed sliding rails are provided with three sets of fixed sliding rails which are equidistantly arranged above the first rotary plate, and each set of fixed sliding rails is provided with three sets of sliding sleeve seats, a first knob, a foldable support arm, a second knob and a second air bag, and the three sets of sliding sleeve seats, the first knob, the foldable support arm, the second knob and the second air bag are arranged in a height-shaped manner.

8. The apparatus for repairing a ceramic ware as set forth in claim 7, wherein a cushion table is provided in the drying chamber.

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